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Erschienen in:

16.07.2021 | Review Article

The Function and Therapeutic Potential of Circular RNA in Cardiovascular Diseases

verfasst von: Kai Wang, Xiang-Qian Gao, Tao Wang, Lu-Yu Zhou

Erschienen in: Cardiovascular Drugs and Therapy | Ausgabe 1/2023

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Abstract

Circular RNA (circRNA) has a closed-loop structure, and its 3’ and 5’ ends are directly covalently connected by reverse splicing, which is more stable than linear RNA. CircRNAs usually possess microRNA (miRNA) binding sites, which can bind miRNAs and inhibit miRNA function. Many studies have shown that circRNAs are involved in the processes of cell senescence, proliferation and apoptosis and a series of signalling pathways, playing an important role in the prevention and treatment of diseases. CircRNAs are potential biological diagnostic markers and therapeutic targets for cardiovascular diseases (CVDs). To identify biomarkers and potential effective therapeutic targets without toxicity for heart disease, we summarize the biogenesis, biology, characterization and functions of circRNAs in CVDs, hoping that this information will shed new light on the prevention and treatment of CVDs.
Literatur
1.
Zurück zum Zitat Memczak S, Jens M, Elefsinioti A, Torti F, Krueger J, Rybak A, et al. Circular rnas are a large class of animal rnas with regulatory potency. Nature. 2013;495(7441):333–8.CrossRef Memczak S, Jens M, Elefsinioti A, Torti F, Krueger J, Rybak A, et al. Circular rnas are a large class of animal rnas with regulatory potency. Nature. 2013;495(7441):333–8.CrossRef
2.
Zurück zum Zitat Sanger HL, Klotz G, Riesner D, Gross HJ, Kleinschmidt AK. Viroids are single-stranded covalently closed circular rna molecules existing as highly base-paired rod-like structures. Proc Natl Acad Sci U S A. 1976;73(11):3852–6.CrossRef Sanger HL, Klotz G, Riesner D, Gross HJ, Kleinschmidt AK. Viroids are single-stranded covalently closed circular rna molecules existing as highly base-paired rod-like structures. Proc Natl Acad Sci U S A. 1976;73(11):3852–6.CrossRef
3.
Zurück zum Zitat Hsu MT, Coca-Prados M. Electron microscopic evidence for the circular form of rna in the cytoplasm of eukaryotic cells. Nature. 1979;280(5720):339–40.CrossRef Hsu MT, Coca-Prados M. Electron microscopic evidence for the circular form of rna in the cytoplasm of eukaryotic cells. Nature. 1979;280(5720):339–40.CrossRef
4.
Zurück zum Zitat Capel B, Swain A, Nicolis S, Hacker A, Walter M, Koopman P, et al. Circular transcripts of the testis-determining gene sry in adult mouse testis. Cell. 1993;73(5):1019–30.CrossRef Capel B, Swain A, Nicolis S, Hacker A, Walter M, Koopman P, et al. Circular transcripts of the testis-determining gene sry in adult mouse testis. Cell. 1993;73(5):1019–30.CrossRef
5.
Zurück zum Zitat Cocquerelle C, Mascrez B, Hétuin D, Bailleul B. Mis-splicing yields circular rna molecules. FASEB J. 1993;7(1):155–60.CrossRef Cocquerelle C, Mascrez B, Hétuin D, Bailleul B. Mis-splicing yields circular rna molecules. FASEB J. 1993;7(1):155–60.CrossRef
6.
Zurück zum Zitat Chen X, Han P, Zhou T, Guo X, Song X, Li Y. Circrnadb: a comprehensive database for human circular rnas with protein-coding annotations. Sci Rep. 2016;6:34985.CrossRef Chen X, Han P, Zhou T, Guo X, Song X, Li Y. Circrnadb: a comprehensive database for human circular rnas with protein-coding annotations. Sci Rep. 2016;6:34985.CrossRef
7.
Zurück zum Zitat Abdelmohsen K, Panda A, Munk R, Grammatikakis I, Dudekula D, De S, et al. Identification of hur target circular rnas uncovers suppression of pabpn1 translation by circpabpn1. RNA Biol. 2017;14(3):361–9.CrossRef Abdelmohsen K, Panda A, Munk R, Grammatikakis I, Dudekula D, De S, et al. Identification of hur target circular rnas uncovers suppression of pabpn1 translation by circpabpn1. RNA Biol. 2017;14(3):361–9.CrossRef
8.
Zurück zum Zitat Ashwal-Fluss R, Meyer M, Pamudurti NR, Ivanov A, Bartok O, Hanan M, et al. Circrna biogenesis competes with pre-mrna splicing. Mol Cell. 2014;56(1):55–66.CrossRef Ashwal-Fluss R, Meyer M, Pamudurti NR, Ivanov A, Bartok O, Hanan M, et al. Circrna biogenesis competes with pre-mrna splicing. Mol Cell. 2014;56(1):55–66.CrossRef
9.
Zurück zum Zitat Ying C, Guohai Y, Ye Z, et al. High glucose-induced circhipk3 downregulation mediates endothelial cell injury. Biochem Biophys Res Commun. 2018;507(1–4):362–8. Ying C, Guohai Y, Ye Z, et al. High glucose-induced circhipk3 downregulation mediates endothelial cell injury. Biochem Biophys Res Commun. 2018;507(1–4):362–8.
10.
Zurück zum Zitat Lu D, Thum T. Rna-based diagnostic and therapeutic strategies for cardiovascular disease. Nat Rev Cardiol. 2019;16(11):661–74.CrossRef Lu D, Thum T. Rna-based diagnostic and therapeutic strategies for cardiovascular disease. Nat Rev Cardiol. 2019;16(11):661–74.CrossRef
11.
Zurück zum Zitat Zhang TR, Huang WQ. Angiogenic circular rnas: a new landscape in cardiovascular diseases. Microvasc Res. 2020;129:103983.CrossRef Zhang TR, Huang WQ. Angiogenic circular rnas: a new landscape in cardiovascular diseases. Microvasc Res. 2020;129:103983.CrossRef
12.
Zurück zum Zitat Chen I, Chen CY, Chuang TJ. Biogenesis, identification, and function of exonic circular rnas. Wiley Interdiscip Rev RNA. 2015;6(5):563–79.CrossRef Chen I, Chen CY, Chuang TJ. Biogenesis, identification, and function of exonic circular rnas. Wiley Interdiscip Rev RNA. 2015;6(5):563–79.CrossRef
13.
Zurück zum Zitat Li Z, Huang C, Bao C, Chen L, Lin M, Wang X, et al. Exon-intron circular rnas regulate transcription in the nucleus. Nat Struct Mol Biol. 2015;22(3):256–64.CrossRef Li Z, Huang C, Bao C, Chen L, Lin M, Wang X, et al. Exon-intron circular rnas regulate transcription in the nucleus. Nat Struct Mol Biol. 2015;22(3):256–64.CrossRef
14.
Zurück zum Zitat Kelly SGC, Cook PR, Papantonis A. Exon skipping is correlated with exon circularization. J Mol Biol. 2015;427(15):2414–7.CrossRef Kelly SGC, Cook PR, Papantonis A. Exon skipping is correlated with exon circularization. J Mol Biol. 2015;427(15):2414–7.CrossRef
15.
Zurück zum Zitat Zhang Y, Zhang XO, Chen T, Xiang JF, Yin QF, Xing YH, et al. Circular intronic long noncoding rnas. Mol Cell. 2013;51(6):792–806.CrossRef Zhang Y, Zhang XO, Chen T, Xiang JF, Yin QF, Xing YH, et al. Circular intronic long noncoding rnas. Mol Cell. 2013;51(6):792–806.CrossRef
16.
Zurück zum Zitat Vo J, Cieslik M, Zhang Y, Shukla S, Xiao L, Zhang Y, et al. The landscape of circular rna in cancer. Cell. 2019;176(4):869-81.e13.CrossRef Vo J, Cieslik M, Zhang Y, Shukla S, Xiao L, Zhang Y, et al. The landscape of circular rna in cancer. Cell. 2019;176(4):869-81.e13.CrossRef
17.
Zurück zum Zitat Suzuki H, Tsukahara T. A view of pre-mrna splicing from rnase r resistant rnas. Int J Mol Sci. 2014;15(6):9331–42.CrossRef Suzuki H, Tsukahara T. A view of pre-mrna splicing from rnase r resistant rnas. Int J Mol Sci. 2014;15(6):9331–42.CrossRef
18.
Zurück zum Zitat Du W, Yang W, Chen Y, Wu Z, Foster F, Yang Z, et al. Foxo3 circular rna promotes cardiac senescence by modulating multiple factors associated with stress and senescence responses. Eur Heart J. 2017;38(18):1402–12. Du W, Yang W, Chen Y, Wu Z, Foster F, Yang Z, et al. Foxo3 circular rna promotes cardiac senescence by modulating multiple factors associated with stress and senescence responses. Eur Heart J. 2017;38(18):1402–12.
19.
Zurück zum Zitat Cai J, Chen Z, Wang J, Wang J, Chen X, Liang L, et al. Circhectd1 facilitates glutaminolysis to promote gastric cancer progression by targeting mir-1256 and activating β-catenin/c-myc signaling. Cell Death Dis. 2019;10(8):576.CrossRef Cai J, Chen Z, Wang J, Wang J, Chen X, Liang L, et al. Circhectd1 facilitates glutaminolysis to promote gastric cancer progression by targeting mir-1256 and activating β-catenin/c-myc signaling. Cell Death Dis. 2019;10(8):576.CrossRef
20.
Zurück zum Zitat Qu S, Liu Z, Yang X, Zhou J, Yu H, Zhang R, et al. The emerging functions and roles of circular rnas in cancer. Cancer Lett. 2018;414:301–9.CrossRef Qu S, Liu Z, Yang X, Zhou J, Yu H, Zhang R, et al. The emerging functions and roles of circular rnas in cancer. Cancer Lett. 2018;414:301–9.CrossRef
21.
Zurück zum Zitat Wen G, Zhou T, Gu W. The potential of using blood circular rna as liquid biopsy biomarker for human diseases. Protein Cell. 2020. Wen G, Zhou T, Gu W. The potential of using blood circular rna as liquid biopsy biomarker for human diseases. Protein Cell. 2020.
22.
Zurück zum Zitat Huang A, Zheng H, Wu Z, Chen M, Huang Y. Circular rna-protein interactions: functions, mechanisms, and identification. Theranostics. 2020;10(8):3503–17.CrossRef Huang A, Zheng H, Wu Z, Chen M, Huang Y. Circular rna-protein interactions: functions, mechanisms, and identification. Theranostics. 2020;10(8):3503–17.CrossRef
23.
Zurück zum Zitat Hansen T, Wiklund E, Bramsen J, Villadsen S, Statham A, Clark S, et al. Mirna-dependent gene silencing involving ago2-mediated cleavage of a circular antisense rna. EMBO J. 2011;30(21):4414–22.CrossRef Hansen T, Wiklund E, Bramsen J, Villadsen S, Statham A, Clark S, et al. Mirna-dependent gene silencing involving ago2-mediated cleavage of a circular antisense rna. EMBO J. 2011;30(21):4414–22.CrossRef
24.
Zurück zum Zitat Park O, Ha H, Lee Y, Boo S, Kwon D, Song H, et al. Endoribonucleolytic cleavage of ma-containing rnas by rnase p/mrp complex. Mol Cell. 2019;74(3):494-507.e8.CrossRef Park O, Ha H, Lee Y, Boo S, Kwon D, Song H, et al. Endoribonucleolytic cleavage of ma-containing rnas by rnase p/mrp complex. Mol Cell. 2019;74(3):494-507.e8.CrossRef
25.
Zurück zum Zitat Fischer J, Busa V, Shao Y, Leung A. Structure-mediated rna decay by upf1 and g3bp1. Mol Cell. 2020;78(1):70-84.e6.CrossRef Fischer J, Busa V, Shao Y, Leung A. Structure-mediated rna decay by upf1 and g3bp1. Mol Cell. 2020;78(1):70-84.e6.CrossRef
26.
Zurück zum Zitat Jia R, Xiao M, Li Z, Shan G, Huang C. Defining an evolutionarily conserved role of gw182 in circular rna degradation. Cell Discov. 2019;5:45.CrossRef Jia R, Xiao M, Li Z, Shan G, Huang C. Defining an evolutionarily conserved role of gw182 in circular rna degradation. Cell Discov. 2019;5:45.CrossRef
27.
Zurück zum Zitat Liu C, Li X, Nan F, Jiang S, Gao X, Guo S, et al. Structure and degradation of circular rnas regulate pkr activation in innate immunity. Cell. 2019;177(4):865-80.e21.CrossRef Liu C, Li X, Nan F, Jiang S, Gao X, Guo S, et al. Structure and degradation of circular rnas regulate pkr activation in innate immunity. Cell. 2019;177(4):865-80.e21.CrossRef
28.
Zurück zum Zitat Liang D, Tatomer DC, Luo Z, Wu H, Yang L, Chen L-L, et al. The output of protein-coding genes shifts to circular rnas when the pre-mrna processing machinery is limiting. Mol Cell. 2017;68(5):940-54.e3.CrossRef Liang D, Tatomer DC, Luo Z, Wu H, Yang L, Chen L-L, et al. The output of protein-coding genes shifts to circular rnas when the pre-mrna processing machinery is limiting. Mol Cell. 2017;68(5):940-54.e3.CrossRef
29.
Zurück zum Zitat Beermann J, Piccoli M, Viereck J, Thum T. Non-coding rnas in development and disease: background, mechanisms, and therapeutic approaches. Physiol Rev. 2016;96(4):1297–325.CrossRef Beermann J, Piccoli M, Viereck J, Thum T. Non-coding rnas in development and disease: background, mechanisms, and therapeutic approaches. Physiol Rev. 2016;96(4):1297–325.CrossRef
30.
Zurück zum Zitat Ebert MS, Neilson JR, Sharp PA. Microrna sponges: competitive inhibitors of small rnas in mammalian cells. Nat Methods. 2007;4(9):721–6.CrossRef Ebert MS, Neilson JR, Sharp PA. Microrna sponges: competitive inhibitors of small rnas in mammalian cells. Nat Methods. 2007;4(9):721–6.CrossRef
31.
Zurück zum Zitat Poliseno L, Salmena L, Zhang J, Carver B, Haveman WJ, Pandolfi PP. A coding-independent function of gene and pseudogene mrnas regulates tumour biology. Nature. 2010;465(7301):1033–8.CrossRef Poliseno L, Salmena L, Zhang J, Carver B, Haveman WJ, Pandolfi PP. A coding-independent function of gene and pseudogene mrnas regulates tumour biology. Nature. 2010;465(7301):1033–8.CrossRef
32.
Zurück zum Zitat Zhao F, Chen T, Jiang N. Cdr1as/mir-7/ckap4 axis contributes to the pathogenesis of abdominal aortic aneurysm by regulating the proliferation and apoptosis of primary vascular smooth muscle cells. Exp Ther Med. 2020;19(6):3760–6. Zhao F, Chen T, Jiang N. Cdr1as/mir-7/ckap4 axis contributes to the pathogenesis of abdominal aortic aneurysm by regulating the proliferation and apoptosis of primary vascular smooth muscle cells. Exp Ther Med. 2020;19(6):3760–6.
33.
Zurück zum Zitat Piwecka M, Glazar P, Hernandez-Miranda LR, Memczak S, Wolf SA, Rybak-Wolf A, et al. Loss of a mammalian circular rna locus causes mirna deregulation and affects brain function. Science. 2017;357(6357):eaam8526.CrossRef Piwecka M, Glazar P, Hernandez-Miranda LR, Memczak S, Wolf SA, Rybak-Wolf A, et al. Loss of a mammalian circular rna locus causes mirna deregulation and affects brain function. Science. 2017;357(6357):eaam8526.CrossRef
34.
Zurück zum Zitat Hansen TB, Jensen TI, Clausen BH, Bramsen JB, Finsen B, Damgaard CK, et al. Natural rna circles function as efficient microrna sponges. Nature. 2013;495(7441):384–8.CrossRef Hansen TB, Jensen TI, Clausen BH, Bramsen JB, Finsen B, Damgaard CK, et al. Natural rna circles function as efficient microrna sponges. Nature. 2013;495(7441):384–8.CrossRef
35.
Zurück zum Zitat Quan H, Chen Q, Wang K, Wang Q, Lu M, Zhang Y, et al. Exendin-4 reversed the pc12 cell damage induced by circrna cdr1as/mir-671/gsk3β signaling pathway. J Mol Neurosci. 2020;71(4):778–89.CrossRef Quan H, Chen Q, Wang K, Wang Q, Lu M, Zhang Y, et al. Exendin-4 reversed the pc12 cell damage induced by circrna cdr1as/mir-671/gsk3β signaling pathway. J Mol Neurosci. 2020;71(4):778–89.CrossRef
36.
Zurück zum Zitat Dang R, Liu F, Li Y. Circular rna hsa_circ_0010729 regulates vascular endothelial cell proliferation and apoptosis by targeting the mir-186/hif-1α axis. Biochem Biophys Res Commun. 2017;490(2):104–10.CrossRef Dang R, Liu F, Li Y. Circular rna hsa_circ_0010729 regulates vascular endothelial cell proliferation and apoptosis by targeting the mir-186/hif-1α axis. Biochem Biophys Res Commun. 2017;490(2):104–10.CrossRef
37.
Zurück zum Zitat Zhuang J, Li T, Hu X, Ning M, Gao W, Lang Y, et al. Circ_chfr expedites cell growth, migration and inflammation in ox-ldl-treated human vascular smooth muscle cells via the mir-214-3p/wnt3/β-catenin pathway. Eur Rev Med Pharmacol Sci. 2020;24(6):3282–92. Zhuang J, Li T, Hu X, Ning M, Gao W, Lang Y, et al. Circ_chfr expedites cell growth, migration and inflammation in ox-ldl-treated human vascular smooth muscle cells via the mir-214-3p/wnt3/β-catenin pathway. Eur Rev Med Pharmacol Sci. 2020;24(6):3282–92.
38.
Zurück zum Zitat Bressin A, Schulte-Sasse R, Figini D, Urdaneta EC, Beckmann BM, Marsico A. Tripepsvm: de novo prediction of rna-binding proteins based on short amino acid motifs. Nucleic Acids Res. 2019;47(9):4406–17. CrossRef Bressin A, Schulte-Sasse R, Figini D, Urdaneta EC, Beckmann BM, Marsico A. Tripepsvm: de novo prediction of rna-binding proteins based on short amino acid motifs. Nucleic Acids Res. 2019;47(9):4406–17. CrossRef
39.
Zurück zum Zitat Zang J, Lu D, Xu A. The interaction of circrnas and rna binding proteins: an important part of circrna maintenance and function. J Neurosci Res. 2020;98(1):87–97.CrossRef Zang J, Lu D, Xu A. The interaction of circrnas and rna binding proteins: an important part of circrna maintenance and function. J Neurosci Res. 2020;98(1):87–97.CrossRef
40.
Zurück zum Zitat Ma S, Kong S, Wang F, Ju S. Circrnas: biogenesis, functions, and role in drug-resistant tumours. Mol Cancer. 2020;19(1):119.CrossRef Ma S, Kong S, Wang F, Ju S. Circrnas: biogenesis, functions, and role in drug-resistant tumours. Mol Cancer. 2020;19(1):119.CrossRef
41.
Zurück zum Zitat Zeng Y, Du W, Wu Y, Yang Z, Awan F, Li X, et al. A circular rna binds to and activates akt phosphorylation and nuclear localization reducing apoptosis and enhancing cardiac repair. Theranostics. 2017;7(16):3842–55.CrossRef Zeng Y, Du W, Wu Y, Yang Z, Awan F, Li X, et al. A circular rna binds to and activates akt phosphorylation and nuclear localization reducing apoptosis and enhancing cardiac repair. Theranostics. 2017;7(16):3842–55.CrossRef
42.
Zurück zum Zitat Conn S, Pillman K, Toubia J, Conn V, Salmanidis M, Phillips C, et al. The rna binding protein quaking regulates formation of circrnas. Cell. 2015;160(6):1125–34.CrossRef Conn S, Pillman K, Toubia J, Conn V, Salmanidis M, Phillips C, et al. The rna binding protein quaking regulates formation of circrnas. Cell. 2015;160(6):1125–34.CrossRef
43.
Zurück zum Zitat Holdt L, Stahringer A, Sass K, Pichler G, Kulak N, Wilfert W, et al. Circular non-coding rna anril modulates ribosomal rna maturation and atherosclerosis in humans. Nat Commun. 2016;7:12429.CrossRef Holdt L, Stahringer A, Sass K, Pichler G, Kulak N, Wilfert W, et al. Circular non-coding rna anril modulates ribosomal rna maturation and atherosclerosis in humans. Nat Commun. 2016;7:12429.CrossRef
44.
Zurück zum Zitat Abe N, Matsumoto K, Nishihara M, Nakano Y, Shibata A, Maruyama H, et al. Rolling circle translation of circular rna in living human cells. Sci Rep. 2015;5:16435.CrossRef Abe N, Matsumoto K, Nishihara M, Nakano Y, Shibata A, Maruyama H, et al. Rolling circle translation of circular rna in living human cells. Sci Rep. 2015;5:16435.CrossRef
45.
Zurück zum Zitat Santer L, Bär C, Thum T. Circular rnas: a novel class of functional rna molecules with a therapeutic perspective. Mol Ther. 2019;27(8):1350–63.CrossRef Santer L, Bär C, Thum T. Circular rnas: a novel class of functional rna molecules with a therapeutic perspective. Mol Ther. 2019;27(8):1350–63.CrossRef
46.
Zurück zum Zitat Lei M, Zheng G, Ning Q, Zheng J, Dong D. Translation and functional roles of circular rnas in human cancer. Mol Cancer. 2020;19(1):30.CrossRef Lei M, Zheng G, Ning Q, Zheng J, Dong D. Translation and functional roles of circular rnas in human cancer. Mol Cancer. 2020;19(1):30.CrossRef
47.
Zurück zum Zitat Pamudurti N, Bartok O, Jens M, Ashwal-Fluss R, Stottmeister C, Ruhe L, et al. Translation of circrnas. Mol Cell. 2017;66(1):9-21.e7.CrossRef Pamudurti N, Bartok O, Jens M, Ashwal-Fluss R, Stottmeister C, Ruhe L, et al. Translation of circrnas. Mol Cell. 2017;66(1):9-21.e7.CrossRef
48.
Zurück zum Zitat Legnini I, Di Timoteo G, Rossi F, Morlando M, Briganti F, Sthandier O, et al. Circ-znf609 is a circular rna that can be translated and functions in myogenesis. Mol Cell. 2017;66(1):22-37.e9.CrossRef Legnini I, Di Timoteo G, Rossi F, Morlando M, Briganti F, Sthandier O, et al. Circ-znf609 is a circular rna that can be translated and functions in myogenesis. Mol Cell. 2017;66(1):22-37.e9.CrossRef
49.
Zurück zum Zitat van Heesch S, Witte F, Schneider-Lunitz V, Schulz J, Adami E, Faber A, et al. The translational landscape of the human heart. Cell. 2019;178(1):242-60.e29.CrossRef van Heesch S, Witte F, Schneider-Lunitz V, Schulz J, Adami E, Faber A, et al. The translational landscape of the human heart. Cell. 2019;178(1):242-60.e29.CrossRef
50.
Zurück zum Zitat Liu J, Liu T, Wang X, He A. Circles reshaping the rna world: from waste to treasure. Mol Cancer. 2017;16(1):58.CrossRef Liu J, Liu T, Wang X, He A. Circles reshaping the rna world: from waste to treasure. Mol Cancer. 2017;16(1):58.CrossRef
51.
Zurück zum Zitat McAloon C, Boylan L, Hamborg T, Stallard N, Osman F, Lim P, et al. The changing face of cardiovascular disease 2000–2012: an analysis of the world health organisation global health estimates data. Int J Cardiol. 2016;224:256–64.CrossRef McAloon C, Boylan L, Hamborg T, Stallard N, Osman F, Lim P, et al. The changing face of cardiovascular disease 2000–2012: an analysis of the world health organisation global health estimates data. Int J Cardiol. 2016;224:256–64.CrossRef
52.
Zurück zum Zitat Members WG, Mozaffarian D, Benjamin EJ, Go AS, Arnett DK, Blaha MJ, et al. Heart disease and stroke statistics-2016 update: a report from the American Heart Association. Circulation. 2016;133(4):e38. Members WG, Mozaffarian D, Benjamin EJ, Go AS, Arnett DK, Blaha MJ, et al. Heart disease and stroke statistics-2016 update: a report from the American Heart Association. Circulation. 2016;133(4):e38.
53.
Zurück zum Zitat Geng HH, Rui L, Su YM, Jie X, Min P, Cai XX, et al. The circular rna cdr1as promotes myocardial infarction by mediating the regulation of mir-7a on its target genes expression. Plos One. 2016;11(3):e0151753.CrossRef Geng HH, Rui L, Su YM, Jie X, Min P, Cai XX, et al. The circular rna cdr1as promotes myocardial infarction by mediating the regulation of mir-7a on its target genes expression. Plos One. 2016;11(3):e0151753.CrossRef
54.
Zurück zum Zitat Wang K, Gan T-Y, Li N, Liu C-Y, Zhou L-Y, Gao J-N, et al. Circular rna mediates cardiomyocyte death via mirna-dependent upregulation of mtp18 expression. Cell Death Differ. 2017;24(6):1111–20.CrossRef Wang K, Gan T-Y, Li N, Liu C-Y, Zhou L-Y, Gao J-N, et al. Circular rna mediates cardiomyocyte death via mirna-dependent upregulation of mtp18 expression. Cell Death Differ. 2017;24(6):1111–20.CrossRef
55.
Zurück zum Zitat Lidong Cai, Baozhen Qi, Xiaoyu Wu, et al. Circular rna ttc3 regulates cardiac function after myocardial infarction by sponging mir-15b. J Mol Cell Cardiol. 2019;130:10–22.CrossRef Lidong Cai, Baozhen Qi, Xiaoyu Wu, et al. Circular rna ttc3 regulates cardiac function after myocardial infarction by sponging mir-15b. J Mol Cell Cardiol. 2019;130:10–22.CrossRef
56.
Zurück zum Zitat Huang S, Li X, Zheng H, Si X, Li B, Wei G, et al. Loss of super-enhancer-regulated circrna nfix induces cardiac regeneration after myocardial infarction in adult mice. Circulation. 2019;139(25):2857–76.CrossRef Huang S, Li X, Zheng H, Si X, Li B, Wei G, et al. Loss of super-enhancer-regulated circrna nfix induces cardiac regeneration after myocardial infarction in adult mice. Circulation. 2019;139(25):2857–76.CrossRef
57.
Zurück zum Zitat Li M, Ding W, Tariq MA, Chang W, Zhang X, Xu W, et al. A circular transcript of ncx1 gene mediates ischemic myocardial injury by targeting mir-133a-3p. Theranostics. 2018;8(21):5855–69.CrossRef Li M, Ding W, Tariq MA, Chang W, Zhang X, Xu W, et al. A circular transcript of ncx1 gene mediates ischemic myocardial injury by targeting mir-133a-3p. Theranostics. 2018;8(21):5855–69.CrossRef
58.
Zurück zum Zitat Zhou L-Y, Zhai M, Huang Y, Sheng Xu, An T, Wang Y-H, et al. The circular rna acr attenuates myocardial ischemia/reperfusion injury by suppressing autophagy via modulation of the pink1/fam65b pathway. Cell Death Differ. 2018;26(7):1299–315.CrossRef Zhou L-Y, Zhai M, Huang Y, Sheng Xu, An T, Wang Y-H, et al. The circular rna acr attenuates myocardial ischemia/reperfusion injury by suppressing autophagy via modulation of the pink1/fam65b pathway. Cell Death Differ. 2018;26(7):1299–315.CrossRef
59.
Zurück zum Zitat Li Y, Ren S, Xia J, Wei Y, Xi Y. Eif4a3-induced circ-bnip3 aggravated hypoxia-induced injury of h9c2 cells by targeting mir-27a-3p/bnip3. Mol Ther Nucleic Acids. 2020;19:533–45.CrossRef Li Y, Ren S, Xia J, Wei Y, Xi Y. Eif4a3-induced circ-bnip3 aggravated hypoxia-induced injury of h9c2 cells by targeting mir-27a-3p/bnip3. Mol Ther Nucleic Acids. 2020;19:533–45.CrossRef
60.
Zurück zum Zitat Salgado-Somoza A, Zhang L, Vausort M, Devaux Y. The circular rna micra for risk stratification after myocardial infarction. International journal of cardiology. Heart Vasc. 2017;17:33–6.CrossRef Salgado-Somoza A, Zhang L, Vausort M, Devaux Y. The circular rna micra for risk stratification after myocardial infarction. International journal of cardiology. Heart Vasc. 2017;17:33–6.CrossRef
61.
Zurück zum Zitat Bai X, Niu R, Liu J, Pan X, Wang F, Yang W, et al. Roles of noncoding rnas in the initiation and progression of myocardial ischemia-reperfusion injury. Epigenomics. 2021;13(9):715–43.CrossRef Bai X, Niu R, Liu J, Pan X, Wang F, Yang W, et al. Roles of noncoding rnas in the initiation and progression of myocardial ischemia-reperfusion injury. Epigenomics. 2021;13(9):715–43.CrossRef
62.
Zurück zum Zitat Song Y, Zhao L, Wang B, Sun J, Hu J, Zhu X, et al. The circular rna tlk1 exacerbates myocardial ischemia/reperfusion injury via targeting mir-214/ripk1 through tnf signaling pathway. Free Radical Biol Med. 2020;155:69–80.CrossRef Song Y, Zhao L, Wang B, Sun J, Hu J, Zhu X, et al. The circular rna tlk1 exacerbates myocardial ischemia/reperfusion injury via targeting mir-214/ripk1 through tnf signaling pathway. Free Radical Biol Med. 2020;155:69–80.CrossRef
63.
Zurück zum Zitat Chen L, Luo W, Zhang W, Chu H, Wang J, Dai X, et al. Circdlpag4/hectd1 mediates ischaemia/reperfusion injury in endothelial cells via er stress. RNA Biol. 2020;17(2):240–53.CrossRef Chen L, Luo W, Zhang W, Chu H, Wang J, Dai X, et al. Circdlpag4/hectd1 mediates ischaemia/reperfusion injury in endothelial cells via er stress. RNA Biol. 2020;17(2):240–53.CrossRef
64.
Zurück zum Zitat Xiao Y, Oumarou DB, Wang S, Liu Y. Circular rna involved in the protective effect of Malva sylvestris l. On myocardial ischemic/re-perfused injury. Front Pharmacol. 2020;11:520486.CrossRef Xiao Y, Oumarou DB, Wang S, Liu Y. Circular rna involved in the protective effect of Malva sylvestris l. On myocardial ischemic/re-perfused injury. Front Pharmacol. 2020;11:520486.CrossRef
65.
Zurück zum Zitat Altesha M, Ni T, Khan A, Liu K, Zheng X. Circular rna in cardiovascular disease. J Cell Physiol. 2019;234(5):5588–600.CrossRef Altesha M, Ni T, Khan A, Liu K, Zheng X. Circular rna in cardiovascular disease. J Cell Physiol. 2019;234(5):5588–600.CrossRef
66.
Zurück zum Zitat Zhang CL, Long TY, Bi SS, Sheikh SA, Li F. Circpan3 ameliorates myocardial ischaemia/reperfusion injury by targeting mir-421/pink1 axis-mediated autophagy suppression. Lab Invest. 2021;101(1):89–103.CrossRef Zhang CL, Long TY, Bi SS, Sheikh SA, Li F. Circpan3 ameliorates myocardial ischaemia/reperfusion injury by targeting mir-421/pink1 axis-mediated autophagy suppression. Lab Invest. 2021;101(1):89–103.CrossRef
67.
Zurück zum Zitat Wang K, Long B, Liu F, Wang J, Liu C, Zhao B, et al. A circular rna protects the heart from pathological hypertrophy and heart failure by targeting mir-223. Eur Heart J. 2016;37(33):2602–11.CrossRef Wang K, Long B, Liu F, Wang J, Liu C, Zhao B, et al. A circular rna protects the heart from pathological hypertrophy and heart failure by targeting mir-223. Eur Heart J. 2016;37(33):2602–11.CrossRef
68.
Zurück zum Zitat Lim T, Aliwarga E, Luu T, Li Y, Ng S, Annadoray L, et al. Targeting the highly abundant circular rna circslc8a1 in cardiomyocytes attenuates pressure overload induced hypertrophy. Cardiovasc Res. 2019;115(14):1998–2007.CrossRef Lim T, Aliwarga E, Luu T, Li Y, Ng S, Annadoray L, et al. Targeting the highly abundant circular rna circslc8a1 in cardiomyocytes attenuates pressure overload induced hypertrophy. Cardiovasc Res. 2019;115(14):1998–2007.CrossRef
69.
Zurück zum Zitat Zhang Y, Chen B. Silencing circ_0062389 alleviates cardiomyocyte apoptosis in heart failure rats via modulating tgf-β1/smad3 signaling pathway. Gene. 2021;766:145154.CrossRef Zhang Y, Chen B. Silencing circ_0062389 alleviates cardiomyocyte apoptosis in heart failure rats via modulating tgf-β1/smad3 signaling pathway. Gene. 2021;766:145154.CrossRef
70.
Zurück zum Zitat Han J, Zhang L, Hu L, Yu H, Xu F, Yang B, et al. Circular rna-expression profiling reveals a potential role of hsa_circ_0097435 in heart failure via sponging multiple micrornas. Front Genet. 2020;11:212.CrossRef Han J, Zhang L, Hu L, Yu H, Xu F, Yang B, et al. Circular rna-expression profiling reveals a potential role of hsa_circ_0097435 in heart failure via sponging multiple micrornas. Front Genet. 2020;11:212.CrossRef
71.
Zurück zum Zitat Deng Y, Wang J, Xie G, Zeng X, Li H. Circ-hipk3 strengthens the effects of adrenaline in heart failure by mir-17-3p - adcy6 axis. Int J Biol Sci. 2019;15(11):2484–96.CrossRef Deng Y, Wang J, Xie G, Zeng X, Li H. Circ-hipk3 strengthens the effects of adrenaline in heart failure by mir-17-3p - adcy6 axis. Int J Biol Sci. 2019;15(11):2484–96.CrossRef
72.
Zurück zum Zitat Zaiou M. Circular rnas as potential biomarkers and therapeutic targets for metabolic diseases. Adv Exp Med Biol. 2019;1134:177–91.CrossRef Zaiou M. Circular rnas as potential biomarkers and therapeutic targets for metabolic diseases. Adv Exp Med Biol. 2019;1134:177–91.CrossRef
73.
Zurück zum Zitat Zaiou M. Circular rnas in hypertension: challenges and clinical promise. Hypertens Res. 2019;42(11):1653–63.CrossRef Zaiou M. Circular rnas in hypertension: challenges and clinical promise. Hypertens Res. 2019;42(11):1653–63.CrossRef
74.
Zurück zum Zitat Zhang S, Chen X, Li C, Li X, Liu C, Liu B, et al. Identification and characterization of circular rnas as a new class of putative biomarkers in diabetes retinopathy. Invest Ophthalmol Vis Sci. 2017;58(14):6500–9.CrossRef Zhang S, Chen X, Li C, Li X, Liu C, Liu B, et al. Identification and characterization of circular rnas as a new class of putative biomarkers in diabetes retinopathy. Invest Ophthalmol Vis Sci. 2017;58(14):6500–9.CrossRef
75.
Zurück zum Zitat Zhou B, Yu J. A novel identified circular rna, circrna_010567, promotes myocardial fibrosis via suppressing mir-141 by targeting tgf-β1. Biochem Biophys Res Commun. 2017;487(4):769–75.CrossRef Zhou B, Yu J. A novel identified circular rna, circrna_010567, promotes myocardial fibrosis via suppressing mir-141 by targeting tgf-β1. Biochem Biophys Res Commun. 2017;487(4):769–75.CrossRef
76.
Zurück zum Zitat Yang F, Li A, Qin Y, Che H, Wang Y, Lv J, et al. A novel circular rna mediates pyroptosis of diabetic cardiomyopathy by functioning as a competing endogenous rna. Mol Ther Nucleic Acids. 2019;17:636–43.CrossRef Yang F, Li A, Qin Y, Che H, Wang Y, Lv J, et al. A novel circular rna mediates pyroptosis of diabetic cardiomyopathy by functioning as a competing endogenous rna. Mol Ther Nucleic Acids. 2019;17:636–43.CrossRef
77.
Zurück zum Zitat Bazan HA, Hatfield SA, Brug A, Brooks AJ, Lightell DJ Jr, Woods TC. Carotid plaque rupture is accompanied by an increase in the ratio of serum circr-284 to mir-221 levels. Circ-Cardiovasc Genet. 2017;10(4):e001720.CrossRef Bazan HA, Hatfield SA, Brug A, Brooks AJ, Lightell DJ Jr, Woods TC. Carotid plaque rupture is accompanied by an increase in the ratio of serum circr-284 to mir-221 levels. Circ-Cardiovasc Genet. 2017;10(4):e001720.CrossRef
78.
Zurück zum Zitat Ernst C, Odom DT, Kutter C. The emergence of pirnas against transposon invasion to preserve mammalian genome integrity. Nat Commun. 2017;8(1):1411.CrossRef Ernst C, Odom DT, Kutter C. The emergence of pirnas against transposon invasion to preserve mammalian genome integrity. Nat Commun. 2017;8(1):1411.CrossRef
79.
Zurück zum Zitat Li C, Ma L, Yu B. Circular rna hsa_circ_0003575 regulates oxldl induced vascular endothelial cells proliferation and angiogenesis. Biomed Pharmacother. 2017;95:1514–9.CrossRef Li C, Ma L, Yu B. Circular rna hsa_circ_0003575 regulates oxldl induced vascular endothelial cells proliferation and angiogenesis. Biomed Pharmacother. 2017;95:1514–9.CrossRef
80.
Zurück zum Zitat Kang S, Sohn E, Lee S. Hydrogen sulfide as a potential alternative for the treatment of myocardial fibrosis. Oxid Med Cell Longev. 2020;2020:4105382.CrossRef Kang S, Sohn E, Lee S. Hydrogen sulfide as a potential alternative for the treatment of myocardial fibrosis. Oxid Med Cell Longev. 2020;2020:4105382.CrossRef
81.
Zurück zum Zitat Tang C, Zhang M, Huang L, Hu Z, Zhu J, Xiao Z, et al. Circrna_000203 enhances the expression of fibrosis-associated genes by derepressing targets of mir-26b-5p, col1a2 and ctgf, in cardiac fibroblasts. Sci Rep. 2017;7:40342.CrossRef Tang C, Zhang M, Huang L, Hu Z, Zhu J, Xiao Z, et al. Circrna_000203 enhances the expression of fibrosis-associated genes by derepressing targets of mir-26b-5p, col1a2 and ctgf, in cardiac fibroblasts. Sci Rep. 2017;7:40342.CrossRef
82.
Zurück zum Zitat Zhu Y, Pan W, Yang T, Meng X, Jiang Z, Tao L, et al. Upregulation of circular rna circnfib attenuates cardiac fibrosis by sponging mir-433. Front Genet. 2019;10:564. CrossRef Zhu Y, Pan W, Yang T, Meng X, Jiang Z, Tao L, et al. Upregulation of circular rna circnfib attenuates cardiac fibrosis by sponging mir-433. Front Genet. 2019;10:564. CrossRef
83.
Zurück zum Zitat Ni H, Li W, Zhuge Y, Xu S, Wang Y, Chen Y, et al. Inhibition of circhipk3 prevents angiotensin ii-induced cardiac fibrosis by sponging mir-29b-3p. Int J Cardiol. 2019;292:188–96. CrossRef Ni H, Li W, Zhuge Y, Xu S, Wang Y, Chen Y, et al. Inhibition of circhipk3 prevents angiotensin ii-induced cardiac fibrosis by sponging mir-29b-3p. Int J Cardiol. 2019;292:188–96. CrossRef
84.
Zurück zum Zitat Wang K, Dong Y, Liu J, Qian L, Wang T, Gao X, et al. Effects of redox in regulating and treatment of metabolic and inflammatory cardiovascular diseases. Oxid Med Cell Longev. 2020;2020:5860356.CrossRef Wang K, Dong Y, Liu J, Qian L, Wang T, Gao X, et al. Effects of redox in regulating and treatment of metabolic and inflammatory cardiovascular diseases. Oxid Med Cell Longev. 2020;2020:5860356.CrossRef
85.
Zurück zum Zitat Costa M, Cortez-Dias N, Gabriel A, de Sousa J, Fiúza M, Gallego J, et al. Circrna-mirna cross-talk in the transition from paroxysmal to permanent atrial fibrillation. Int J Cardiol. 2019;290:134–7.CrossRef Costa M, Cortez-Dias N, Gabriel A, de Sousa J, Fiúza M, Gallego J, et al. Circrna-mirna cross-talk in the transition from paroxysmal to permanent atrial fibrillation. Int J Cardiol. 2019;290:134–7.CrossRef
86.
Zurück zum Zitat Jiang S, Guo C, Zhang W, Che W, Zhang J, Zhuang S, et al. The integrative regulatory network of circrna, microrna, and mrna in atrial fibrillation. Front Genet. 2019;10:526.CrossRef Jiang S, Guo C, Zhang W, Che W, Zhang J, Zhuang S, et al. The integrative regulatory network of circrna, microrna, and mrna in atrial fibrillation. Front Genet. 2019;10:526.CrossRef
87.
Zurück zum Zitat Hu X, Chen L, Wu S, Xu K, Jiang W, Qin M, et al. Integrative analysis reveals key circular rna in atrial fibrillation. Front Genet. 2019;10:108.CrossRef Hu X, Chen L, Wu S, Xu K, Jiang W, Qin M, et al. Integrative analysis reveals key circular rna in atrial fibrillation. Front Genet. 2019;10:108.CrossRef
88.
Zurück zum Zitat Liu T, Zhang G, Wang Y, Rao M, Zhang Y, Guo A, et al. Identification of circular rna-microrna-messenger rna regulatory network in atrial fibrillation by integrated analysis. Biomed Res Int. 2020;2020:8037273. Liu T, Zhang G, Wang Y, Rao M, Zhang Y, Guo A, et al. Identification of circular rna-microrna-messenger rna regulatory network in atrial fibrillation by integrated analysis. Biomed Res Int. 2020;2020:8037273.
89.
Zurück zum Zitat Zhang P, Sun J, Li W. Genome-wide profiling reveals atrial fibrillation-related circular rnas in atrial appendages. Gene. 2020;728:144286.CrossRef Zhang P, Sun J, Li W. Genome-wide profiling reveals atrial fibrillation-related circular rnas in atrial appendages. Gene. 2020;728:144286.CrossRef
90.
Zurück zum Zitat Huang Y, Tang C, Du J, Jin H. Endogenous sulfur dioxide: a new member of gasotransmitter family in the cardiovascular system. Oxid Med Cell Longev. 2016;2016:8961951.CrossRef Huang Y, Tang C, Du J, Jin H. Endogenous sulfur dioxide: a new member of gasotransmitter family in the cardiovascular system. Oxid Med Cell Longev. 2016;2016:8961951.CrossRef
91.
Zurück zum Zitat Heagerty A, Heerkens E, Izzard A. Small artery structure and function in hypertension. J Cell Mol Med. 2010;14(5):1037–43. Heagerty A, Heerkens E, Izzard A. Small artery structure and function in hypertension. J Cell Mol Med. 2010;14(5):1037–43.
92.
Zurück zum Zitat Yin L, Yao J, Deng G, Wang X, Cai W, Shen J. Identification of candidate lncrnas and circrnas regulating wnt3/β-catenin signaling in essential hypertension. Aging. 2020;12(9):8261–88.CrossRef Yin L, Yao J, Deng G, Wang X, Cai W, Shen J. Identification of candidate lncrnas and circrnas regulating wnt3/β-catenin signaling in essential hypertension. Aging. 2020;12(9):8261–88.CrossRef
93.
Zurück zum Zitat Wu N, Jin L, Cai J. Profiling and bioinformatics analyses reveal differential circular rna expression in hypertensive patients. Clin Exp Hypertens. 2017;39(5):454–9.CrossRef Wu N, Jin L, Cai J. Profiling and bioinformatics analyses reveal differential circular rna expression in hypertensive patients. Clin Exp Hypertens. 2017;39(5):454–9.CrossRef
94.
Zurück zum Zitat Bao X, He X, Zheng S, Sun J, Luo Y, Tan R, et al. Up-regulation of circular rna hsa_circ_0037909 promotes essential hypertension. J Clin Lab Anal. 2019;33(4):e22853.CrossRef Bao X, He X, Zheng S, Sun J, Luo Y, Tan R, et al. Up-regulation of circular rna hsa_circ_0037909 promotes essential hypertension. J Clin Lab Anal. 2019;33(4):e22853.CrossRef
95.
Zurück zum Zitat Liu L, Gu T, Bao X, Zheng S, Zhao J, Zhang L. Microarray profiling of circular rna identifies hsa_circ_0126991 as a potential risk factor for essential hypertension. Cytogenet Genome Res. 2019;157(4):203–12.CrossRef Liu L, Gu T, Bao X, Zheng S, Zhao J, Zhang L. Microarray profiling of circular rna identifies hsa_circ_0126991 as a potential risk factor for essential hypertension. Cytogenet Genome Res. 2019;157(4):203–12.CrossRef
96.
Zurück zum Zitat Prestes P, Maier M, Woods B, Charchar F. A guide to the short, long and circular rnas in hypertension and cardiovascular disease. Int J Mol Sci. 2020;21(10):3666.CrossRef Prestes P, Maier M, Woods B, Charchar F. A guide to the short, long and circular rnas in hypertension and cardiovascular disease. Int J Mol Sci. 2020;21(10):3666.CrossRef
97.
Zurück zum Zitat Wang J, Sun H, Zhou Y, Huang K, Que J, Peng Y, et al. Circular rna microarray expression profile in 3,4-benzopyrene/angiotensin ii-induced abdominal aortic aneurysm in mice. J Cell Biochem. 2019;120(6):10484–94.CrossRef Wang J, Sun H, Zhou Y, Huang K, Que J, Peng Y, et al. Circular rna microarray expression profile in 3,4-benzopyrene/angiotensin ii-induced abdominal aortic aneurysm in mice. J Cell Biochem. 2019;120(6):10484–94.CrossRef
98.
Zurück zum Zitat Wilmink A, Quick C. Epidemiology and potential for prevention of abdominal aortic aneurysm. Br J Surg. 1998;85(2):155–62.CrossRef Wilmink A, Quick C. Epidemiology and potential for prevention of abdominal aortic aneurysm. Br J Surg. 1998;85(2):155–62.CrossRef
99.
Zurück zum Zitat Golledge J, Moxon J, Singh T, Bown M, Mani K, Wanhainen A. Lack of an effective drug therapy for abdominal aortic aneurysm. J Intern Med. 2020;288(1):6–22.CrossRef Golledge J, Moxon J, Singh T, Bown M, Mani K, Wanhainen A. Lack of an effective drug therapy for abdominal aortic aneurysm. J Intern Med. 2020;288(1):6–22.CrossRef
100.
Zurück zum Zitat Yang R, Wang Z, Meng G, Hua L. Circular rna ccdc66 facilitates abdominal aortic aneurysm through the overexpression of ccdc66. Cell Biochem Funct. 2020;38(7):830–8.CrossRef Yang R, Wang Z, Meng G, Hua L. Circular rna ccdc66 facilitates abdominal aortic aneurysm through the overexpression of ccdc66. Cell Biochem Funct. 2020;38(7):830–8.CrossRef
101.
Zurück zum Zitat Yue J, Zhu T, Yang J, Si Y, Xu X, Fang Y, et al. Circcbfb-mediated mir-28–5p facilitates abdominal aortic aneurysm via lypd3 and gria4. Life Sci. 2020;253:117533.CrossRef Yue J, Zhu T, Yang J, Si Y, Xu X, Fang Y, et al. Circcbfb-mediated mir-28–5p facilitates abdominal aortic aneurysm via lypd3 and gria4. Life Sci. 2020;253:117533.CrossRef
102.
Zurück zum Zitat Zheng C, Niu H, Li M, Zhang H, Yang Z, Tian L, et al. Cyclic rna hsa-circ-000595 regulates apoptosis of aortic smooth muscle cells. Mol Med Rep. 2015;12(5):6656–62.CrossRef Zheng C, Niu H, Li M, Zhang H, Yang Z, Tian L, et al. Cyclic rna hsa-circ-000595 regulates apoptosis of aortic smooth muscle cells. Mol Med Rep. 2015;12(5):6656–62.CrossRef
103.
Zurück zum Zitat Chen J, Cui L, Yuan J, Zhang Y, Sang H. Circular rna wdr77 target fgf-2 to regulate vascular smooth muscle cells proliferation and migration by sponging mir-124. Biochem Biophys Res Commun. 2017;494:126–32.CrossRef Chen J, Cui L, Yuan J, Zhang Y, Sang H. Circular rna wdr77 target fgf-2 to regulate vascular smooth muscle cells proliferation and migration by sponging mir-124. Biochem Biophys Res Commun. 2017;494:126–32.CrossRef
104.
Zurück zum Zitat Mao Y, Wang J, Guo X, Bi Y, Wang C. Circ-satb2 upregulates stim1 expression and regulates vascular smooth muscle cell proliferation and differentiation through mir-939. Biochem Biophys Res Commun. 2018;505(1):119–25.CrossRef Mao Y, Wang J, Guo X, Bi Y, Wang C. Circ-satb2 upregulates stim1 expression and regulates vascular smooth muscle cell proliferation and differentiation through mir-939. Biochem Biophys Res Commun. 2018;505(1):119–25.CrossRef
105.
Zurück zum Zitat Zhou M, Shi Z, Cai L, Li X, Ding Y, Xie T, et al. Circular rna expression profile and its potential regulative role in human abdominal aortic aneurysm. BMC Cardiovasc Disord. 2020;20(1):70.CrossRef Zhou M, Shi Z, Cai L, Li X, Ding Y, Xie T, et al. Circular rna expression profile and its potential regulative role in human abdominal aortic aneurysm. BMC Cardiovasc Disord. 2020;20(1):70.CrossRef
106.
Zurück zum Zitat Salgado-Somoza A, Zhang L, Vausort M, Devaux Y. The circular rna micra for risk stratification after myocardial infarction. Int J Cardiol Heart Vasc. 2017;17:33–6. Salgado-Somoza A, Zhang L, Vausort M, Devaux Y. The circular rna micra for risk stratification after myocardial infarction. Int J Cardiol Heart Vasc. 2017;17:33–6.
107.
Zurück zum Zitat Vausort M, Salgado-Somoza A, Zhang L, Leszek P, Devaux Y. Myocardial infarction-associated circular rna predicting left ventricular dysfunction. J Am Coll Cardiol. 2016;68(11):1247–8.CrossRef Vausort M, Salgado-Somoza A, Zhang L, Leszek P, Devaux Y. Myocardial infarction-associated circular rna predicting left ventricular dysfunction. J Am Coll Cardiol. 2016;68(11):1247–8.CrossRef
108.
Zurück zum Zitat Zhao Z, Li X, Gao C, Jian D, Hao P, Rao L, et al. Peripheral blood circular rna hsa_circ_0124644 can be used as a diagnostic biomarker of coronary artery disease. Sci Rep. 2017;7:39918.CrossRef Zhao Z, Li X, Gao C, Jian D, Hao P, Rao L, et al. Peripheral blood circular rna hsa_circ_0124644 can be used as a diagnostic biomarker of coronary artery disease. Sci Rep. 2017;7:39918.CrossRef
109.
Zurück zum Zitat Yang Y, Yu T, Jiang S, Zhang Y, Li M, Tang N, et al. Mirnas as potential therapeutic targets and diagnostic biomarkers for cardiovascular disease with a particular focus on wo2010091204. Expert Opin Ther Pat. 2017;27(9):1021–9.CrossRef Yang Y, Yu T, Jiang S, Zhang Y, Li M, Tang N, et al. Mirnas as potential therapeutic targets and diagnostic biomarkers for cardiovascular disease with a particular focus on wo2010091204. Expert Opin Ther Pat. 2017;27(9):1021–9.CrossRef
110.
Zurück zum Zitat Bao X, Zheng S, Mao S, Gu T, Liu S, Sun J, et al. A potential risk factor of essential hypertension in case-control study: circular rna hsa_circ_0037911. Biochem Biophys Res Commun. 2018;498(4):789–94.CrossRef Bao X, Zheng S, Mao S, Gu T, Liu S, Sun J, et al. A potential risk factor of essential hypertension in case-control study: circular rna hsa_circ_0037911. Biochem Biophys Res Commun. 2018;498(4):789–94.CrossRef
111.
Zurück zum Zitat Garikipati V, Verma S, Cheng Z, Liang D, Truongcao M, Cimini M, et al. Circular rna circfndc3b modulates cardiac repair after myocardial infarction via fus/vegf-a axis. Nat Commun. 2019;10(1):4317.CrossRef Garikipati V, Verma S, Cheng Z, Liang D, Truongcao M, Cimini M, et al. Circular rna circfndc3b modulates cardiac repair after myocardial infarction via fus/vegf-a axis. Nat Commun. 2019;10(1):4317.CrossRef
112.
Zurück zum Zitat Shen L, Hu Y, Lou J, Yin S, Wang W, Wang Y, et al. Circrna-0044073 is upregulated in atherosclerosis and increases the proliferation and invasion of cells by targeting mir-107. Mol Med Rep. 2019;19(5):3923–32. Shen L, Hu Y, Lou J, Yin S, Wang W, Wang Y, et al. Circrna-0044073 is upregulated in atherosclerosis and increases the proliferation and invasion of cells by targeting mir-107. Mol Med Rep. 2019;19(5):3923–32.
113.
Zurück zum Zitat Yang L, Yang F, Zhao H, Wang M, Zhang Y. Circular rna circchfr facilitates the proliferation and migration of vascular smooth muscle via mir-370/foxo1/cyclin d1 pathway. Mol Ther Nucleic Acids. 2019;16:434–41.CrossRef Yang L, Yang F, Zhao H, Wang M, Zhang Y. Circular rna circchfr facilitates the proliferation and migration of vascular smooth muscle via mir-370/foxo1/cyclin d1 pathway. Mol Ther Nucleic Acids. 2019;16:434–41.CrossRef
114.
Zurück zum Zitat Zhang Y, Chen Y, Yao H, Lie Z, Chen G, Tan H, et al. Elevated serum circ_0068481 levels as a potential diagnostic and prognostic indicator in idiopathic pulmonary arterial hypertension. Pulm Circ. 2019;9(4):2045894019888416.CrossRef Zhang Y, Chen Y, Yao H, Lie Z, Chen G, Tan H, et al. Elevated serum circ_0068481 levels as a potential diagnostic and prognostic indicator in idiopathic pulmonary arterial hypertension. Pulm Circ. 2019;9(4):2045894019888416.CrossRef
115.
Zurück zum Zitat Zheng S, Gu T, Bao X, Sun J, Zhao J, Zhang T, et al. Circular rna hsa_circ_0014243 may serve as a diagnostic biomarker for essential hypertension. Exp Ther Med. 2019;17(3):1728–36. Zheng S, Gu T, Bao X, Sun J, Zhao J, Zhang T, et al. Circular rna hsa_circ_0014243 may serve as a diagnostic biomarker for essential hypertension. Exp Ther Med. 2019;17(3):1728–36.
116.
Zurück zum Zitat Liu Y, Yang Y, Wang Z, Fu X, Chu X, Li Y, et al. Insights into the regulatory role of circrna in angiogenesis and clinical implications. Atherosclerosis. 2020;298:14–26.CrossRef Liu Y, Yang Y, Wang Z, Fu X, Chu X, Li Y, et al. Insights into the regulatory role of circrna in angiogenesis and clinical implications. Atherosclerosis. 2020;298:14–26.CrossRef
117.
Zurück zum Zitat Fan X, Weng X, Zhao Y, Chen W, Gan T, Xu D. Circular rnas in cardiovascular disease: an overview. Biomed Res Int. 2017;2017:5135781.CrossRef Fan X, Weng X, Zhao Y, Chen W, Gan T, Xu D. Circular rnas in cardiovascular disease: an overview. Biomed Res Int. 2017;2017:5135781.CrossRef
118.
Zurück zum Zitat Odqvist M, Andersson P, Tygesen H, Eggers K, Holzmann M. High-sensitivity troponins and outcomes after myocardial infarction. J Am Coll Cardiol. 2018;71(23):2616–24.CrossRef Odqvist M, Andersson P, Tygesen H, Eggers K, Holzmann M. High-sensitivity troponins and outcomes after myocardial infarction. J Am Coll Cardiol. 2018;71(23):2616–24.CrossRef
119.
Zurück zum Zitat McDonald K, Troughton R, Dahlström U, Dargie H, Krum H, van der Meer P, et al. Daily home bnp monitoring in heart failure for prediction of impending clinical deterioration: results from the home hf study. Eur J Heart Fail. 2018;20(3):474–80.CrossRef McDonald K, Troughton R, Dahlström U, Dargie H, Krum H, van der Meer P, et al. Daily home bnp monitoring in heart failure for prediction of impending clinical deterioration: results from the home hf study. Eur J Heart Fail. 2018;20(3):474–80.CrossRef
120.
Zurück zum Zitat Gaggin H, Januzzi J. Biomarkers and diagnostics in heart failure. Biochem Biophys Acta. 2013;1832(12):2442–50. Gaggin H, Januzzi J. Biomarkers and diagnostics in heart failure. Biochem Biophys Acta. 2013;1832(12):2442–50.
121.
Zurück zum Zitat Marciniak A, Nawrocka Rutkowska J, Brodowska A, Wiśniewska B, Starczewski A. Cardiovascular system diseases in patients with polycystic ovary syndrome - the role of inflammation process in this pathology and possibility of early diagnosis and prevention. Ann Agric Environ Med. 2016;23(4):537–41.CrossRef Marciniak A, Nawrocka Rutkowska J, Brodowska A, Wiśniewska B, Starczewski A. Cardiovascular system diseases in patients with polycystic ovary syndrome - the role of inflammation process in this pathology and possibility of early diagnosis and prevention. Ann Agric Environ Med. 2016;23(4):537–41.CrossRef
122.
Zurück zum Zitat Olson J. D-dimer: an overview of hemostasis and fibrinolysis, assays, and clinical applications. Adv Clin Chem. 2015;69:1–46.CrossRef Olson J. D-dimer: an overview of hemostasis and fibrinolysis, assays, and clinical applications. Adv Clin Chem. 2015;69:1–46.CrossRef
123.
Zurück zum Zitat Shan C, Zhang Y, Hao X, Gao J, Chen X, Wang K. Biogenesis, functions and clinical significance of circrnas in gastric cancer. Mol Cancer. 2019;18(1):136.CrossRef Shan C, Zhang Y, Hao X, Gao J, Chen X, Wang K. Biogenesis, functions and clinical significance of circrnas in gastric cancer. Mol Cancer. 2019;18(1):136.CrossRef
124.
Zurück zum Zitat Boeckel J, Jaé N, Heumüller A, Chen W, Boon R, Stellos K, et al. Identification and characterization of hypoxia-regulated endothelial circular rna. Circ Res. 2015;117(10):884–90.CrossRef Boeckel J, Jaé N, Heumüller A, Chen W, Boon R, Stellos K, et al. Identification and characterization of hypoxia-regulated endothelial circular rna. Circ Res. 2015;117(10):884–90.CrossRef
125.
Zurück zum Zitat Yang J, Cheng M, Gu B, Wang J, Yan S, Xu D. Circrna_09505 aggravates inflammation and joint damage in collagen-induced arthritis mice via mir-6089/akt1/nf-κb axis. Cell Death Dis. 2020;11(10):833.CrossRef Yang J, Cheng M, Gu B, Wang J, Yan S, Xu D. Circrna_09505 aggravates inflammation and joint damage in collagen-induced arthritis mice via mir-6089/akt1/nf-κb axis. Cell Death Dis. 2020;11(10):833.CrossRef
126.
Zurück zum Zitat Fan CY, Lei XJ, Fang ZQ, Jiang QH, Wu FX. Circr2disease: a manually curated database for experimentally supported circular rnas associated with various diseases. Database (Oxford). 2018;2018:bay044. Fan CY, Lei XJ, Fang ZQ, Jiang QH, Wu FX. Circr2disease: a manually curated database for experimentally supported circular rnas associated with various diseases. Database (Oxford). 2018;2018:bay044.
127.
Zurück zum Zitat Yang Q, Du WW, Wu N, Yang W, Awan FM, Fang L, et al. A circular rna promotes tumorigenesis by inducing c-myc nuclear translocation. Cell Death Differ. 2018;24(9):1609–20.CrossRef Yang Q, Du WW, Wu N, Yang W, Awan FM, Fang L, et al. A circular rna promotes tumorigenesis by inducing c-myc nuclear translocation. Cell Death Differ. 2018;24(9):1609–20.CrossRef
128.
Zurück zum Zitat Xia S, Feng J, Lei L, Hu J, Xia L, Wang J, et al. Comprehensive characterization of tissue-specific circular rnas in the human and mouse genomes. Brief Bioinform. 2017;18(6):984–92. Xia S, Feng J, Lei L, Hu J, Xia L, Wang J, et al. Comprehensive characterization of tissue-specific circular rnas in the human and mouse genomes. Brief Bioinform. 2017;18(6):984–92.
129.
Zurück zum Zitat Li S, Li Y, Chen B, Zhao J, Yu S, Tang Y, et al. Exorbase: a database of circrna, lncrna and mrna in human blood exosomes. Nucleic Acids Res. 2018;46(D1):D106–12.CrossRef Li S, Li Y, Chen B, Zhao J, Yu S, Tang Y, et al. Exorbase: a database of circrna, lncrna and mrna in human blood exosomes. Nucleic Acids Res. 2018;46(D1):D106–12.CrossRef
130.
Zurück zum Zitat Tang Z, Li ZX, Zhao J, Qian F, Feng C, Li Y, et al. Trcirc: a resource for transcriptional regulation information of circrnas. Brief Bioinform. 2019;20(6):2327–33.CrossRef Tang Z, Li ZX, Zhao J, Qian F, Feng C, Li Y, et al. Trcirc: a resource for transcriptional regulation information of circrnas. Brief Bioinform. 2019;20(6):2327–33.CrossRef
131.
Zurück zum Zitat Meng XW, Hu DH, Zhang PJ, Chen Q, Chen M. Circfunbase: a database for functional circular rnas. Database (Oxford). 2019;2019:6. Meng XW, Hu DH, Zhang PJ, Chen Q, Chen M. Circfunbase: a database for functional circular rnas. Database (Oxford). 2019;2019:6.
132.
Zurück zum Zitat Dudekula DB, Panda AC, Grammatikakis I, De S, Abdelmohsen K, Gorospe M. Circinteractome: a web tool for exploring circular rnas and their interacting proteins and micrornas. RNA Biol. 2016;13(1):34–42.CrossRef Dudekula DB, Panda AC, Grammatikakis I, De S, Abdelmohsen K, Gorospe M. Circinteractome: a web tool for exploring circular rnas and their interacting proteins and micrornas. RNA Biol. 2016;13(1):34–42.CrossRef
133.
Zurück zum Zitat Zhao S, Li S, Liu W, Wang Y, Li X, Zhu S, et al. Circular rna signature in lung adenocarcinoma: a mioncocirc database-based study and literature review. Front Oncol. 2020;10:523342.CrossRef Zhao S, Li S, Liu W, Wang Y, Li X, Zhu S, et al. Circular rna signature in lung adenocarcinoma: a mioncocirc database-based study and literature review. Front Oncol. 2020;10:523342.CrossRef
134.
Zurück zum Zitat Ghosal S, Das S, Sen R, Basak P, Chakrabarti J. Circ2traits: a comprehensive database for circular rna potentially associated with disease and traits. Front Genet. 2013;4:283.CrossRef Ghosal S, Das S, Sen R, Basak P, Chakrabarti J. Circ2traits: a comprehensive database for circular rna potentially associated with disease and traits. Front Genet. 2013;4:283.CrossRef
135.
Zurück zum Zitat Wu S, Liu H, Huang P, Chang I, Lee C, Yang C, et al. Circlncrnanet: an integrated web-based resource for mapping functional networks of long or circular forms of noncoding rnas. GigaScience. 2018;7(1):1–10. Wu S, Liu H, Huang P, Chang I, Lee C, Yang C, et al. Circlncrnanet: an integrated web-based resource for mapping functional networks of long or circular forms of noncoding rnas. GigaScience. 2018;7(1):1–10.
136.
Zurück zum Zitat Liu M, Wang Q, Shen J, Yang BB, Ding X. Circbank: a comprehensive database for circrna with standard nomenclature. RNA Biol. 2019;16(7):899–905. CrossRef Liu M, Wang Q, Shen J, Yang BB, Ding X. Circbank: a comprehensive database for circrna with standard nomenclature. RNA Biol. 2019;16(7):899–905. CrossRef
137.
Zurück zum Zitat Liu YC, Li JR, Sun CH, Andrews E, Chao RF, Lin FM, et al. Circnet: a database of circular rnas derived from transcriptome sequencing data. Nucleic Acids Res. 2016;44(D1):D209–15.CrossRef Liu YC, Li JR, Sun CH, Andrews E, Chao RF, Lin FM, et al. Circnet: a database of circular rnas derived from transcriptome sequencing data. Nucleic Acids Res. 2016;44(D1):D209–15.CrossRef
138.
Zurück zum Zitat Wu W, Ji P, Zhao F. Circatlas: An integrated resource of one million highly accurate circular rnas from 1070 vertebrate transcriptomes. Genome Biol. 2020;21(1):101.CrossRef Wu W, Ji P, Zhao F. Circatlas: An integrated resource of one million highly accurate circular rnas from 1070 vertebrate transcriptomes. Genome Biol. 2020;21(1):101.CrossRef
139.
Zurück zum Zitat Zheng L, Li J, Wu J, Sun W, Liu S, Wang Z, et al. Deepbase v2.0: identification, expression, evolution and function of small rnas, lncrnas and circular rnas from deep-sequencing data. Nucleic Acids Res. 2016;44(D1):D196-202.CrossRef Zheng L, Li J, Wu J, Sun W, Liu S, Wang Z, et al. Deepbase v2.0: identification, expression, evolution and function of small rnas, lncrnas and circular rnas from deep-sequencing data. Nucleic Acids Res. 2016;44(D1):D196-202.CrossRef
140.
Zurück zum Zitat Zhong S, Wang J, Zhang Q, Xu H, Feng J. Circprimer: a software for annotating circrnas and determining the specificity of circrna primers. BMC Bioinformatics. 2018;19(1):292.CrossRef Zhong S, Wang J, Zhang Q, Xu H, Feng J. Circprimer: a software for annotating circrnas and determining the specificity of circrna primers. BMC Bioinformatics. 2018;19(1):292.CrossRef
141.
Zurück zum Zitat Dong R, Ma X, Li G, Yang L. Circpedia v2: an updated database for comprehensive circular rna annotation and expression comparison. Genomics Proteomics Bioinformatics. 2018;16(4):226–33.CrossRef Dong R, Ma X, Li G, Yang L. Circpedia v2: an updated database for comprehensive circular rna annotation and expression comparison. Genomics Proteomics Bioinformatics. 2018;16(4):226–33.CrossRef
Metadaten
Titel
The Function and Therapeutic Potential of Circular RNA in Cardiovascular Diseases
verfasst von
Kai Wang
Xiang-Qian Gao
Tao Wang
Lu-Yu Zhou
Publikationsdatum
16.07.2021
Verlag
Springer US
Erschienen in
Cardiovascular Drugs and Therapy / Ausgabe 1/2023
Print ISSN: 0920-3206
Elektronische ISSN: 1573-7241
DOI
https://doi.org/10.1007/s10557-021-07228-5

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