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17.11.2017 | Original Article

Polyamine concentration is increased in thoracic ascending aorta of patients with bicuspid aortic valve

verfasst von: Amalia Forte, Mario Grossi, Ciro Bancone, Marilena Cipollaro, Marisa De Feo, Per Hellstrand, Lo Persson, Bengt-Olof Nilsson, Alessandro Della Corte

Erschienen in: Heart and Vessels | Ausgabe 3/2018

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Abstract

Polyamines are cationic molecules synthesized via a highly regulated pathway, obtained from the diet or produced by the gut microbiota. They are involved in general molecular and cellular phenomena that play a role also in vascular disease. Bicuspid aortic valve (BAV) is a congenital malformation associated to a greater risk of thoracic ascending aorta (TAA) aneurysm, whose pathogenesis is not yet well understood. We focused on differential analysis of key members of polyamine pathway and on polyamine concentration in non-dilated TAA samples from patients with either stenotic tricuspid aortic valve (TAV) or BAV (diameter ≤ 45 mm), vs. normal aortas from organ donors, with the aim of revealing a potential involvement of polyamines in early aortopathy. Changes of gene expression in TAA samples were evaluated by RT-PCR. Changes of ornithine decarboxylase 1 (ODC1), a key enzyme in polyamine formation, and cationic amino acid transporter 1 (SLC7A1/CAT-1) expression were analyzed also by Western blot. ODC1 subcellular localization was assessed by immunohistochemistry. Polyamine concentration in TAA samples was evaluated by HPLC. BAV TAA samples showed an increased concentration of putrescine and spermidine vs. TAV and donor samples, together with a decreased mRNA level of polyamine anabolic enzymes and of the putative polyamine transporter SLC7A1/CAT-1. The catabolic enzyme spermidine/spermine N1-acetyltransferase 1 showed a significant mRNA increase in TAV samples only, together with a decreased concentration of spermine. The decreased expression of SLC7A1/CAT-1 and ODC1 mRNAs in BAV corresponded to increased or unchanged expression of the respective proteins. ODC was located mainly in smooth muscle cell (SMC) nucleus in TAV and donor samples, while it was present also in SMC cytoplasm in BAV samples, suggesting its activation. In conclusion, BAV, but not TAV non-dilated samples show increased polyamine concentration, accompanied by the activation of a regulatory negative feedback mechanism.

Bhat MI, Kapila R (2017) Dietary metabolites derived from gut microbiota: critical modulators of epigenetic changes in mammals. Nutr Rev 75:374–389CrossRefPubMed

Pegg AE (2016) Functions of polyamines in mammals. J Biol Chem 291:14904–14912CrossRefPubMedPubMedCentral

Newton GL, Aguilera JA, Ward JF, Fahey RC (1996) Polyamine-induced compaction and aggregation of DNA—a major factor in radioprotection of chromatin under physiological conditions. Radiat Res 145:776–780CrossRefPubMed

Forte A, Hellstrand P, Nilsson BO, Grossi M, Rossi F, Cipollaro M (2011) The polyamine pathway as a potential target for vascular diseases: focus on restenosis. Curr Vasc Pharmacol 9:706–714CrossRefPubMed

Grossi M, Persson L, Sward K, Turczynska KM, Forte A, Hellstrand P, Nilsson BO (2014) Inhibition of polyamine formation antagonizes vascular smooth muscle cell proliferation and preserves the contractile phenotype. Basic Clin Pharmacol Toxicol 115:379–388CrossRefPubMed

Grossi M, Phanstiel O, Rippe C, Sward K, Alajbegovic A, Albinsson S, Forte A, Persson L, Hellstrand P, Nilsson BO (2016) Inhibition of polyamine uptake potentiates the anti-proliferative effect of polyamine synthesis inhibition and preserves the contractile phenotype of vascular smooth muscle cells. J Cell Physiol 231:1334–1342CrossRefPubMed

Grossi M, Rippe C, Sathanoori R, Sward K, Forte A, Erlinge D, Persson L, Hellstrand P, Nilsson BO (2014) Vascular smooth muscle cell proliferation depends on caveolin-1-regulated polyamine uptake. Biosci Rep 34:e00153CrossRefPubMedPubMedCentral

Forte A, Grossi M, Turczynska KM, Svedberg K, Rinaldi B, Donniacuo M, Holm A, Baldetorp B, Vicchio M, De Feo M, Sante P, Galderisi U, Berrino L, Rossi F, Hellstrand P, Nilsson BO, Cipollaro M (2013) Local inhibition of ornithine decarboxylase reduces vascular stenosis in a murine model of carotid injury. Int J Cardiol 168:3370–3380CrossRefPubMed

Kucharzewska P, Welch JE, Svensson KJ, Belting M (2010) Ornithine decarboxylase and extracellular polyamines regulate microvascular sprouting and actin cytoskeleton dynamics in endothelial cells. Exp Cell Res 316:2683–2691CrossRefPubMed

10.

Compagnone A, Bandino A, Meli F, Bravoco V, Cravanzola C, Parola M, Colombatto S (2012) Polyamines modulate epithelial-to-mesenchymal transition. Amino Acids 42:783–789CrossRefPubMed

11.

Prunotto M, Compagnone A, Bruschi M, Candiano G, Colombatto S, Bandino A, Petretto A, Moll S, Bochaton-Piallat ML, Gabbiani G, Dimuccio V, Parola M, Citti L, Ghiggeri G (2010) Endocellular polyamine availability modulates epithelial-to-mesenchymal transition and unfolded protein response in MDCK cells. Lab Investig 90:929–939CrossRefPubMed

12.

Baardman J, Licht I, de Winther MP, Van den Bossche J (2015) Metabolic-epigenetic crosstalk in macrophage activation. Epigenomics 7:1155–1164CrossRefPubMed

13.

Albinsson S, Della Corte A, Alajbegovic A, Krawczyk KK, Bancone C, Galderisi U, Cipollaro M, De Feo M, Forte A (2017) Patients with bicuspid and tricuspid aortic valve exhibit distinct regional microRNA signatures in mildly dilated ascending aorta. Heart Vessels 32:750–767CrossRefPubMed

14.

Forte A, Galderisi U, Cipollaro M, De Feo M, Della Corte A (2016) Epigenetic regulation of TGF-beta1 signalling in dilative aortopathy of the thoracic ascending aorta. Clin Sci (Lond) 130:1389–1405CrossRef

15.

Michelena HI, Della Corte A, Prakash SK, Milewicz DM, Evangelista A, Enriquez-Sarano M (2015) Bicuspid aortic valve aortopathy in adults: incidence, etiology, and clinical significance. Int J Cardiol 201:400–407CrossRefPubMed

16.

Michelena HI, Prakash SK, Della Corte A, Bissell MM, Anavekar N, Mathieu P, Bosse Y, Limongelli G, Bossone E, Benson DW, Lancellotti P, Isselbacher EM, Enriquez-Sarano M, Sundt TM 3rd, Pibarot P, Evangelista A, Milewicz DM, Body SC, Investigators BA (2014) Bicuspid aortic valve: identifying knowledge gaps and rising to the challenge from the International Bicuspid Aortic Valve Consortium (BAVCon). Circulation 129:2691–2704CrossRefPubMedPubMedCentral

17.

Cotrufo M, Della Corte A, De Santo LS, Quarto C, De Feo M, Romano G, Amarelli C, Scardone M, Di Meglio F, Guerra G, Scarano M, Vitale S, Castaldo C, Montagnani S (2005) Different patterns of extracellular matrix protein expression in the convexity and the concavity of the dilated aorta with bicuspid aortic valve: preliminary results. J Thorac Cardiovasc Surg 130:504–511CrossRefPubMed

18.

Della Corte A, De Santo LS, Montagnani S, Quarto C, Romano G, Amarelli C, Scardone M, De Feo M, Cotrufo M, Caianiello G (2006) Spatial patterns of matrix protein expression in dilated ascending aorta with aortic regurgitation: congenital bicuspid valve versus Marfan’s syndrome. J Heart Valve Dis 15:20–27PubMed

19.

Forte A, Della Corte A, Grossi M, Bancone C, Provenzano R, Finicelli M, De Feo M, De Santo LS, Nappi G, Cotrufo M, Galderisi U, Cipollaro M (2013) Early cell changes and TGFbeta pathway alterations in the aortopathy associated with bicuspid aortic valve stenosis. Clin Sci (Lond) 124:97–108CrossRef

20.

Seiler N, Knodgen B (1980) High-performance liquid chromatographic procedure for the simultaneous determination of the natural polyamines and their monoacetyl derivatives. J Chromatogr 221:227–235CrossRefPubMed

21.

Abdulhussein AA, Wallace HM (2014) Polyamines and membrane transporters. Amino Acids 46:655–660CrossRefPubMed

22.

Wu D, Kaan HY, Zheng X, Tang X, He Y, Vanessa Tan Q, Zhang N, Song H (2015) Structural basis of ornithine decarboxylase inactivation and accelerated degradation by polyamine sensor Antizyme1. Sci Rep 5:14738CrossRefPubMedPubMedCentral

23.

Wagsater D, Paloschi V, Hanemaaijer R, Hultenby K, Bank RA, Franco-Cereceda A, Lindeman JH, Eriksson P (2013) Impaired collagen biosynthesis and cross-linking in aorta of patients with bicuspid aortic valve. J Am Heart Assoc 2:e000034CrossRefPubMedPubMedCentral

24.

Billaud M, Phillippi JA, Kotlarczyk MP, Hill JC, Ellis BW, St Croix CM, Cantu-Medellin N, Kelley EE, Gleason TG (2017) Elevated oxidative stress in the aortic media of patients with bicuspid aortic valve. J Thorac Cardiovasc Surg. https://doi.org/10.1016/j.jtcvs.2017.05.065 PubMed

25.

Kostina AS, Uspensky Vcapital Ie C, Irtyuga OB, Ignatieva EV, Freylikhman O, Gavriliuk ND, Moiseeva OM, Zhuk S, Tomilin A, Kostareva capital A CAC, Malashicheva AB (2016) Notch-dependent EMT is attenuated in patients with aortic aneurysm and bicuspid aortic valve. Biochim Biophys Acta 1862:733–740CrossRefPubMed

26.

Heng E, Stone JR, Kim JB, Lee H, MacGillivray TE, Sundt TM (2015) Comparative histology of aortic dilatation associated with bileaflet versus trileaflet aortic valves. Ann Thorac Surg 100:2095–2101CrossRefPubMed

27.

Grewal N, Gittenberger-de Groot AC, Poelmann RE, Klautz RJ, Lindeman JH, Goumans MJ, Palmen M, Mohamed SA, Sievers HH, Bogers AJ, DeRuiter MC (2014) Ascending aorta dilation in association with bicuspid aortic valve: a maturation defect of the aortic wall. J Thorac Cardiovasc Surg 148:1583–1590CrossRefPubMed

28.

Malashicheva A, Kostina D, Kostina A, Irtyuga O, Voronkina I, Smagina L, Ignatieva E, Gavriliuk N, Uspensky V, Moiseeva O, Vaage J, Kostareva A (2016) Phenotypic and functional changes of endothelial and smooth muscle cells in thoracic aortic aneurysms. Int J Vasc Med 2016:3107879PubMedPubMedCentral

29.

Persson L (2009) Polyamine homoeostasis. Essays Biochem 46:11–24CrossRefPubMed

30.

Allen JD, Giordano T, Kevil CG (2012) Nitrite and nitric oxide metabolism in peripheral artery disease. Nitric Oxide 26:217–222CrossRefPubMedPubMedCentral

31.

Durante W (2013) Role of arginase in vessel wall remodeling. Front Immunol 4:111CrossRefPubMedPubMedCentral

32.

Kotlarczyk MP, Billaud M, Green BR, Hill JC, Shiva S, Kelley EE, Phillippi JA, Gleason TG (2016) Regional disruptions in endothelial nitric oxide pathway associated with bicuspid aortic valve. Ann Thorac Surg 102:1274–1281CrossRefPubMed

33.

Kietadisorn R, Juni RP, Moens AL (2012) Tackling endothelial dysfunction by modulating NOS uncoupling: new insights into its pathogenesis and therapeutic possibilities. Am J Physiol Endocrinol Metab 302:E481–E495CrossRefPubMed

34.

Hatzoglou M, Fernandez J, Yaman I, Closs E (2004) Regulation of cationic amino acid transport: the story of the CAT-1 transporter. Annu Rev Nutr 24:377–399CrossRefPubMed

35.

Murakami Y, Suzuki J, Samejima K, Oka T (2010) Developmental alterations in expression and subcellular localization of antizyme and antizyme inhibitor and their functional importance in the murine mammary gland. Amino Acids 38:591–601CrossRefPubMed

36.

Schipper RG, Cuijpers VM, De Groot LH, Thio M, Verhofstad AA (2004) Intracellular localization of ornithine decarboxylase and its regulatory protein, antizyme-1. J Histochem Cytochem 52:1259–1266CrossRefPubMed

37.

Fassot C, Briet M, Rostagno P, Barbry P, Perret C, Laude D, Boutouyrie P, Bozec E, Bruneval P, Latremouille C, Laurent S (2008) Accelerated arterial stiffening and gene expression profile of the aorta in patients with coronary artery disease. J Hypertens 26:747–757CrossRefPubMed

38.

Nilsson T, Bogdanovic N, Volkman I, Winblad B, Folkesson R, Benedikz E (2006) Altered subcellular localization of ornithine decarboxylase in Alzheimer’s disease brain. Biochem Biophys Res Commun 344:640–646CrossRefPubMed

39.

Durante W, Liao L, Reyna SV, Peyton KJ, Schafer AI (2001) Transforming growth factor-beta(1) stimulates l-arginine transport and metabolism in vascular smooth muscle cells: role in polyamine and collagen synthesis. Circulation 103:1121–1127CrossRefPubMed

40.

Forte A, Bancone C, Cobellis G, Buonocore M, Santarpino G, Fischlein TJM, Cipollaro M, De Feo M, Della Corte A (2017) A possible early biomarker for bicuspid aortopathy: circulating transforming growth factor beta-1 to soluble endoglin ratio. Circ Res 120:1800–1811CrossRefPubMed

41.

Takao K, Rickhag M, Hegardt C, Oredsson S, Persson L (2006) Induction of apoptotic cell death by putrescine. Int J Biochem Cell Biol 38:621–628CrossRefPubMed

42.

Phillippi JA, Hill JC, Billaud M, Green BR, Kotlarczyk MP, Gleason TG (2017) Bicuspid aortic valve morphotype correlates with regional antioxidant gene expression profiles in the proximal ascending aorta. Ann Thorac Surg 104:79–87CrossRefPubMed

43.

Eisenberg T, Abdellatif M, Schroeder S, Primessnig U, Stekovic S, Pendl T, Harger A, Schipke J, Zimmermann A, Schmidt A, Tong M, Ruckenstuhl C, Dammbrueck C, Gross AS, Herbst V, Magnes C, Trausinger G, Narath S, Meinitzer A, Hu Z, Kirsch A, Eller K, Carmona-Gutierrez D, Buttner S, Pietrocola F, Knittelfelder O, Schrepfer E, Rockenfeller P, Simonini C, Rahn A, Horsch M, Moreth K, Beckers J, Fuchs H, Gailus-Durner V, Neff F, Janik D, Rathkolb B, Rozman J, de Angelis MH, Moustafa T, Haemmerle G, Mayr M, Willeit P, von Frieling-Salewsky M, Pieske B, Scorrano L, Pieber T, Pechlaner R, Willeit J, Sigrist SJ, Linke WA, Muhlfeld C, Sadoshima J, Dengjel J, Kiechl S, Kroemer G, Sedej S, Madeo F (2016) Cardioprotection and lifespan extension by the natural polyamine spermidine. Nat Med 22:1428–1438CrossRefPubMedPubMedCentral

44.

Yue F, Li W, Zou J, Jiang X, Xu G, Huang H, Liu L (2017) Spermidine prolongs lifespan and prevents liver fibrosis and hepatocellular carcinoma by activating MAP1S-mediated autophagy. Cancer Res 77:2938–2951CrossRefPubMed

45.

Bhukel A, Madeo F, Sigrist SJ (2017) Spermidine boosts autophagy to protect from synapse aging. Autophagy 13:444–445CrossRefPubMed

46.

Yang Y, Chen S, Zhang Y, Lin X, Song Y, Xue Z, Qian H, Wang S, Wan G, Zheng X, Zhang L (2017) Induction of autophagy by spermidine is neuroprotective via inhibition of caspase 3-mediated Beclin 1 cleavage. Cell Death Dis 8:e2738CrossRefPubMedPubMedCentral

47.

Fan J, Yang X, Li J, Shu Z, Dai J, Liu X, Li B, Jia S, Kou X, Yang Y, Chen N (2017) Spermidine coupled with exercise rescues skeletal muscle atrophy from d-gal-induced aging rats through enhanced autophagy and reduced apoptosis via AMPK-FOXO3a signal pathway. Oncotarget 8:17475–17490PubMedPubMedCentral

48.

Zhang H, Wang J, Li L, Chai N, Chen Y, Wu F, Zhang W, Wang L, Shi S, Zhang L, Bian S, Xu C, Tian Y, Zhao Y (2017) Spermine and spermidine reversed age-related cardiac deterioration in rats. Oncotarget. https://doi.org/10.18632/oncotarget

49.

Jeong JW, Cha HJ, Han MH, Hwang SJ, Lee DS, Yoo JS, Choi IW, Kim S, Kim HS, Kim GY, Hong SH, Park C, Lee HJ, Choi YH (2017) Spermidine protects against oxidative stress in inflammation models using macrophages and zebrafish. Biomol Ther (Seoul). https://doi.org/10.4062/biomolther.2016.272

50.

Grancara S, Zonta F, Ohkubo S, Brunati AM, Agostinelli E, Toninello A (2015) Pathophysiological implications of mitochondrial oxidative stress mediated by mitochondriotropic agents and polyamines: the role of tyrosine phosphorylation. Amino Acids 47:869–883CrossRefPubMed

51.

Byun JA, Choi MH, Moon MH, Kong G, Chul Chung B (2009) Serum polyamines in pre- and post-operative patients with breast cancer corrected by menopausal status. Cancer Lett 273:300–304CrossRefPubMed

Titel: Polyamine concentration is increased in thoracic ascending aorta of patients with bicuspid aortic valve
verfasst von: Amalia Forte
Mario Grossi
Ciro Bancone
Marilena Cipollaro
Marisa De Feo
Per Hellstrand
Lo Persson
Bengt-Olof Nilsson
Alessandro Della Corte
Publikationsdatum: 17.11.2017
Verlag: Springer Japan
Erschienen in: Heart and Vessels / Ausgabe 3/2018
Print ISSN: 0910-8327
Elektronische ISSN: 1615-2573
DOI: https://doi.org/10.1007/s00380-017-1087-z

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Polyamine concentration is increased in thoracic ascending aorta of patients with bicuspid aortic valve

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