nach oben

Inflammation

Erschienen in:

26.02.2016 | ORIGINAL ARTICLE

Activating Peroxisome Proliferator-Activated Receptors (PPARs): a New Sight for Chrysophanol to Treat Paraquat-Induced Lung Injury

verfasst von: Ang Li, Yuguang Liu, Lu Zhai, Liying Wang, Zhe Lin, Shumin Wang

Erschienen in: Inflammation | Ausgabe 2/2016

Einloggen, um Zugang zu erhalten

Abstract

The aim of this study is to evaluate the protective effects of chrysophanol (CH) against paraquat (PQ)-induced pulmonary injury. Fifty BALB/C mice were randomized into five groups: (1) control, (2) PQ, (3) PQ + dexamethasone (Dex, 2 mg/kg), (4) PQ + CH (10 mg/kg), and (5) PQ + CH (20 mg/kg). A single dose of PQ (50 mg/kg, i.p.) was intraperitoneally given to induce acute lung injury. Then mice were treated with CH (10 and 20 mg/kg/day, orally) for 7 days. At the end of the experiment, animals were euthanized and then bronchoalveolar lavage fluid (BALF) and lung tissues were collected for histological observation, biochemical analysis, and Western blot analysis. Malondialdehyde (MDA), myeloperoxidase (MPO), superoxide dismutase (SOD), interleukin-6 (IL-6), IL-1β, and tumor necrosis factor-α (TNF-α) levels in BALF were determined. The levels of SOD and MDA in the lung were also detected. The peroxisome proliferator-activated receptor (PPAR)-γ and nuclear factor-kappaB (NF-κB) pathway proteins in the lung were determined by Western blot. Histological examination indicated that CH attenuated lung inflammation caused by PQ. Biochemical results showed that CH treatment significantly reduced the levels of MDA, MPO, and inflammatory cytokines and increased the level of SOD, compared to those in the PQ group. Meanwhile, Western Blot results revealed that CH increased PPAR-γ expression and inhibited NF-κB pathway activation after PQ challenge. These findings suggested the potential therapeutic effects of CH which is derived from a natural product on PQ-induced pulmonary injury.

Silva, R., H. Carmo, V. Vilas-Boas, D.J. Barbosa, M. Monteiro, P.G. de Pinho, et al. 2014. Several transport systems contribute to the intestinal uptake of paraquat, modulating its cytotoxic effects. Toxicology Letters 232: 271–283.CrossRefPubMed

Choi, J.S., S.S. Jou, M.H. Oh, Y.H. Kim, M.J. Park, H.W. Gil, et al. 2013. The dose of cyclophosphamide for treating paraquat-induced rat lung injury. The Korean Journal of Internal Medicine 28: 420–427.CrossRefPubMedPubMedCentral

Nguyen, V., D.S. Malik, and M.A. Howland. 2014. Methylene blue protects against paraquat-induced acute lung injury in rats. International Immunopharmacology 20: 358.CrossRefPubMed

Chen, T., Y. Mou, J. Tan, L. Wei, Y. Qiao, T. Wei, et al. 2015. The protective effect of CDDO-Me on lipopolysaccharide-induced acute lung injury in mice. International Immunopharmacology 25: 55–64.CrossRefPubMed

Lucas, R., A.D. Verin, S.M. Black, and J.D. Catravas. 2009. Regulators of endothelial and epithelial barrier integrity and function in acute lung injury. Biochemical Pharmacology 77: 1763–1772.CrossRefPubMedPubMedCentral

Lin, M.H., M.C. Chen, T.H. Chen, H.Y. Chang, and T.C. Chou. 2015. Magnolol ameliorates lipopolysaccharide-induced acute lung injury in rats through PPAR-gamma-dependent inhibition of NF-kB activation. International Immunopharmacology 28: 270–278.CrossRefPubMed

Wei, D., and Z. Huang. 2014. Anti-inflammatory effects of triptolide in LPS-induced acute lung injury in mice. Inflammation 37: 1307–1316.CrossRefPubMed

Chang, X., F. Luo, W. Jiang, L. Zhu, J. Gao, H. He, et al. 2015. Protective activity of salidroside against ethanol-induced gastric ulcer via the MAPK/NF-kappaB pathway in vivo and in vitro. International Immunopharmacology 28: 604–615.CrossRefPubMed

Zhu, L., T. Chen, X. Chang, R. Zhou, F. Luo, J. Liu, et al. 2016. Salidroside ameliorates arthritis-induced brain cognition deficits by regulating Rho/ROCK/NF-κB pathway. Neuropharmacology 103: 134–142.CrossRefPubMed

10.

Chen, T., Q. Guo, H. Wang, H. Zhang, C. Wang, P. Zhang, et al. 2015. Effects of esculetin on lipopolysaccharide (LPS)-induced acute lung injury via regulation of RhoA/Rho kinase/NF-small ka, CyrillicB pathways in vivo and in vitro. Free Radical Research 49: 1459–1468.CrossRefPubMed

11.

Chen, T., J. Gao, P. Xiang, Y. Chen, J. Ji, P. Xie, et al. 2015. Protective effect of platycodin D on liver injury in alloxan-induced diabetic mice via regulation of Treg/Th17 balance. International Immunopharmacology 26: 338–348.CrossRefPubMed

12.

Chen, T., L. Xiao, L. Zhu, S. Ma, T. Yan, and H. Ji. 2015. Anti-asthmatic effects of ginsenoside Rb1 in a mouse model of allergic asthma through relegating Th1/Th2. Inflammation 38: 1814–1822.CrossRefPubMed

13.

Lin, F., C. Zhang, X. Chen, E. Song, S. Sun, M. Chen, et al. 2015. Chrysophanol affords neuroprotection against microglial activation and free radical-mediated oxidative damage in BV2 murine microglia. International Journal of Clinical and Experimental Medicine 8: 3447–3455.PubMedPubMedCentral

14.

Lee, M.S., and C.B. Sohn. 2008. Anti-diabetic properties of chrysophanol and its glucoside from rhubarb rhizome. Biological & Pharmaceutical Bulletin 31: 2154–2157.CrossRef

15.

Zhang, K., J. Liu, X. You, P. Kong, Y. Song, L. Cao, et al. 2016. P2X7 as a new target for chrysophanol to treat lipopolysaccharide-induced depression in mice. Neuroscience Letters 613: 60–65.CrossRefPubMed

16.

Zhang, N., and X. Zhang. 2014. Chrysophanol inhibits NALP3 inflammasome activation and ameliorates cerebral ischemia/reperfusion in mice. 2014:370530.

17.

Rim, H.K., P.D. Moon, I.H. Choi, E.H. Lee, H.M. Kim, and H.J. Jeong. 2013. SoSoSo or its active ingredient chrysophanol regulates production of inflammatory cytokines & adipokine in both macrophages & adipocytes. The Indian Journal of Medical Research 137: 142–150.PubMed

18.

Orito, K., Y. Suzuki, H. Matsuda, M. Shirai, and F. Akahori. 2004. Chymase is activated in the pulmonary inflammation and fibrosis induced by paraquat in hamsters. The Tohoku Journal of Experimental Medicine 203: 287–294.CrossRefPubMed

19.

Ahmed, A.A. 2009. Protective effect of montelukast on paraquat-induced lung toxicity in rats. Bioscience Trends 3: 63–72.PubMed

20.

Jiang, W., F. Luo, Q. Lu, J. Liu, P. Li, X. Wang, et al. 2016. The protective effect of Trillin LPS-induced acute lung injury by the regulations of inflammation and oxidative state. Chemico-Biological Interactions 243: 127–134.CrossRefPubMed

21.

Xie, X., S. Sun, W. Zhong, L.W. Soromou, X. Zhou, M. Wei, et al. 2014. Zingerone attenuates lipopolysaccharide-induced acute lung injury in mice. International Immunopharmacology 19: 103–109.CrossRefPubMed

22.

Chen, T., Ma, Z., Zhu, L., Jiang, W., Wei, T., Zhou, R., et al. 2015. Suppressing receptor-interacting protein 140: a new sight for salidroside to treat cerebral ischemia. Molecular Neurobiology.

23.

Huang, X., Y. Liu, Y. Lu, and C. Ma. 2015. Anti-inflammatory effects of eugenol on lipopolysaccharide-induced inflammatory reaction in acute lung injury via regulating inflammation and redox status. International Immunopharmacology 26: 265–271.CrossRefPubMed

24.

Tianzhu, Z., Y. Shihai, and D. Juan. 2014. The effects of morin on lipopolysaccharide-induced acute lung injury by suppressing the lung NLRP3 inflammasome. Inflammation 37: 1976–1983.CrossRefPubMed

25.

Bettelli, E., Y. Carrier, W. Gao, T. Korn, T.B. Strom, M. Oukka, et al. 2006. Reciprocal developmental pathways for the generation of pathogenic effector TH17 and regulatory T cells. Nature 441: 235–238.CrossRefPubMed

26.

Tianzhu, Z., and W. Shumin. 2015. Esculin inhibits the inflammation of LPS-induced acute lung injury in mice via regulation of TLR/NF-kappaB pathways. Inflammation 38: 1529–1536.CrossRefPubMed

27.

Wang, J., Y.T. Liu, L. Xiao, L. Zhu, Q. Wang, and T. Yan. 2014. Anti-inflammatory effects of apigenin in lipopolysaccharide-induced inflammatory in acute lung injury by suppressing COX-2 and NF-kB pathway. Inflammation 37: 2085–2090.CrossRefPubMed

28.

Gao, J., H. He, W. Jiang, X. Chang, L. Zhu, F. Luo, et al. 2015. Salidroside ameliorates cognitive impairment in a d-galactose-induced rat model of Alzheimer’s disease. Behavioural Brain Research 293: 27–33.CrossRefPubMed

29.

He, H., X. Chang, J. Gao, L. Zhu, M. Miao, and T. Yan. 2015. Salidroside mitigates sepsis-induced myocarditis in rats by regulating IGF-1/PI3K/Akt/GSK-3beta signaling. Inflammation 38: 2178–2184.CrossRefPubMed

30.

Ma, C.H., J.P. Liu, R. Qu, and S.P. Ma. 2014. Tectorigenin inhibits the inflammation of LPS-induced acute lung injury in mice. Chinese Journal of Natural Medicines 12: 841–846.CrossRefPubMed

31.

Tao, W., Q. Su, H. Wang, S. Guo, Y. Chen, J. Duan, et al. 2015. Platycodin D attenuates acute lung injury by suppressing apoptosis and inflammation in vivo and in vitro. International Immunopharmacology 27: 138–147.CrossRefPubMed

32.

Ma, C., L. Zhu, J. Wang, H. He, X. Chang, J. Gao, et al. 2015. Anti-inflammatory effects of water extract of Taraxacum mongolicum hand.-Mazz on lipopolysaccharide-induced inflammation in acute lung injury by suppressing PI3K/Akt/mTOR signaling pathway. Journal of Ethnopharmacology 168: 349–355.CrossRefPubMed

33.

Chang, X., H. He, L. Zhu, J. Gao, T. Wei, Z. Ma, et al. 2015. Protective effect of apigenin on Freund’s complete adjuvant-induced arthritis in rats via inhibiting P2X7/NF-kappaB pathway. Chemico-Biological Interactions 236: 41–46.CrossRefPubMed

34.

Chen, T., Wang, R., Jiang, W., Wang, H., Xu, A., Lu, G., et al. 2015. Protective effect of astragaloside IV against paraquat-induced lung injury in mice by suppressing Rho signaling. Inflammation.

35.

Zhu, L., T. Wei, X. Chang, H. He, J. Gao, Z. Wen, et al. 2015. Effects of salidroside on myocardial injury in vivo in vitro via regulation of Nox/NF-kappaB/AP1 pathway. Inflammation 38: 1589–1598.CrossRefPubMed

36.

Kim, S.J., M.C. Kim, B.J. Lee, D.H. Park, S.H. Hong, and J.Y. Um. 2010. Anti-inflammatory activity of chrysophanol through the suppression of NF-kappaB/caspase-1 activation in vitro and in vivo. Molecules (Basel, Switzerland) 15: 6436–6451.CrossRef

Titel: Activating Peroxisome Proliferator-Activated Receptors (PPARs): a New Sight for Chrysophanol to Treat Paraquat-Induced Lung Injury
verfasst von: Ang Li
Yuguang Liu
Lu Zhai
Liying Wang
Zhe Lin
Shumin Wang
Publikationsdatum: 26.02.2016
Verlag: Springer US
Erschienen in: Inflammation / Ausgabe 2/2016
Print ISSN: 0360-3997
Elektronische ISSN: 1573-2576
DOI: https://doi.org/10.1007/s10753-016-0326-2

Leitlinien kompakt für die Innere Medizin

Mit medbee Pocketcards sicher entscheiden.

^{Seit 2022 gehört die medbee GmbH zum Springer Medizin Verlag}

Kostenlos registrieren

Neu im Fachgebiet Innere Medizin

25.04.2024 | Hypotonie | Nachrichten

Update Innere Medizin

Bestellen Sie unseren Fach-Newsletter und bleiben Sie gut informiert.

Newsletter bestellen

Springer Medizin

Activating Peroxisome Proliferator-Activated Receptors (PPARs): a New Sight for Chrysophanol to Treat Paraquat-Induced Lung Injury

Abstract

Leitlinien kompakt für die Innere Medizin

Neu im Fachgebiet Innere Medizin

Niedriger diastolischer Blutdruck erhöht Risiko für schwere kardiovaskuläre Komplikationen

Therapiestart mit Blutdrucksenkern erhöht Frakturrisiko

Viel Bewegung in der Parkinsonforschung

Adjuvante Immuntherapie verlängert Leben bei RCC

Update Innere Medizin

Springer Medizin

Abstract

Bitte loggen Sie sich ein, um Zugang zu diesem Inhalt zu erhalten

Weitere Artikel der Ausgabe 2/2016

Serum Cystatin C as an Inflammatory Marker in Exacerbated and Convalescent COPD Patients

Comparison of the Anti-inflammatory Effects of Proanthocyanidin, Quercetin, and Damnacanthal on Benzo(a)pyrene Exposed A549 Alveolar Cell Line

Protective Effects of Growth Arrest-Specific Protein 6 (Gas6) on Sepsis-Induced Acute Kidney Injury

Senegenin Ameliorate Acute Lung Injury Through Reduction of Oxidative Stress and Inhibition of Inflammation in Cecal Ligation and Puncture-Induced Sepsis Rats

The Effect of SHH-Gli Signaling Pathway on the Synovial Fibroblast Proliferation in Rheumatoid Arthritis

In Vitro Oxidation of Collagen Promotes the Formation of Advanced Oxidation Protein Products and the Activation of Human Neutrophils

Leitlinien kompakt für die Innere Medizin

Neu im Fachgebiet Innere Medizin

Niedriger diastolischer Blutdruck erhöht Risiko für schwere kardiovaskuläre Komplikationen

Therapiestart mit Blutdrucksenkern erhöht Frakturrisiko

Viel Bewegung in der Parkinsonforschung

Adjuvante Immuntherapie verlängert Leben bei RCC

Update Innere Medizin