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Inflammation
Published in: Inflammation 3/2012

01-06-2012

The Efficiency of a Urotensin II Antagonist in an Experimental Lung Fibrosis Model

Authors: Ahmet Mesut Onat, Ibrahim Halil Turkbeyler, Yavuz Pehlivan, Tuncer Demir, Davut Sinan Kaplan, Seyithan Taysi, Ali Osman Ceribasi, Ediz Tutar, Bunyamin Kisacik

Published in: Inflammation | Issue 3/2012

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Abstract

Pulmonary fibrosis is a chronic disease. Urotensin II (U-II) is a new peptide with angiogenic and profibrotic features. Therefore, we aim to evaluate the antagonism of U-II with palosuran in an animal model and plan to measure U-II, endothelin-1 (ET-1), and transforming growth factor-β1 (TGF-β1) and their association with lung fibrosis. Thirty Wistar male rats were used in the study and were divided into three groups: group 1, control; group 2, bleomycin-induced lung fibrosis group; and group 3, bleomycin-induced lung fibrosis with treatment palosuran group. U-II level (nanograms per milliliter) was 2.957 ± 0.159 in group1, 3.188 ± 0.122 in group 2, and 2.970 ± 0.165 in group 3 (p = 0.002). The ET-1 level (picograms per milliliter) was 4.486 ± 0.376 in group 1, 9.086 ± 1.850 in group 2, and 4.486 ± 0.376 in group 3 (p < 0.001). The TGF-β1 (nanograms per milliliter) level was 73.143 ± 9.96 in group 1, 84.81 ± 4.73 in group 2, and 77.86 ± 5.77 in group 3 (p = 0.006). Finally, the fibrosis score was 0.7 ± 0.48 in group 1, 4.4 ± 1.34 in group 2, and 3.2 ± 0.63 in group 3 (p < 0.001). There is a statistically significant positive relationship between fibrosis scores and the UT-II, ET-1, and TGF-β1 levels of the experimental lung fibrosis model. We believe U-II is an important mediator in lung fibrosis models, and its antagonism with palosuran could be a new treatment choice for interstitial lung fibrosis, but further studies need to be conducted to verify the findings of the current study.
Literature
1.
Cook, D.N., D.M. Brass, and D.A. Schwartz. 2002. A matrix for new ideas in pulmonary fibrosis. American Journal of Respiratory Cell and Molecular Biology 27: 122–1244.PubMed
2.
Ozyurt, H., S. Söğüt, Z. Yildirim, L. Kart, M. Iraz, F. Armutçu, I. Temel, S. Ozen, A. Uzun, and O. Akyol. 2004. Inhibitory effect of caffeic acid phenethyl ester (cape) on bleomycine-induced lung fibrosis in rats. Clinica Chimica Acta 339: 65–75.CrossRef
3.
Daniil, Z.D., F.C. Gilchrist, A.G. Nicholson, D.M. Hansell, J. Harris, T.V. Colby, and R.M. du Bois. 1999. A histologic pattern of nonspecific interstitial pneumonia is associated with a better prognosis than usual interstitial pneumonia in patients with cryptogenic fibrosing alveolitis. American Journal of Respiratory and Critical Care Medicine 160: 899–905.PubMed
4.
Mason, R.J., M.I. Schwarz, G.W. Hunninghake, and R.A. Musson. 1999. NHLBI Workshop Summary. Pharmacological therapy for idiopathic pulmonary fibrosis. Past, present, and future. American Journal of Respiratory and Critical Care Medicine 160: 1771–1777.PubMed
5.
Park, S.H., D. Saleh, A. Giaid, and R.P. Michel. 1997. Increased endothelin-1 in bleomycin-induced pulmonary fibrosis and the effect of an endothelin receptor antagonist. American Journal of Respiratory and Critical Care Medicine 156: 600–608.PubMed
6.
King Jr., T.E., J. Behr, K.K. Brown, R.M. du Bois, L. Lancaster, J.A. de Andrade, G. Stähler, I. Leconte, S. Roux, and G. Raghu. 2008. BUILD-1: A randomized placebo-controlled trial of bosentan in idiopathic pulmonary fibrosis. American Journal of Respiratory and Critical Care Medicine 177: 75–81.PubMedCrossRef
7.
Coulouarn, Y., I. Lihrmann, S. Jegou, Y. Anouar, H. Tostivint, J.C. Beauvillain, J.M. Conlon, H.A. Bern, and H. Vaudry. 1998. Cloning of the cDNA encoding the urotensin II precursor in frog and human reveals intense expression of the urotensin II gene in motoneurons of the spinal cord. Proceedings of the National Academy of Sciences of the United States of America 95: 15803–15808.PubMedCrossRef
8.
Wang, H., J.L. Mehta, K. Chen, X. Zhang, and D. Li. 2004. Human urotensin II modulates collagen synthesis and the expression of MMP-1 in human endothelial cells. Journal of Cardiovascular Pharmacology 44: 577–581.PubMedCrossRef
9.
Tran, L., A.R. Kompa, W. Kemp, A. Phrommintikul, B.H. Wang, and H. Krum. 2010. Chronic urotensin-II infusion induces diastolic dysfunction and enhances collagen production in rats. American Journal of Physiology. Heart and Circulatory Physiology 298: 608–613.CrossRef
10.
Pehlivan, Y., A.M. Onat, G. Comez, and T. Babacan. 2001. Urotensin-II in systemic sclerosis: A new peptide in pathogenesis. Clinical Rheumatology 28. Epub ahead of print.
11.
Pehlivan, Y., B. Gogebakan, S. Oztuzcu, M. Ozgen, G.Y. Cetin, R. Bayraktar, B. Cengiz, B. Kisacik, S.S. Koca, S. Donmez, M. Sayarlioglu, A.T. Demiryurek, and A. M. Onat. 2011. Association between Thr21Met and Ser89Asn polymorphisms of the urotensin II gene and systemic sclerosis. J Rheumatol Nov 1. (In press).
12.
Sidharta, P.N., P.L. van Giersbergen, and J. Dingemanse. 2009. Pharmacokinetics and pharmacodynamics of the urotensin-II receptor antagonist palosuran in healthy male subjects. Journal of Clinical Pharmacology 49: 1168–1175.PubMedCrossRef
13.
Chen, L., T. Wang, X. Wang, B.B. Sun, J.Q. Li, D.S. Liu, S.F. Zhang, L. Liu, D. Xu, Y.J. Chen, and F.Q. Wen. 2009. Blockade of advanced glycation end product formation attenuates bleomycin-induced pulmonary fibrosis in rats. Respiratory Research 10: 55.PubMedCrossRef
14.
Clozel, M., P. Hess, C. Qiu, S.S. Ding, and M. Rey. 2006. The urotensin-II receptor antagonist palosuran improves pancreatic and renal function in diabetic rats. Journal of Pharmacology and Experimental Therapeutics 316: 1115–1121.PubMedCrossRef
15.
Ashcroft, T., J.M. Simpson, and V. Timbrell. 1988. Simple method of estimating severity of pulmonary fibrosis on a numerical scale. Journal of Clinical Pathology 41: 467–470.PubMedCrossRef
16.
Society, A.T. 2009. Idiopathic pulmonary fibrosis: diagnosis and treatment. International consensus statement. American Thoracic Society (ATS), and the European Respiratory Society (ERS). American Journal of Respiratory and Critical Care Medicine 161: 646–664.
17.
Broekelmann, T.J., A.H. Limper, T.V. Colby, and J.A. McDonald. 1991. Transforming growth factor beta 1 is present at sites of extracellular matrix gene expression in human pulmonary fibrosis. Proceedings of the National Academy of Sciences of the United States of America 88: 6642–6646.PubMedCrossRef
18.
Atamas, S.P., and B. White. 2003. Cytokine regulation of pulmonary fibrosis in scleroderma. Cytokine & Growth Factor Reviews 14: 537–550.CrossRef
19.
Whyte, M., R. Hubbard, R. Meliconi, M. Whidborne, V. Eaton, C. Bingle, J. Timms, G. Duff, A. Facchini, A. Pacilli, M. Fabbri, I. Hall, J. Britton, I. Johnston, and F. Di Giovine. 2000. Increased risk of fibrosing alveolitis associated with interleukin-1 receptor antagonist and tumor necrosis factor-alpha gene polymorphisms. American Journal of Respiratory and Critical Care Medicine 162: 755–758.PubMed
20.
Jiang, D., J. Liang, J. Hodge, B. Lu, Z. Zhu, S. Yu, J. Fan, Y. Gao, Z. Yin, R. Homer, C. Gerard, and P.W. Noble. 2004. Regulation of pulmonary fibrosis by chemokine receptor CXCR3. The Journal of Clinical Investigation 114: 291–299.PubMed
21.
Raghu, G., K.K. Brown, W.Z. Bradford, K. Starko, P.W. Noble, D.A. Schwartz, and T.E. King Jr. 2004. A placebo-controlled trial of interferon gamma-1b in patients with idiopathic pulmonary fibrosis. The New England Journal of Medicine 350: 125–133.PubMedCrossRef
22.
Meadors, M., J. Floyd, and M.C. Perry. 2006. Pulmonary toxicity of chemotherapy. Seminars in Oncology 33: 98–105.PubMedCrossRef
23.
24.
Chandler, D.B., J.C. Barton, D.D. Briggs, T.W. Butler, J.I. Kennedy, W.E. Grizzle, and J.D. Fulmer. 1988. Effect of iron deficiency on bleomycin-induced lung fibrosis in the hamster. American Review of Respiratory Disease 137: 85–89.PubMedCrossRef
25.
Douglas, S.A., A.C. Sulpizio, V. Piercy, H.M. Sarau, R.S. Ames, N.V. Aiyar, E.H. Ohlstein, and R.N. Willette. 2000. Differential vasoconstrictor activity of human urotensin-II in vascular tissue isolated from the rat, mouse, dog, pig, marmoset and cynomolgus monkey. British Journal of Pharmacology 131: 1262–1274.PubMedCrossRef
26.
Cosenzi, A. 2008. Non peptidic urotensin II antagonists: Perspectives for a new class of drugs. Cardiovascular & Hematological Agents in Medicinal Chemistry 6: 80–91.CrossRef
27.
Bousette, N., J. Pottinger, W. Ramli, E.H. Ohlstein, D. Dhanak, S.A. Douglas, and A. Giaid. 2006. Urotensin-II receptor blockade with SB-611812 attenuates cardiac remodeling in experimental ischemic heart disease. Peptides 27: 2919–2926.PubMedCrossRef
28.
Simpson, C.M., J.J. Smolich, L.S. Shekerdemian, and D.J. Penny. 2010. Urotensin-II contributes to pulmonary vasoconstriction in a perinatal model of persistent pulmonary hypertension of the newborn secondary to meconium aspiration syndrome. Pediatric Research 67: 150–157.PubMedCrossRef
29.
Trebicka, J., L. Leifeld, M. Hennenberg, E. Biecker, A. Eckhardt, N. Fischer, A.S. Pröbsting, C. Clemens, F. Lammert, T. Sauerbruch, and J. Heller. 2008. Hemodynamic effects of urotensin II and its specific receptor antagonist palosuran in cirrhotic rats. Hepatology 47: 1264–1276.PubMedCrossRef
30.
Tian, L., C. Li, J. Qi, P. Fu, X. Yu, X. Li, and L. Cai. 2008. Diabetes-induced upregulation of UII and plays an important role in TGF-beta1-mediated renal fibrosis and dysfunction. American Journal of Physiology. Endocrinology and Metabolism 295: 1234–1242.CrossRef
31.
Sidharta, P.N., F.D. Wagner, H. Bohnemeier, A. Jungnik, A. Halabi, S. Krähenbühl, H. Chadha-Boreham, and J. Dingemanse. 2006. Pharmacodynamics and pharmacokinetics of the urotensin II receptor antagonist palosuran in macroalbuminuric, diabetic patients. Clinical Pharmacology and Therapeutics 80: 246–256.PubMedCrossRef
Metadata
Title
The Efficiency of a Urotensin II Antagonist in an Experimental Lung Fibrosis Model
Authors
Ahmet Mesut Onat
Ibrahim Halil Turkbeyler
Yavuz Pehlivan
Tuncer Demir
Davut Sinan Kaplan
Seyithan Taysi
Ali Osman Ceribasi
Ediz Tutar
Bunyamin Kisacik
Publication date
01-06-2012
Publisher
Springer US
Published in
Inflammation / Issue 3/2012
Print ISSN: 0360-3997
Electronic ISSN: 1573-2576
DOI
https://doi.org/10.1007/s10753-011-9421-6

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