S100A4/Mts1 Produces Murine Pulmonary Artery Changes Resembling Plexogenic Arteriopathy and Is Increased in Human Plexogenic Arteriopathy

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S100A4/Mts1 Produces Murine Pulmonary Artery Changes Resembling Plexogenic Arteriopathy and Is Increased in Human Plexogenic Arteriopathy

Steven Greenway^*, Robert Jan van Suylen^*, Gideon Du Marchie Sarvaas^*, Edwin Kwan^*, Noona Ambartsumian, Eugene Lukanidin and Marlene Rabinovitch^*

From the Division of Cardiovascular Research,^* The Hospital for Sick Children, University of Toronto, Toronto, Ontario, Canada; and the Department of Molecular Cancer, Institute of Cancer Biology, Danish Cancer Society, Copenhagen, Denmark

S100A4/Mts1 confers a metastatic phenotype in tumor cells andmay also be related to resistance to apoptosis and angiogenesis.Approximately 5% of transgenic mice overexpressing S100A4/Mts1develop pulmonary arterial changes resembling human plexogenicarteriopathy with intimal hyperplasia leading to occlusion ofthe arterial lumen. To assess the pathophysiological significanceof this observation, immunohistochemistry was applied to quantitativelyanalyze S100A4/Mts1 expression in pulmonary arteries in surgicallung biopsies from children with pulmonary hypertension secondaryto congenital heart disease. S100A4/Mts1 was not detected inpulmonary arteries with low-grade hypertensive lesions but wasexpressed in smooth muscle cells of lesions showing neointimalformation and with increased intensity in vessels with an occlusiveneointima and plexiform lesions. Putative downstream targetsof S100A4/Mts1 include Bax, which is pro-apoptotic, and thepro-angiogenic vascular endothelial growth factor (VEGF). Theincrease in S100A4/Mts1 expression precedes heightened expressionof Bax in progressively severe neointimal lesions but in non-S100A4/Mts1-expressingcells. VEGF immunoreactivity did not correlate with severityof disease. The relationship of increased S100A4/Mts1 to pathologicallysimilar lesions in the transgenic mice and patients occurs despitedifferences in localization (endothelial versus smooth musclecells).

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				D. D. Ivy, I. F. McMurtry, K. Colvin, M. Imamura, M. Oka, D.-S. Lee, S. Gebb, and P. L. Jones Development of Occlusive Neointimal Lesions in Distal Pulmonary Arteries of Endothelin B Receptor-Deficient Rats: A New Model of Severe Pulmonary Arterial Hypertension Circulation, June 7, 2005; 111(22): 2988 - 2996. [Abstract] [Full Text] [PDF]

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				J. P. Khoo, L. Zhao, N. J. Alp, J. K. Bendall, T. Nicoli, K. Rockett, M. R. Wilkins, and K. M. Channon Pivotal Role for Endothelial Tetrahydrobiopterin in Pulmonary Hypertension Circulation, April 26, 2005; 111(16): 2126 - 2133. [Abstract] [Full Text] [PDF]

				H. Beppu, F. Ichinose, N. Kawai, R. C. Jones, P. B. Yu, W. M. Zapol, K. Miyazono, E. Li, and K. D. Bloch BMPR-II heterozygous mice have mild pulmonary hypertension and an impaired pulmonary vascular remodeling response to prolonged hypoxia Am J Physiol Lung Cell Mol Physiol, December 1, 2004; 287(6): L1241 - L1247. [Abstract] [Full Text] [PDF]

				M. Rabinovitch The Mouse Through the Looking Glass: A New Door Into the Pathophysiology of Pulmonary Hypertension Circ. Res., April 30, 2004; 94(8): 1001 - 1004. [Full Text] [PDF]