Connexin43 Is Highly Localized to Sites of Disturbed Flow in Rat Aortic Endothelium but Connexin37 and Connexin40 Are More Uniformly Distributed

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Circulation Research. 1998;83:636-643

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(Circulation Research. 1998;83:636-643.)
© 1998 American Heart Association, Inc.

Original Contributions

Connexin43 Is Highly Localized to Sites of Disturbed Flow in Rat Aortic Endothelium but Connexin37 and Connexin40 Are More Uniformly Distributed

Joseph E. Gabriels, , David L. Paul

From the Department of Neurobiology, Harvard Medical School, Boston, Mass.

Correspondence to Dr David L. Paul, Department of Neurobiology, Harvard Medical School, 220 Longwood Ave, Boston, MA 02115. E-mail dpaul{at}hms.harvard.edu

Abstract—Vascular endothelial cells are linked by gapjunctions, which facilitate the propagation of electrical andchemical signals along the vessel wall. The aim of this studywas to determine the distribution and identity of the gap junctionstructural proteins (connexins) expressed by endothelial cellsin situ. Connexin expression in different regions of the rataortic endothelium was analyzed with the use of indirect immunofluorescencemicroscopy and Western blotting. Connexin40 and connexin37 werepresent in most, if not all, of the thoracic and abdominal aorticendothelia in the form of maculae at cell-cell appositions.In contrast, connexin43 was undetectable in most endotheliabut extremely abundant in small numbers of cells localized atthe downstream edge of the ostia of branching vessels and atflow dividers, regions that experience turbulent shear stressfrom disturbed blood flow. To examine the relationship of shear stressand connexin43 expression, localized stress was induced by surgicalcoarctation of the aorta, which was sufficient to cause strikinglocal upregulation of connexin43 within 8 days. Thus, increasesin connexin43 levels are an endothelial response to mechanicalstress.

Key Words: connexin • endothelium • circulation • aorta • gap junction

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				B. M. Altevogt and D. L. Paul Four Classes of Intercellular Channels between Glial Cells in the CNS J. Neurosci., May 5, 2004; 24(18): 4313 - 4323. [Abstract] [Full Text] [PDF]

				P. Saitongdee, D. L. Becker, P. Milner, G. E. Knight, and G. Burnstock Levels of Gap Junction Proteins in Coronary Arterioles and Aorta of Hamsters Exposed to the Cold and During Hibernation and Arousal J. Histochem. Cytochem., May 1, 2004; 52(5): 603 - 616. [Abstract] [Full Text] [PDF]

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				R. M. Porat, M. Grunewald, A. Globerman, A. Itin, G. Barshtein, L. Alhonen, K. Alitalo, and E. Keshet Specific Induction of tie1 Promoter by Disturbed Flow in Atherosclerosis-Prone Vascular Niches and Flow-Obstructing Pathologies Circ. Res., February 20, 2004; 94(3): 394 - 401. [Abstract] [Full Text] [PDF]

				S. L. Sandow, R. Looft-Wilson, B. Doran, T.H. Grayson, S. S. Segal, and C. E. Hill Expression of homocellular and heterocellular gap junctions in hamster arterioles and feed arteries Cardiovasc Res, December 1, 2003; 60(3): 643 - 653. [Abstract] [Full Text] [PDF]

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				B. R. Kwak, F. Mulhaupt, N. Veillard, D. B. Gros, and F. Mach Altered Pattern of Vascular Connexin Expression in Atherosclerotic Plaques Arterioscler. Thromb. Vasc. Biol., February 1, 2002; 22(2): 225 - 230. [Abstract] [Full Text] [PDF]

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				B. R. Kwak, M. S. Pepper, D. B. Gros, and P. Meda Inhibition of Endothelial Wound Repair by Dominant Negative Connexin Inhibitors Mol. Biol. Cell, April 1, 2001; 12(4): 831 - 845. [Abstract] [Full Text]

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				H.-I Yeh, Y.-J. Lai, H.-M. Chang, Y.-S. Ko, N. J. Severs, and C.-H. Tsai Multiple Connexin Expression in Regenerating Arterial Endothelial Gap Junctions Arterioscler. Thromb. Vasc. Biol., July 1, 2000; 20(7): 1753 - 1762. [Abstract] [Full Text] [PDF]