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David Schachter, M.D. Professor of Physiology & Cellular Biophysics E-mail: ds12@columbia.edu Tel: (212) 305-3760 Office: P&S 11-427 Fax:(212) 305-5775 |
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CURRENT RESEARCH DYNAMIC REGULATION OF THE PROPERTIES OF THE WALL OF THE AORTA; EPITHELIAL AND SMOOTH MUSCLE INTERACTIONS. Recent studies in our laboratory demonstrate that the aorta of the rat is differentiated regionally for dynamic regulation of the properties of the vessel wall. The regulation occurs by cell signaling from the aortic endothelium, which is differentiated regionally, to the underlying smooth muscle cell layers. At least three signal pathways are involved, two of them well known. The formation of nitric oxide (NO) from L-arginine in aortic endothelium exhibits a characteristic activity pattern: greatest activity just distal to the aortic arch and progressively diminishing activity distally. The same regional pattern obtains for the formation and action of a product of the cyclooxygenase arm of the eicosanoid pathway, probably prostaglandin H2. The third signal pathway, a novel mechanism, exhibits the same regional pattern. Aortic endothelial cells convert the carbon atoms of L-leucine to L-glutamate. Nitric oxide and L-glutamate act on the underlying vascular smooth muscle to increase the level of cGMP (guanosine 3',5'-cyclic monophosphate), which results in smooth muscle relaxation. Prostaglandin H2 acts contrarily to decrease the level of cGMP. The aortic segment differentiated for these pathways corresponds to the "windkessel" region, the major elastic reservoir of the aorta. Dynamic regulation of the compliance and other viscoelastic properties of the aortic wall in this region can modulate important hemodynamic parameters including the arterial systolic and pulse pressures, the work of the left ventricle and the pulse-wave velocity. The new leucine-to-glutamate (leu-glu) pathway is of particular interest and under systematic study. The molecular and enzymatic mechanisms involved in the metabolic conversion, the transport steps and the physiological responses of vascular smooth muscle to glutamate are under investigation. We know that leucine derivatives and analogs can block the leu-glu conversion and markedly lower the cGMP levels of aortic smooth muscle. Drugs based on these leucine derivatives thus have the potential of affecting important vascular functions. We have also demonstrated that the leu-glu pathway is prominent in certain other tissues: pancreas, lung, testes and ovaries. In the pancreas, for example, the islets of Langerhans carry out the conversion, and glutamate has been demonstrated to enhance insulin secretion. Possible regulation by glutamate of functions in these tissues will be explored. The approaches used in this laboratory encompass animal physiology, cellular biology, membrane biochemistry and molecular biology. SELECTED PUBLICATIONS Schachter, D, Sang, J.C. 1997. Regional differentiation in the rat aorta: effects of cyclooxygenase inhibitors. Am. J. Physiol. (Heart Circ. Physiol.) 273:H1478-H1483. Schachter, D., Sang, J.C. 1997. Regional differentiation in the rat aorta for a novel signaling pathway: leucine to glutamate. Am. J. Physiol. (Heart Circ. Physiol.) 273:H1484-H1492. Abbott, R.E, Schachter, D. 1994. Inheritance of Salt-dependent hypertension in the inbred Dahl Rat. Hypertension 24:506-511. Abbott, R.E., Schachter, D. 1994. Regional differentiation in rat aorta: L-arginine metabolism and cGMP content in vitro. American Journal of Physiology 266:H2287-H22954. Chen, C.M, Schachter, D. 1993. Elevation of plasma immunoglobulin A in the Spontaneously Hypertensive Rat. Hypertension 21:731-738. |
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