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Clinical and Experimental Hypertension. Part A: Theory and Practice Volume 7, 1985 - Issue 7
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Original Article

Mn++-Stimulated 3H-Inositol Incorporation in Cultured Vascular Smooth Muscle Cells: Deficiency in Cells from Spontaneously Hypertensive Rats

S. H. Buck Section on Biochemical Pharmacology, NHLBI, NIH, Bethesda, MD, 20205
,
T. Nabika Section on Biochemical Pharmacology, NHLBI, NIH, Bethesda, MD, 20205
&
W. Lovenberg Section on Biochemical Pharmacology, NHLBI, NIH, Bethesda, MD, 20205
Pages 1033-1041 | Published online: 03 Jul 2009

References

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  • Berridge M. J. Phosphatidylinositol hydrolysis: A multifunctional transducing system Molec. Cell. Endocrinol. 1981; 24: 115–140
  • Michell R. H, Kirk C. J. Why is phosphatidylinositol degraded in response to stimulation of certain receptors? Trends Pharmacol. Sci. 1981; 2: 86–89
  • Brown S. L, Brown J. H. Muscarinic stimulation of phosphatidylinositol metabolism in atria Molec. Pharmacol. 1983; 24: 351–356
  • Agranoff B. W, Bradley R. M, Brady R. O. The enzymatic synthesis of inositol phosphatide J. Biol. Chem. 1958; 233: 1077–1083
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  • Yandrasitz J. R, Segal S. The effect of MnCl2on the basal and acetylcholine-stimulated turnover of phosphatidylinositol in synaptosomes. FEBS Letters 1979; 108: 279–282
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  • Ross R. The smooth muscle cell II. Growth of smooth muscle in culture and formation of elastic fibers. J. Cell. Biol. 1971; 50: 172–186
  • Nabika T., Velletri P. A, Igawa T., Yamori Y., Lovenberg W. Comparison of cyclic AMP accumulation and morphological changes induced by β-adrenergic stimulation of cultured vascular smooth muscle cells and fibroblasts. Blood Vessels 1985; 22: 47–56
  • Rouser G., Kritchevsky G., Galli C., Yamamoto A., Knudson A. G., Jr. Variations in lipid composition of human brain during development and in the sphingolipidoses: Use of two-dimensional thin-layer chromatography. Inborn Disorders of Sphingolipid Metabolism, Proceedings of Third International Symposium on Cerebral Sphingolipidoses, Volk M. S. Aronson. Pergamon, Oxford 1967; 303–316
  • Kiselev G., Minenko A., Moritz V., Oehme P. Polyphosphoinositide metabolism in erythrocytes of spontaneously hypertensive rats Biochem. Pharmacol. 1981; 30: 833–837
  • Koutouzov S., Marche P., Girard A., Meyer P. Altered turnover of polyphosphoinositides in the erythrocyte membrane of the spontaneously hypertensive rat. Hypertension 1983; 5: 409–414
  • Nabika T., Velletri P. A, Lovenberg W., Beaven M. A. Increase in cytosolic calcium and phosphoinositide metabolism induced by angiotensin II and Arg-vasopressin in vascular smooth muscle cells. J. Biol. Chem., in press.
  • Yamori Y., Horie R., Nara Y., Kihara M., Igawa T., Kanbe T., Mori K., Ikeda K. Genetic markers in spontaneously hypertensive rats Clin. Exper. Hypertension 1981; 3: 713–725
  • Devynck M. A, Pernollet M. G, Nunez A. M, Aragon I., Montenay-Garestier T, Helene C., Meyer P. Diffuse structural alterations in cell membranes of spontaneously hypertensive rats Proc. Nat. Acad. Sci. (USA) 1982; 79: 5057–5060
  • Bhalla R. C, Webb R. C, Singh D., Ashley T., Brock T. Calcium fluxes, calcium binding, and adenosine 3′,5′-monophosphate-dependent protein kinase activity in the aorta of spontaneously hypertensive and Kyoto Wistar normotensive rats Molec. Pharmacol. 1978; 14: 468–477

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