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AJP - Endocrinology and Metabolism, Vol 265, Issue 3 E428-E438, Copyright © 1993 by American Physiological Society
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M. J. Stevens, D. N. Henry, T. P. Thomas, P. D. Killen and D. A. Greene
Department of Internal Medicine, Michigan Diabetes Research and Training Center, University of Michigan, Ann Arbor 48109-0354.
A "compatible osmolyte hypothesis" proposes that intracellular nonionic organic osmolytes such as sorbitol, myo-inositol, taurine, betaine, and glycerophosphorylcholine respond coordinately to changes in external osmolality, thereby maintaining the intracellular ionic milieu. Osmoregulation may be the primary physiological function of aldose reductase, which catalyzes the conversion of glucose to sorbitol. Glucose-induced sorbitol accumulation in isosmotic hyperglycemic states is associated with compensatory depletion of myo-inositol and taurine. Because such depletion may predispose to chronic diabetic complications, the relationship between osmolyte shifts and aldose reductase gene expression was studied in two human retinal pigment epithelial cell lines, one exhibiting osmoregulated and the other high basal aldose reductase gene expression. High basal expression of the aldose reductase gene was associated with rapid sorbitol accumulation and myo-inositol depletion in response to hyperglycemic (20 mM) concentrations of glucose. Myo-inositol and sorbitol behaved as compensating intracellular osmolytes by accumulating markedly in response to hyperosmolality (300 mM mannitol). Thus the pattern of response of myo-inositol to hyperglycemic and hyperosmotic levels of glucose and mannitol was related to the degree of basal aldose reductase gene expression, which may therefore influence the development of diabetic complications.
This article has been cited by other articles:
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  T. Askwith, W. Zeng, M. C. Eggo, and M. J. Stevens Oxidative stress and dysregulation of the taurine transporter in high-glucose-exposed human Schwann cells: implications for pathogenesis of diabetic neuropathy Am J Physiol Endocrinol Metab, September 1, 2009; 297(3): E620 - E628. [Abstract] [Full Text] [PDF]
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 C. C. Bridges, M. S. Ola, P. D. Prasad, A. El-Sherbeny, V. Ganapathy, and S. B. Smith Regulation of taurine transporter expression by NO in cultured human retinal pigment epithelial cells Am J Physiol Cell Physiol, December 1, 2001; 281(6): C1825 - C1836. [Abstract] [Full Text] [PDF]
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M. J. Stevens, Y. Hosaka, J. A. Masterson, S. M. Jones, T. P. Thomas, and D. D. Larkin Downregulation of the human taurine transporter by glucose in cultured retinal pigment epithelial cells Am J Physiol Endocrinol Metab, October 1, 1999; 277(4): E760 - E771. [Abstract] [Full Text] [PDF]
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 F. LANG, G. L. BUSCH, M. RITTER, H. VOLKL, S. WALDEGGER, E. GULBINS, and D. HAUSSINGER Functional Significance of Cell Volume Regulatory Mechanisms Physiol Rev, January 1, 1998; 78(1): 247 - 306. [Abstract] [Full Text] [PDF]
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 B. C. B. Ko, B. Ruepp, K. M. Bohren, K. H. Gabbay, and S. S. M. Chung Identification and Characterization of Multiple Osmotic Response Sequences in the Human Aldose Reductase Gene J. Biol. Chem., June 27, 1997; 272(26): 16431 - 16437. [Abstract] [Full Text] [PDF]
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 M. L. McManus, K. B. Churchwell, and K. Strange Regulation of Cell Volume in Health and Disease N. Engl. J. Med., November 9, 1995; 333(19): 1260 - 1267. [Full Text] [PDF]
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