Physiological Roles and Regulation of Mammalian Sulfate Transporters

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Physiological Roles and Regulation of Mammalian Sulfate Transporters

Daniel Markovich

Department of Physiology and Pharmacology, University of Queensland, Brisbane, Queensland, Australia

Markovich, Daniel Physiological Roles and Regulation of Mammalian Sulfate Transporters. Physiol. Rev. 81: 1499-1533, 2001.All cells require inorganic sulfate for normal function. Sulfate is among the most important macronutrients in cells and isthe fourth most abundant anion in human plasma (300 µM). Sulfateis the major sulfur source in many organisms, and because it isa hydrophilic anion that cannot passively cross the lipid bilayerof cell membranes, all cells require a mechanism for sulfate influxand efflux to ensure an optimal supply of sulfate in the body.The class of proteins involved in moving sulfate into or out ofcells is called sulfate transporters. To date, numerous sulfatetransporters have been identified in tissues and cells from manyorigins. These include the renal sulfate transporters NaSi-1 andsat-1, the ubiquitously expressed diastrophic dysplasia sulfatetransporter DTDST, the intestinal sulfate transporter DRA thatis linked to congenital chloride diarrhea, and the erythrocyteanion exchanger AE1. These transporters have only been isolatedin the last 10-15 years, and their physiological roles and contributionsto body sulfate homeostasis are just now beginning to be determined.This review focuses on the structural and functional propertiesof mammalian sulfate transporters and highlights some of regulatorymechanisms that control their expression in vivo, under normalphysiological and pathophysiologicalstates.

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				M. J. G. Bolt, W. Liu, G. Qiao, J. Kong, W. Zheng, T. Krausz, G. Cs-Szabo, M. D. Sitrin, and Y. C. Li Critical role of vitamin D in sulfate homeostasis: regulation of the sodium-sulfate cotransporter by 1,25-dihydroxyvitamin D3 Am J Physiol Endocrinol Metab, October 1, 2004; 287(4): E744 - E749. [Abstract] [Full Text] [PDF]

				R. M. Pelis and J. L. Renfro Role of tubular secretion and carbonic anhydrase in vertebrate renal sulfate excretion Am J Physiol Regulatory Integrative Comp Physiol, September 1, 2004; 287(3): R491 - R501. [Abstract] [Full Text] [PDF]

				R. R. Regeer and D. Markovich A dileucine motif targets the sulfate anion transporter sat-1 to the basolateral membrane in renal cell lines Am J Physiol Cell Physiol, August 1, 2004; 287(2): C365 - C372. [Abstract] [Full Text] [PDF]

				S. H. Wright and W. H. Dantzler Molecular and Cellular Physiology of Renal Organic Cation and Anion Transport Physiol Rev, July 1, 2004; 84(3): 987 - 1049. [Abstract] [Full Text] [PDF]

				P. A. Dawson, L. Beck, and D. Markovich Hyposulfatemia, growth retardation, reduced fertility, and seizures in mice lacking a functional NaSi-1 gene PNAS, November 11, 2003; 100(23): 13704 - 13709. [Abstract] [Full Text] [PDF]

				H. Li and A. M. Pajor Mutagenesis of the N-glycosylation site of hNaSi-1 reduces transport activity Am J Physiol Cell Physiol, November 1, 2003; 285(5): C1188 - C1196. [Abstract] [Full Text] [PDF]

				H. Li and A. M. Pajor Serines 260 and 288 Are Involved in Sulfate Transport by hNaSi-1 J. Biol. Chem., September 26, 2003; 278(39): 37204 - 37212. [Abstract] [Full Text] [PDF]

				K. L. Moore The Biology and Enzymology of Protein Tyrosine O-Sulfation J. Biol. Chem., June 27, 2003; 278(27): 24243 - 24246. [Full Text] [PDF]

				P. L. Dudas and J. L. Renfro Transepithelial sulfate transport by avian renal proximal tubule epithelium in primary culture Am J Physiol Regulatory Integrative Comp Physiol, December 1, 2002; 283(6): R1354 - R1361. [Abstract] [Full Text] [PDF]

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