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1. Vitamin C transporter Slc23a1 links renal reabsorption, vitamin C tissue accumulation, and perinatal survival in mice

Author

Corpe, Christopher P., Tu, Hongbin, Eck, Peter, Wang, Jin, Faulhaber-Walter, Robert, Schnermann, Jurgen, Margolis, Sam, Padayatty, Sebastian, Sun, He, Wang, Yaohui, Nussbaum, Robert L., Espey, Michael Graham, and Levine, Mark

Subjects

Infants -- Patient outcomes, Absorption (Physiology) -- Research -- Health aspects -- Forecasts and trends, Kidneys -- Medical examination -- Research -- Forecasts and trends -- Health aspects, Vitamin C -- Health aspects -- Research -- Forecasts and trends, Market trend/market analysis, Health care industry

Abstract

Levels of the necessary nutrient vitamin C (ascorbate) are tightly regulated by intestinal absorption, tissue accumulation, and renal reabsorption and excretion. Ascorbate levels are controlled in part by regulation of transport through at least 2 sodium-dependent transporters: Slc23a1 and Slc23a2 (also known as Svct1 and Svct2, respectively). Previous work indicates that Slc23a2 is essential for viability in mice, but the roles of Slc23a1 for viability and in adult physiology have not been determined. To investigate the contributions of Slc23a1 to plasma and tissue ascorbate concentrations in vivo, we generated [Slc23a1.sup.[-/-]] mice. Compared with wild-type mice, [Slc23a1.sup.[-/-]] mice increased ascorbate fractional excretion up to 18-fold. Hepatic portal ascorbate accumulation was nearly abolished, whereas intestinal absorption was marginally affected. Both heterozygous and knockout pups born to [Slc23a1.sup.[-/-]] dams exhibited approximately 45% perinatal mortality, and this was associated with lower plasma ascorbate concentrations in dams and pups. Perinatal mortality of [Slc23a1.sup.[-/-]] pups born to [Slc23a1.sup.[-/-]] dams was prevented by ascorbate supplementation during pregnancy. Taken together, these data indicate that ascorbate provided by the dam influenced perinatal survival. Although [Slc23a1.sup.[-/-]] mice lost as much as 70% of their ascorbate body stores in urine daily, we observed an unanticipated compensatory increase in ascorbate synthesis. These findings indicate a key role for Slc23a1 in renal ascorbate absorption and perinatal survival and reveal regulation of vitamin C biosynthesis in mice., Introduction Vitamin C (ascorbate) is synthesized by most mammals. Humans lack the terminal enzyme gulonolactone oxidase in the synthesis pathway and rely on dietary intake for ascorbate (1). Ascorbate is [...]

Published

2010