Geeta Kala scite author profile

Worldwide, millions of people are exposed to arsenic in drinking water that exceeds the World Health Organization standard of 10 g/liter by as much as 50 -300-fold, yet little is known about the molecular basis for arsenic excretion. Here we show that transport of arsenic into bile depends on the MRP2/cMOAT transporter and that glutathione is obligatory for such transport. Using reversed phase liquid chromatography/mass spectrometry, we demonstrate that two arsenic-glutathione complexes not previously identified in vivo, arsenic triglutathione and methylarsenic diglutathione, account for most of the arsenic in the bile. The structure of the compounds was also confirmed by nuclear magnetic resonance spectroscopy. Our findings may help explain the increased susceptibility of malnourished human populations to arsenic.

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Glutathione synthesis is essential for mouse development but not for cell growth in culture

Shi

Osei-Frimpong

Kala

et al. 2000

Proc. Natl. Acad. Sci. U.S.A.

256

180

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Glutathione (GSH) is a major source of reducing equivalents in mammalian cells. To examine the role of GSH synthesis in development and cell growth, we generated mice deficient in GSH by a targeted disruption of the heavy subunit of ␥-glutamylcysteine synthetase (␥GCS-HS tm1 ), an essential enzyme in GSH synthesis. Embryos homozygous for ␥GCS-HS tm1 fail to gastrulate, do not form mesoderm, develop distal apoptosis, and die before day 8.5. Lethality results from apoptotic cell death rather than reduced cell proliferation. We also isolated cell lines from homozygous mutant blastocysts in medium containing GSH. These cells also grow indefinitely in GSH-free medium supplemented with N-acetylcysteine and have undetectable levels of GSH; further, they show no changes in mitochondrial morphology as judged by electron microscopy. These data demonstrate that GSH is required for mammalian development but dispensable in cell culture and that the functions of GSH, not GSH itself, are essential for cell growth.

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Formation and Urinary Excretion of Arsenic Triglutathione and Methylarsenic Diglutathione

Kala

Prater

et al. 2004

Chem. Res. Toxicol.

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Taking advantage of mice deficient in gamma-glutamyl transpeptidase that are unable to metabolize glutathione (GSH), we have identified two previously unrecognized urinary metabolites of arsenite: arsenic triglutathione and methylarsenic diglutathione. Following administration of sodium arsenite to these mice, approximately 60-70% of urinary arsenic is present as one of these GSH conjugates. We did not detect the dimethyl derivative, dimethyl arsenic GSH; however, dimethyl arsenic (DMAV) represented approximately 30% of urinary arsenic. Administration of buthionine sulfoximine, an inhibitor of GSH synthesis, to wild-type mice reduced urinary arsenic excretion by more than 50%, indicating the GSH dependence of arsenic metabolism, transport, or both. Rodents deficient in three known ABC family transporters (MRP1, MRP2, and MDR1a/1b) exhibited urinary arsenic levels similar or greater than those in wild-type rodents; however, administration of MK571, an MRP inhibitor, reduced urinary arsenic excretion by almost 50%. MK571-treated mice showed approximately 50% reduction of AsIII, MMAV, and AsV as compared to untreated wild-type controls, while DMAV levels were unchanged. These findings suggest that arsenic excretion is in part dependent on GSH and on an MRP transporter other than MRP1 or 2.

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Neuronal-astrocytic and cytosolic-mitochondrial metabolite trafficking during brain activation, hyperammonemia and energy deprivation

Hertz

Kala

et al. 2000

103

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Nutritional Status Assessment Before, During, and After Long-Duration Head-Down Bed Rest

Zwart

Oliver²,

Fesperman³

et al. 2009

aviat space environ med

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Geeta Kala

The MRP2/cMOAT Transporter and Arsenic-Glutathione Complex Formation Are Required for Biliary Excretion of Arsenic

Glutathione synthesis is essential for mouse development but not for cell growth in culture

Formation and Urinary Excretion of Arsenic Triglutathione and Methylarsenic Diglutathione

Neuronal-astrocytic and cytosolic-mitochondrial metabolite trafficking during brain activation, hyperammonemia and energy deprivation

Nutritional Status Assessment Before, During, and After Long-Duration Head-Down Bed Rest

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