Protein Information

ID 3443
Name glycolytic enzyme
Synonyms Brain form hexokinase; HK1; Glycolytic enzyme; HK I; HK1 sa; HK1 sb; HK1 ta; HK1 tb…

Compound Information

ID 1792
Name α-chlorohydrin
CAS 3-chloro-1,2-propanediol

Reference

PubMed Abstract RScore(About this table)
16322075 Nemeti B, Csanaky I, Gregus Z: Effect of an inactivator of glyceraldehyde-3-phosphate dehydrogenase, a fortuitous arsenate reductase, on disposition of arsenate in rats. Toxicol Sci. 2006 Mar;90(1):49-60. Epub 2005 Dec 1.
The environmentally prevalent arsenate (AsV) is reduced in the body to the much more toxic arsenite (AsIII). Recently, we have demonstrated that the glycolytic enzyme glyceraldehyde-3-phosphate dehydrogenase (GAPDH) catalyzes the reduction of AsV in the presence of glutathione, yet the role of GAPDH in AsV reduction in vivo is unknown. Therefore, we examined the effect of (S)-alpha-cholorhydrin (ACH), which forms a GAPDH-inhibitory metabolite, on the reduction of AsV in rats. These studies confirmed the in vitro role of GAPDH as an AsV reductase, inasmuch as 3 h after administration of ACH (100 or 200 mg/kg, ip) to rats both the cytosolic GAPDH activity and the AsV-reducing activity dramatically fell in the liver, moderately decreased in the kidneys, and remained unchanged in the muscle. Moreover, the AsV-reducing activity closely correlated with the GAPDH activity in the hepatic cytosols of control and ACH-treated rats. Two confounding effects of ACH (i.e., a slight fall in hepatic glutathione levels and a rise in urinary AsV excretion) prompted us to examine its influence on the disposition of injected AsV (50 micromol/kg, iv) in rats with ligated bile duct as well as in rats with ligated bile duct and renal pedicles. These experiments demonstrated that the hepatic retention of AsV significantly increased, and the combined levels of AsV metabolites (i.e., AsIII plus methylated arsenicals) in the liver decreased in response to ACH; however, ACH failed to delay the disappearance of AsV from the blood of rats with blocked excretory routes. Thus, the GAPDH inactivator ACH inhibits AsV reduction by the liver, but not by the whole body, probably because the impaired hepatic reduction is compensated for by hepatic and extrahepatic AsV-reducing mechanisms spared by ACH. It is most likely that ACH inhibits hepatic AsV reduction predominantly by inactivating GAPDH in the liver; however, a slight ACH-induced glutathione depletion may also contribute. While this study seems to support the conclusion that GAPDH in the liver is involved in AsV reduction in rats, confirmation of the in vivo role of GAPDH as an AsV reductase is desirable.
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