William W. Webb scite author profile

William W. Webb

3Publications

51Citation Statements Received

71Citation Statements Given

How they've been cited

135

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Affiliations

University of Connecticut Health Center

Publications

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Inhibition of hepatic triglyceride formation by clofibrate

Adams¹,

Webb²,

Fallon³

1971

J. Clin. Invest.

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A B S T R A C T The effect of clofibrate (CPIB) on hepatic glycerolipid formation has been studied in vivo and in vitro in the rat. Feeding 0.25% CPIB in laboratory chow significantly reduced serum triglyceride levels by 6 hr and concomitantly decreased the rate of glycerol-4C incorporation into hepatic and serum glycerides, in vivo. These changes persisted for at least 14 days. A similar decrease in serum triglyceride and glycerol incorporation into hepatic glycerides was observed in rats fed high glucose diets containing 0.25% CPIB. Serum glycerol was reduced by feeding CPIB for 14 days. The formation of diglyceride and triglyceride from 14C-snglycerol-3-P by rat liver homogenates was inhibited by addition of 1-40 mm CPIB to the reaction mixture. These results suggest that CPIB reduces hepatic glycerolipid synthesis, possibly by inhibition of one or more reactions in the esterification of sn-glycerol-3-P. This change may account for the early fall in serum triglyceride. At later time periods, serum glycerol levels fall and in some experiments, hepatic triglyceride content increases. Therefore, it is likely that additional metabolic alterations may contribute to the sustained hypotriglyceridemic effects of CPIB.

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Role for an episulfonium ion in S-(2-chloroethyl)-DL-cysteine-induced cytotoxicity and its reaction with glutathione

Webb¹,

Elfarra²,

Webster³

et al. 1987

Biochemistry

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The cysteine S conjugate of 1,2-dichloroethane, S-(2-chloroethyl)-DL-cysteine (CEC), is hepatotoxic, nephrotoxic, and mutagenic. To determine the cellular and chemical mechanisms involved in CEC-induced toxicity and to assess the role of an episulfonium ion, the effect of CEC on the viability of isolated rat hepatocytes was studied. CEC addition resulted in both a time- and concentration-dependent loss of cell viability. Depletion of intracellular glutathione concentrations (greater than 70%) and inhibition of microsomal Ca2+ transport and Ca2+-ATPase activity preceded the loss of cell viability, and initiation of lipid peroxidation paralleled the loss of viability. The depletion of glutathione concentrations was partially attributable to a reaction between glutathione and CEC to form S-[2-(DL-cysteinyl)ethyl]glutathione, which was identified by NMR and mass spectrometry. N-Acetyl-L-cysteine, vitamin E, and N,N'-diphenyl-p-phenylenediamine protected against the loss of cell viability. N,N'-Diphenyl-p-phenylenediamine inhibited CEC-initiated lipid peroxidation but did not protect against cell death at 4 h, indicating that lipid peroxidation was not the cause of cell death. The analogues S-ethyl-L-cysteine, S-(3-chloropropyl)-DL-cysteine, and S-(2-hydroxyethyl)-L-cysteine, which cannot form an episulfonium ion, were not cytotoxic, thus demonstrating a role for an episulfonium ion in the cytotoxicity associated with exposure to CEC and, possibly, 1,2-dichloroethane. These results show that an alteration in Ca2+ homeostasis and the generation of an electrophilic intermediate may be involved in the mechanism of cell death.

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Muscarinic agonist-induced positive inotropic response in chick atria

Webb

Pappano

1995

Life Sciences

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William W. Webb

Inhibition of hepatic triglyceride formation by clofibrate

Role for an episulfonium ion in S-(2-chloroethyl)-DL-cysteine-induced cytotoxicity and its reaction with glutathione

Muscarinic agonist-induced positive inotropic response in chick atria

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