Melinda J.C. Lee scite author profile

Certain (arylsulfonyl)urea hypoglycemic drugs exemplified by chlorpropamide (CP) are known to interact pharmacologically with alcohol (ethanol) to elicit a chlorpropamide-alcohol flushing (CPAF) reaction that is reminiscent of the disulfiram-ethanol reaction (DER). In the present structure-activity study, designed to elucidate the mechanism of inhibition of aldehyde dehydrogenase (AlDH) by CP, we discovered that the N1-methoxy derivative of CP 2a was a potent inhibitor of AlDH in vivo similar in activity to that of the N1-ethyl derivative 2b. Both 2a and 2b can release n-propyl isocyanate, a known inhibitor of AlDH, nonenzymatically. However, (arylsulfonyl)carbamates that are structurally analogous to 2a were also active inhibitors of AlDH, whereas the corresponding (arylsulfonyl)carbamate analogs of 2b were uniformly without activity. We propose a mechanism of bioactivation of 2a and its analogs that involves initial O-demethylation followed by disproportionation and solvolysis of the intermediate formed to release nitroxyl, the putative inhibitor of AlDH.

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Generation of Nitric Oxide and Possibly Nitroxyl by Nitrosation of Sulfohydroxamic Acids and Hydroxamic Acids

Shirota

DeMaster

Lee

et al. 1999

Nitric Oxide

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N-Hydroxybenzenecarboximidic Acid Derivatives: A New Class of Nitroxyl-Generating Prodrugs

et al. 2001

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Prodrugs of Nitroxyl and Nitrosobenzene as Cascade Latentiated Inhibitors of Aldehyde Dehydrogenase

et al. 1998

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The prototypic aromatic C-nitroso compound, nitrosobenzene (NB), was shown previously to mimic the effect of nitroxyl (HN=O), the putative active metabolite of cyanamide, in inhibiting aldehyde dehydrogenase (AlDH). To minimize the toxicity of NB in vivo, pro-prodrug forms of NB, which were designed to be bioactivated either by an esterase intrinsic to AlDH or the mixed function oxidase enzymes of liver microsomes, were prepared. Accordingly, the prodrug N-benzenesulfonyl-N-phenylhydroxylamine (3) was further latentiated by conversion to its O-acetyl (1a), O-methoxycarbonyl (1b), O-ethoxycarbonyl (1c), and O-methyl (2) derivatives. Similarly, pro-prodrug forms of nitroxyl were prepared by derivatization of the hydroxylamino moiety of methanesulfohydroxamic acid with N, O-bis-acetyl (7a), N,O-bis-methoxycarbonyl (7b), N, O-bis-ethoxycarbonyl (7c), and N-methoxycarbonyl-O-methyl (7d) groups. It was expected that the bioactivation of these prodrugs would initiate a cascade of nonenzymatic reactions leading to the ultimate liberation of NB or nitroxyl, thereby inhibiting AlDH. Indeed, the ester pro-prodrugs of both series were highly active in inhibiting yeast AlDH in vitro with IC50 values ranging from 21 to 64 microM. However, only 7d significantly raised ethanol-derived blood acetaldehyde levels when administered to rats, a reflection of the inhibition of hepatic mitochondrial AlDH-2.

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Melinda J.C. Lee

Prodrugs of nitroxyl as inhibitors of aldehyde dehydrogenase

N1-Hydroxylated derivatives of chlorpropamide and its analogs as inhibitors of aldehyde dehydrogenase in vivo

Generation of Nitric Oxide and Possibly Nitroxyl by Nitrosation of Sulfohydroxamic Acids and Hydroxamic Acids

N-Hydroxybenzenecarboximidic Acid Derivatives: A New Class of Nitroxyl-Generating Prodrugs

Prodrugs of Nitroxyl and Nitrosobenzene as Cascade Latentiated Inhibitors of Aldehyde Dehydrogenase

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