Bert Ho scite author profile

Bert Ho

5Publications

92Citation Statements Received

4Citation Statements Given

How they've been cited

150

How they cite others

111

Affiliations

John Radcliffe Hospital, University of Colorado Boulder, Letterman Army Medical Center

Publications

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Trapping of metabolically generated electrophilic species with cyanide ion: metabolism of 1-benzylpyrrolidine

Ho¹,

Castagnoli²

1980

J. Med. Chem.

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Incubations of 1-benzylpyrrolidine (4) and specifically deuterium-labeled analogues of 4 with rabbit liver microsomal preparations in the presence of cyanide ion have led to the characterization of 1-benzyl-2-cyanopyrrolidine (13), cis- and trans-1-benzyl-2,5-dicyanopyrrolidine (14a and 14b, respectively), and 1-benzyl-5-cyano-2-pyrrolidinone (15). The cyano adducts of the amine are thought to result from nucleophilic attack by cyanide ion on metabolically generated iminium species. The cyanolactam may be produced by mixed function oxidation of the dicyano compounds. Incubations of tritium-labeled 1-benzylpyrrolidine with rabbit liver microsomal preparations led to the reduced nicotinamide adenine dinucleotide phosphate dependent incorporation of the label into the macromolecular fraction isolated from the postincubates. Although the level of incorporation was low compared to the amount of cyano adducts formed, it is comparable to that reported for other metabolically activated cytotoxic agents. Attempts to identify the possible arene oxide rearrangement product 1-(4-hydroxybenzyl)pyrrolidine (24) as a metabolite of 4 were unsuccessful. The results have prompted us to postulate that metabolically generated iminium ions are capable of alkylating nucleophilic functionalities present on microsomal macromolecules.

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Effects of Conformation on the Chemical Stability of Pharmaceutically Relevant Polypeptides

Meyer¹,

Ho²,

Manning³

2002

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Dynamic headspace analysis of volatile metabolites from the reductive dehalogenation of trichloro- and tetrachloroethanes by hepatic microsomes

Thompson

Mastovich

1985

Analytical Biochemistry

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Trapping of metabolically generated electrophilic species with cyanide ion: metabolism of methapyrilene

Ziegler¹,

Ho²,

Castagnoli³

1981

J. Med. Chem.

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The popular antihistamine methapyrilene [N,N-dimethyl-N'-(2-pyridyl)-N'-(2-thienylmethyl)-1,2-ethanediamine] recently has been shown to be a potent hepatocarcinogen. Metabolic studies with rabbit liver 100000g microsomal preparations have resulted in the partial characterization of the in vitro metabolic profile of methapyrilene. Evidence for the formation of the N-oxide and the three possible carbinolamines resulting from the NADPH-dependent oxidation of the (dimethylamino)ethyl side chain nitrogen and carbon atoms of methapyrilene is presented. Attempts to trap iminium ion intermediates with electrophilic alkylating potential by coincubating methapyrilene with sodium cyanide have led to the isolation of N-(cyanomethyl)normethapyrilene. The possibility of characterizing the iminium ion intermediate that would result from the oxidative deamination of the dimethylamino moiety was precluded by the chemical instability of the corresponding alpha-cyano amine, which undergoes a spontaneous retro-Michael reaction and hydrolysis to the corresponding amide. The results are discussed in terms of the metabolic activation of methapyrilene to potential alkylating species.

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Reductive metabolism of 1,1,1,2-tetrachloroethane and related chloroethanes by rat liver microsomes

Thompson

Mastovich

1984

Chemico-Biological Interactions

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Bert Ho

Trapping of metabolically generated electrophilic species with cyanide ion: metabolism of 1-benzylpyrrolidine

Effects of Conformation on the Chemical Stability of Pharmaceutically Relevant Polypeptides

Dynamic headspace analysis of volatile metabolites from the reductive dehalogenation of trichloro- and tetrachloroethanes by hepatic microsomes

Trapping of metabolically generated electrophilic species with cyanide ion: metabolism of methapyrilene

Reductive metabolism of 1,1,1,2-tetrachloroethane and related chloroethanes by rat liver microsomes

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