Cyanide Trapping of Iminium Ion Reactive Metabolites: Implications for Clinical Hepatotoxicity

Abstract: Reactive metabolite formation is a major mechanism of hepatotoxicity. Although reactive electrophiles can be soft or hard in nature, screening strategies have generally focused on the use of glutathione trapping assays to screen for soft electrophiles, with many data sets available to support their use. The use of a similar assay for hard electrophiles using cyanide as the trapping agent is far less common, and there is a lack of studies with sufficient supporting data. Using a set of 260 compounds with a defi… Show more

“…As a vindication of our chosen limitation, it can be noted that Kalgutkar and Driscoll concluded that it was not warranted to list cyclic amines as alerts except for the mentioned few ones . However, there is still vigilance against this substructure as evidenced by the popularity of tests applying the nonbiological cyanide ion as a trapping agent …”

Use of Structural Alerts for Reactive Metabolites in the Application SpotRM

“…As a vindication of our chosen limitation, it can be noted that Kalgutkar and Driscoll concluded that it was not warranted to list cyclic amines as alerts except for the mentioned few ones . However, there is still vigilance against this substructure as evidenced by the popularity of tests applying the nonbiological cyanide ion as a trapping agent …”

Use of Structural Alerts for Reactive Metabolites in the Application SpotRM