2-Amino-4-phenyl-8-pyrrolidin-1-ylmethyl-indeno[1,2-d]pyrimidin-5-one (1) is a novel and potent selective dual A(2A)/A(1) adenosine receptor antagonist from the arylindenopyrimidine series that was determined to be genotoxic in both the Ames and Mouse Lymphoma L5178Y assays only following metabolic activation. Compound 1 was identified as a frame-shift mutagen in Salmonella typhimurium tester strain TA1537 as indicated by a significant dose-dependent increase in revertant colonies as compared to the vehicle control. The metabolic activation-dependent irreversible covalent binding of radioactivity to DNA, recovery of 1 and its enamine metabolite from acid hydrolysis of covalently modified DNA, and protection of covalent binding to DNA by both cyanide ion and methoxylamine suggest that the frame-shift mutation in TA1537 strain involved covalent binding instead of simple intercalation to DNA. Compound 1 was bioactivated to endocyclic iminium ion, aldehyde, epoxide, and α,β-unsaturated keto reactive intermediates from the detection of cyano, oxime, and glutathione conjugates by data-dependent high resolution accurate mass measurements. Collision-induced dissociation of these conjugates provided evidence for bioactivation of the pyrrolidine ring of 1. The epoxide and α,β-unsaturated keto reactive intermediates were unlikely to cause the genotoxicity of 1 because the formation of their glutathione adducts did not ameliorate the binding of compound related material to DNA. Instead, the endocyclic iminium ions and amino aldehydes were likely candidates responsible for genotoxicity based on, first, the protection afforded by both cyanide ion and methoxylamine, which reduced the potential to form covalent adducts with DNA, and, second, analogues of 1 designed with low probability to form these reactive intermediates were not genotoxic. It was concluded that 1 also had the potential to be mutagenic in humans based on observing the endocyclic iminium ion following incubation with a human liver S9 preparation and the commensurate detection of DNA adducts. An understanding of this genotoxicity mechanism supported an evidence-based approach to selectively modify the structure of 1 which resulted in analogues being synthesized that were devoid of a genotoxic liability. In addition, potency and selectivity against both adenosine A(2A) and A(1) receptors were maintained.
The Mouse Lymphoma Assay (MLA) Workgroup of the International Workshop on Genotoxicity Test Procedures held a second harmonization meeting just prior to the U.S. Environmental Mutagen Society Meeting in New Orleans, LA, in April 2000. The discussion focused on several important aspects of the MLA, including: 1) cytotoxicity measures and their determination, 2) use of a 24-hr treatment, 3) the ability of the assay to detect aneugens, and 4) concentration selection. Prior to the meeting the group developed Microsoft Excel Workbooks for data entry. Ten laboratories entered their data into the workbooks (primarily as coded chemicals). The Excel Workbooks were used to facilitate data analysis by generating an extensive set of graphs that were evaluated by the meeting participants. Based on the Workgroup's previous agreement that a single cytotoxicity measure should be established for both the microwell and soft agar versions of the assay, the Workgroup analyzed the submitted data and unanimously agreed that the relative total growth (RTG) should be used as the cytotoxicity measure for concentration selection and data evaluation. The Workgroup also agreed that the various cytotoxicity measures should be calculated using the same methods regardless of whether the soft agar or microwell version of the assay was used. In the absence of sufficient data to make a definitive determination, the Workgroup continued to endorse the International Committee on Harmonization recommendation for the use of 24-hr treatment and made some specific 24-hr treatment protocol recommendations. The Workgroup recognized the ability of the MLA to detect at least some aneugens and also developed general guidance and requirements for appropriate concentration selection.
Acetaminophen (APAP), aspirin (ASA), phenacetin (PA) and ibuprofen (IB) were tested for mutagenic activity in the Ames Salmonella plate incorporation assay using strains TA98, TA100, TA1535, TA1537 and TA1538. These analgesics were tested in four separate tests: without metabolic activation, and in the presence of a rat, hamster or mouse liver post-mitochondrial supernatant (S-9, Aroclor 1254-induced). Treatment of all five strains of Salmonella with APAP, ASA or IB under all four metabolic conditions did not induce any appreciable increases in revertant colony counts, as compared to the negative controls. A dose-related increase in revertant colony counts, reaching levels twice the negative control values, were seen with PA at doses greater than or equal to 500 micrograms per plate. This response was only seen in strain TA100 in the presence of hamster S-9. Therefore, these findings constitute a positive result for PA in the Ames test. APAP, ASA and IB did not show any mutagenic potential under these conditions of testing. These findings are discussed along with previously published results concerning the genotoxicity of these analgesics.
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