ABSTRACT:Acyl glucuronides (AGs) formed from carboxylic acid-containing drugs have been considered to be a cause of idiosyncratic drug toxicity (IDT). Chemical stability of AGs is supposed to relate to their reactivity. In this study, the half-lives of 21 AGs of carboxylic drugs in potassium phosphate buffer (KPB), human serum albumin (HSA) solution, and human fresh plasma were analyzed in relation to the IDT risk derived from these drugs. The carboxylic drugs were classified into three safety categories of "safe," "warning," and "withdrawn" in terms of their IDT risk. As for the results, the half-lives of AGs in KPB correlated with the IDT risk better than those in HSA solution or in human fresh plasma with regard to the separation of the safe drugs from the warning drugs or the withdrawn drugs. In KPB, whereas the half-lives in the safe category were 7.2 h or longer, those in the withdrawn category were 1.7 h or shorter. The classification value of the half-life in KPB, which separated the safe drugs from the withdrawn drugs was calculated to be 3.6 h by regression analysis. In conclusion, this is the first report that clearly shows the relationship between the IDT risk and chemical stability of AGs in several in vitro systems. The KPB system was considered to be the best for evaluating the stability of AGs, and the classification value of the half-life in KPB serves as a useful key predictor for the IDT risk.
Attempts were made to reduce the lipophilicity of previously synthesized compound (II) for the avoidance of hepatotoxicity. The replacement of the left-hand side benzene with 2-pyridine resulted in the substantial loss of potency. Because poor membrane permeability was responsible for poor potency in vitro, the adjustment of lipophilicity was examined, which resulted in the discovery of dimethyl pyridine derivative (I, DS-6930). In preclinical studies, DS-6930 demonstrated high PPARγ agonist potency with robust plasma glucose reduction. DS-6930 maintained diminished PPARγ-related adverse effects upon toxicological evaluation in vivo, and demonstrated no hepatotoxicity. Cofactor recruitment assay showed that several cofactors, such as RIP140 and PGC1, were significantly recruited, whereas several canonical factors was not affected. This selective cofactor recruitment was caused due to the distinct binding mode of DS-6930. The calcium salt, DS-6930b, which is expected to be an effective inducer of insulin sensitization without edema, could be evaluated clinically in T2DM patients.
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