| Literature DB >> 25701252 |
Wendy B Young1, James Barbosa2, Peter Blomgren2, Meire C Bremer1, James J Crawford1, Donna Dambach1, Steve Gallion3, Sarah G Hymowitz1, Jeffrey E Kropf2, Seung H Lee2, Lichuan Liu1, Joseph W Lubach1, Jen Macaluso2, Pat Maciejewski2, Brigitte Maurer1, Scott A Mitchell2, Daniel F Ortwine1, Julie Di Paolo2, Karin Reif1, Heleen Scheerens1, Aaron Schmitt2, C Gregory Sowell1, Xiaojing Wang1, Harvey Wong1, Jin-Ming Xiong2, Jianjun Xu2, Zhongdong Zhao2, Kevin S Currie2.
Abstract
SAR studies focused on improving the pharmacokinetic (PK) properties of the previously reported potent and selective Btk inhibitor CGI-1746 (1) resulted in the clinical candidate GDC-0834 (2), which retained the potency and selectivity of CGI-1746, but with much improved PK in preclinical animal models. Structure based design efforts drove this work as modifications to 1 were investigated at both the solvent exposed region as well as 'H3 binding pocket'. However, in vitro metabolic evaluation of 2 revealed a non CYP-mediated metabolic process that was more prevalent in human than preclinical species (mouse, rat, dog, cyno), leading to a high-level of uncertainly in predicting human pharmacokinetics. Due to its promising potency, selectivity, and preclinical efficacy, a single dose IND was filed and 2 was taken in to a single dose phase I trial in healthy volunteers to quickly evaluate the human pharmacokinetics. In human, 2 was found to be highly labile at the exo-cyclic amide bond that links the tetrahydrobenzothiophene moiety to the central aniline ring, resulting in insufficient parent drug exposure. This information informed the back-up program and discovery of improved inhibitors.Entities:
Keywords: Amide hydrolysis; Bruton’s tyrosine kinase; Btk; GDC-0834; Kinase inhibitor; Rheumatoid arthritis; Single dose IND
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Year: 2015 PMID: 25701252 DOI: 10.1016/j.bmcl.2015.01.032
Source DB: PubMed Journal: Bioorg Med Chem Lett ISSN: 0960-894X Impact factor: 2.823