Characterization and Preclinical Evaluation of AS-1763, an Oral, Potent and Selective Noncovalent BTK Inhibitor, in Chronic Lymphocytic Leukemia

Background: Covalent Bruton's tyrosine kinase (BTK) inhibitors (cBTKi) have transformed treatment landscape of chronic lymphocytic leukemia (CLL). These inhibitors bind to C481 residue in the kinase domain of BTK. This is also the site for the most common mutations rendering cells resistant to...

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Published in:Blood 2023-11, Vol.142 (Supplement 1), p.1453-1453
Main Authors: Tantawy, Shady I., Timofeeva, Natalia, Fujiwara, Hitomi, Hatakeyama, Mariko, Herrera, Breana, Loza, Lizbeth, Asami, Tokiko, Ohmoto, Hiroshi, Miyamoto, Kyoko, Nishioka, Yu, Arimura, Akinori, Sawa, Masaaki, Jain, Nitin, Gandhi, Varsha
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Language:English
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Summary:Background: Covalent Bruton's tyrosine kinase (BTK) inhibitors (cBTKi) have transformed treatment landscape of chronic lymphocytic leukemia (CLL). These inhibitors bind to C481 residue in the kinase domain of BTK. This is also the site for the most common mutations rendering cells resistant to cBTKi. To circumvent this limitation of the cBTKi, non-covalent BTKi (ncBTKi) such as pirtobrutinib have been developed. Recently, non-C481 BTK mutations have been reported in patients with CLL at the time of disease progression during pirtobrutinib treatment. These observations underscore the need for ncBTKi that can target C481 as well as non-C481 mutations of BTK. AS-1763 is a potent, highly selective, orally available, and ncBTKi, equipotent against both wild-type and C481S-mutated BTK when tested in biochemical assays. In vivo, AS-1763 demonstrated significant antitumor effects in OCI-LY10 tumor xenograft models harboring wild-type or C481S mutant BTK (Kawahata et al. J Med Chem 64:14129, 2021). Study Design and Methods: In the present project, first we used cell free assay systems to evaluate selectivity and potency of AS-1763 by a kinome-wide profiling and inhibitory effect of AS-1763 in enzyme assays using recombinant mutant BTK. Second, we examined dose- and time-dependent inhibition of mutant BTK that is expressed in HEK293 cell line. Third, we tested biological, biochemical, and molecular impact of AS-1763 in primary CLL cells. Fourth, we determined sensitivity of CLL cells to AS-1763 when combined with other targeted agents. Results: AS-1763 showed a highly selective profile for BTK in a panel of 291 kinase assays with >260-fold selectivity except 3 Tec family kinases (BMX, ITK, and TEC). We have generated a total of 17 recombinant BTK mutant proteins (C481, T474, L528 variants and other BTK mutants; Table 1) reported in the literature or predicted by single nucleotide change in the codon, and established assay methods to measure inhibitory potency of BTKi for those BTK mutants (Table 1). AS-1763 showed potent inhibitory activities for those BTK mutants while inhibitory potencies of other cBTKi and ncBTKi were diminished against some BTK mutants such as T474 and/or L528 mutations. AS-1763 exhibited dose-dependent and slow-off rate inhibitions of BTK autophosphorylation (pY223) in HEK293 cells transfected with various BTK mutants. Furthermore, the observed inhibitory effects of AS-1763 on the BTK autophosphorylation (pY223) in HEK293 cells were continued u
ISSN:0006-4971
1528-0020
DOI:10.1182/blood-2023-189659