Nowadays, the simultaneous inhibition of two or more pathways plays an increasingly important role in cancer treatment due to the complex and diverse pathogenesis of cancer, and the combination of the cyclin-dependent kinase 6 (CDK6) inhibitor and PIM1 inhibitor was found to generate synergistic effects in acute myeloid leukemia (AML) treatment. Therefore, we discovered a novel lead 1 targeting CDK6/PIM1 via pharmacophore-based and structure-based virtual screening, synthesized five different series of new derivates, and obtained a potent and balanced dual CDK6/PIM1 inhibitor 51, which showed high kinase selectivity. Meanwhile, 51 displayed an excellent safety profile and great pharmacokinetic properties. Furthermore, 51 displayed stronger potency in reducing the burden of AML than palbociclib and SMI-4a in vivo. In summary, we offered a new direction for AML treatment and provided a great lead compound for AML preclinical studies.Article pubs.acs.org/jmc
Breast cancer is the most common tumor in women, and selective cyclin-dependent kinase (CDK) 4/6 inhibitors played an important role in the treatment of breast cancer. Therefore, discovering selective CDK4/6 inhibitors with great safety and potent efficacy is beneficial for the breast cancer treatment. In our work, the lead compound 8 was identified through virtual screening; then, systematic structural optimization was conducted to afford 42, which exhibited strong inhibition on CDK4/6 and showed high selectivity among 205 kinases. 42 possessed excellent safety profiles (LD 50 > 5,000 mg/kg), favorable pharmacokinetic properties (F % = 43%), and potent efficacy in reducing the burden of breast cancer in vivo. In conclusion, we offered a highly selective CDK4/6 inhibitor, which could be used as a great candidate for further preclinical studies of breast cancer.
Osimertinib resistance is an unmet clinical need for
the treatment
of non-small cell lung cancer (NSCLC), and the main mechanism is tertiary
C797S mutation of epidermal growth factor receptor (EGFR). To date,
there is no inhibitor approved for the treatment of Osimertinib-resistant
NSCLC. Herein, we reported a series of Osimertinib derivatives as
fourth-generation inhibitors which were rationally designed. Top candidate D51 potently inhibited the EGFRL858R/T790M/C797S mutant with an IC50 value of 14 nM and suppressed the
proliferation of H1975-TM cells with an IC50 value of 14
nM, which show over 500-fold selectivity against wild-type forms.
Moreover, D51 inhibited the EGFRdel19/T790M/C797S mutant and the proliferation of the PC9-TM cell line with IC50 values of 62 and 82 nM. D51 also exhibited
favorable in vivo druggability, including PK parameters, safety properties,
in vivo stability, and antitumor activity.
Prostate cancer (PCa) is a common male cancer with high incidence and mortality, and hormonal therapy as the major treatment for PCa patients is troubled by the inevitable resistance that makes us identify novel targets for PCa. Dualspecificity tyrosine phosphorylation-regulated kinase 2 (DYRK2) was found to be an effective target for the treatment of PCa, but the research on its inhibitors is rather little. In this work, a potent DYRK2 inhibitor 43 (IC 50 = 0.6 nM) was acquired through virtual screening and structural optimization, which displayed high selectivity among 205 kinases; meanwhile, detailed interactions of 43 with DYRK2 were illustrated by the cocrystal. Furthermore, 43 possessed great water solubility (29.5 mg/mL), favorable safety properties (LD 50 > 10,000 mg/kg), and potent anti-PCa activities, which could be used as a potential candidate in further preclinical studies.
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