Litcius/Paper detail

Rationally designed BCR-ABL kinase inhibitors for improved leukemia treatment via covalent and pro-/dual-drug targeting strategies

Jie Sun, Liang Lou, Chengjun Zhu, Peng Chen, Guanghui Tang, Mingxi Gu, Shu Xia, Xiao Dong, Zhimin Zhang, Liqian Gao, Shao Q. Yao, Qicai Xiao

2024Journal of Advanced Research9 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Chronic Myeloid Leukemia (CML) is a blood cancer that remains challenging to cure due to drug resistance and side effects from current BCR-ABL inhibitors. There is an urgent need for novel and more effective BCR-ABL targeting inhibitors and therapeutic strategies to combat this deadly disease. METHOD: We disclose an "OH-implant" strategy to improve a noncovalent BCR-ABL inhibitor, PPY-A, by adding a hydroxyl group to its scaffold. By taking advantage of this OH "hot spot", we designed a panel of irreversible covalent kinase inhibitors and hypoxia-responsive pro-/dual-drugs, and their biological activities were studied in vitro, in cellulo and in vivo. RESULT: The resulting compound B1 showed enhanced solubility and biological activity. B4 achieved sustained BCR-ABL inhibition by forming a stable covalent bond with ABL kinase. Hypoxia-responsive prodrug P1 and dual-drugs D1/D2/D3 demonstrated significant anti-tumor effects under hypoxic conditions. The in vivo studies using K562-xenografted mice showed that B1 displayed superior antitumor activity than PPY-A, while P1 and D3 offered better safety profiles alongside significant tumor control. CONCLUSION: We have successfully developed a chemical biology approach to convert a known noncovalent BCR-ABL inhibitor into more potent and safer inhibitors through covalent and pro-/dual-drug targeting strategies. Our "OH-implant" approach and the resulting drug design strategies have general applicability and hold promise for improvement the performance of various other reported drugs/drug candidates, thereby providing advanced medicines for disease treatment.

Topics & Concepts

Myeloid leukemiaDrugMedicineCancer researchLeukemiaDrug resistanceImatinibbreakpoint cluster regionNilotinibPharmacologyImmunologyBiologyInternal medicineReceptorMicrobiologyChronic Myeloid Leukemia TreatmentsProtein Degradation and InhibitorsHistone Deacetylase Inhibitors Research