posted on 2022-02-22, 19:00authored byJifeng Qi, Weihua Wang, Yongmei Tang, Shengying Lou, Jiaer Wang, Tao Yuan, Qiaojun He, Bo Yang, Hong Zhu, Sunliang Cui
PI3Kδ inhibitors have been
developed for treatment of B-cell
malignancies and inflammatory and autoimmune diseases. However, their
therapeutic role in solid tumors like hepatocellular carcinoma (HCC)
is rarely reported. Thus, the development of potent and selective
PI3Kδ inhibitors with a new chemotype and therapy is highly
desirable. Through the scaffold-hopping strategy, indazole was first
described as the core structure of propeller-shaped PI3Kδ inhibitors.
A total of 26 indazole derivatives were designed and prepared to identify
a novel compound 9x with good isoform selectivity, PK
profile, and potency. Compared to Idelalisib and Sorafenib, the pharmacodynamic
(PD) studies showed that 9x exhibits superior efficacy
in HCC cell lines and xenograft models, and the mechanistic study
showed that 9x robustly suppresses the downstream AKT
pathway to induce subsequent apoptotic cell death in HCC models. Therefore,
this work provides a new structural design of PI3Kδ inhibitors
for a novel and efficient therapeutic small molecule toward HCC.