posted on 2020-03-11, 14:50authored byEman M.
E. Dokla, Chun-Sheng Fang, Po-Chen Chu, Chih-Shiang Chang, Khaled A. M. Abouzid, Ching S. Chen
Recent
evidence has linked the dysregulation of the Hippo pathway
to tumorigenesis and cancer progression due to its pivotal role in
regulating the stability of the oncoprotein YAP. Based on an unexpected
finding from the SAR study of a recently reported oxadiazole-based
EGFR/c-Met dual inhibitor (compound 1), we identified
a closely related derivative, compound 2, which exhibited
cogent antitumor activities while devoid of compound 1’s ability to promote EGFR/c-Met degradation. Compound 2 acted, in part, by facilitating YAP degradation through
activation of its upstream kinase LATS1. However, it did not alter
the phosphorylation status of MST1/2, a LATS1 kinase, suggesting an
alternative mechanism for LATS1 activation. Orally administered compound 2 was effective in suppressing MDA-MB-231 xenograft tumor
growth while exhibiting a satisfactory safety profile. From a therapeutic
perspective, compound 2 might help foster new therapeutic
strategies for cancer treatment by restoring the Hippo pathway regulatory
function to facilitate YAP degradation.