Precision Therapy for Aggressive Endometrial Cancer by Reactivation of Protein Phosphatase 2A

Abstract

Critically important to reducing uterine cancer mortality is the development of more effective therapy for aggressive endometrial cancers, including uterine serous cancer and uterine carcinosarcoma, which together account for over half of deaths due to endometrial cancer. About one-third of these aggressive endometrial cancers harbor mutations in the protein phosphatase 2A (PP2A) Aα scaffold subunit encoded by PPP2R1A In this issue, the study by Taylor and colleagues elucidates the role of a highly recurrent PP2A-Aα-subunit mutation PPP2R1A P179R as a biological driver of aggressive endometrial cancer. Compelling data demonstrate that the P179R mutation alters PP2A-Aα protein conformation, impairing holoenzyme formation and reducing PP2A phosphatase activity to promote endometrial cancer progression. Restoration of wild-type PPP2R1A in P179R-mutant endometrial cancer cells increases phosphatase activity and inhibits tumor growth in vivo Furthermore, a small-molecule activator of PP2A (SMAP) phenocopies restoration of wild-type PPP2R1A to suppress tumor growth. These promising results are an important advance toward effective precision therapy for aggressive endometrial cancer.See related article by Taylor et al., p. 4242.