TY - JOUR
T1 - Small-Molecule–Mediated Stabilization of PP2A Modulates the Homologous Recombination Pathway and Potentiates DNA Damage-Induced Cell Death
AU - Avelar, Rita A.
AU - Armstrong, Amy J.
AU - Carvette, Gracie
AU - Gupta, Riya
AU - Puleo, Noah
AU - Colina, Jose A.
AU - Joseph, Peronne
AU - Sobeck, Alexander M.
AU - O’Connor, Caitlin M.
AU - Raines, Brynne
AU - Gandhi, Agharnan
AU - Dziubinski, Michele L.
AU - Ma, Daniel S.
AU - Resnick, Kimberly
AU - Singh, Sareena
AU - Zanotti, Kristine
AU - Nagel, Christa
AU - Waggoner, Steven
AU - Thomas, Daffyd G.
AU - Skala, Stephanie L.
AU - Zhang, Junran
AU - Narla, Goutham
AU - DiFeo, Analisa
N1 - Publisher Copyright:
c 2023 The Authors; Published by the American Association for Cancer Research.
PY - 2023/5/1
Y1 - 2023/5/1
N2 - High-grade serous carcinoma (HGSC) is the most common and lethal ovarian cancer subtype. PARP inhibitors (PARPi) have become the mainstay of HGSC-targeted therapy, given that these tumors are driven by a high degree of genomic instability (GI) and homologous recombination (HR) defects. Nonetheless, approximately 30% of patients initially respond to treatment, ultimately relapsing with resistant disease. Thus, despite recent advances in drug development and an increased understanding of genetic alterations driving HGSC progression, mortality has not declined, highlighting the need for novel therapies. Using a small-molecule activator of protein phosphatase 2A (PP2A; SMAP-061), we investigated the mechanism by which PP2A stabilization induces apoptosis in patient-derived HGSC cells and xenograft (PDX) models alone or in combination with PARPi. We uncovered that PP2A genes essential for cellular transformation (B56a, B56g, and PR72) and basal phosphatase activity (PP2A-A and -C) are heterozygously lost in the majority of HGSC. Moreover, loss of these PP2A genes correlates with worse overall patient survival. We show that SMAP-061–induced stabilization of PP2A inhibits the HR output by targeting RAD51, leading to chronic accumulation of DNA damage and ultimately apoptosis. Furthermore, combination of SMAP-061 and PARPi leads to enhanced apoptosis in both HR-proficient and HR-deficient HGSC cells and PDX models. Our studies identify PP2A as a novel regulator of HR and indicate PP2A modulators as a therapeutic therapy for HGSC. In summary, our findings further emphasize the potential of PP2A modulators to overcome PARPi insensitivity, given that targeting RAD51 presents benefits in overcoming PARPi resistance driven by BRCA1/2 mutation reversions.
AB - High-grade serous carcinoma (HGSC) is the most common and lethal ovarian cancer subtype. PARP inhibitors (PARPi) have become the mainstay of HGSC-targeted therapy, given that these tumors are driven by a high degree of genomic instability (GI) and homologous recombination (HR) defects. Nonetheless, approximately 30% of patients initially respond to treatment, ultimately relapsing with resistant disease. Thus, despite recent advances in drug development and an increased understanding of genetic alterations driving HGSC progression, mortality has not declined, highlighting the need for novel therapies. Using a small-molecule activator of protein phosphatase 2A (PP2A; SMAP-061), we investigated the mechanism by which PP2A stabilization induces apoptosis in patient-derived HGSC cells and xenograft (PDX) models alone or in combination with PARPi. We uncovered that PP2A genes essential for cellular transformation (B56a, B56g, and PR72) and basal phosphatase activity (PP2A-A and -C) are heterozygously lost in the majority of HGSC. Moreover, loss of these PP2A genes correlates with worse overall patient survival. We show that SMAP-061–induced stabilization of PP2A inhibits the HR output by targeting RAD51, leading to chronic accumulation of DNA damage and ultimately apoptosis. Furthermore, combination of SMAP-061 and PARPi leads to enhanced apoptosis in both HR-proficient and HR-deficient HGSC cells and PDX models. Our studies identify PP2A as a novel regulator of HR and indicate PP2A modulators as a therapeutic therapy for HGSC. In summary, our findings further emphasize the potential of PP2A modulators to overcome PARPi insensitivity, given that targeting RAD51 presents benefits in overcoming PARPi resistance driven by BRCA1/2 mutation reversions.
UR - http://www.scopus.com/inward/record.url?scp=85159548427&partnerID=8YFLogxK
U2 - 10.1158/1535-7163.MCT-21-0880
DO - 10.1158/1535-7163.MCT-21-0880
M3 - Article
C2 - 36788429
AN - SCOPUS:85159548427
SN - 1535-7163
VL - 22
SP - 599
EP - 615
JO - Molecular Cancer Therapeutics
JF - Molecular Cancer Therapeutics
IS - 5
ER -