Germline mutations in PPP2R1B in patients with a personal and family history of cancer
Sahar Mazhar, Caitlin M. O’Connor, Alexis Harold, Amanda C. Dowdican, Peter J. Ulintz, Erika N. Hanson, Yuping Zhang, Michelle F. Jacobs, Sofia D. Merajver, Mark W. Jackson, Anthony Scott, Anieta M. Sieuwerts, Arul M. Chinnaiyan, Goutham Narla
Sahar Mazhar, Caitlin M. O’Connor, Alexis Harold, Amanda C. Dowdican, Peter J. Ulintz, Erika N. Hanson, Yuping Zhang, Michelle F. Jacobs, Sofia D. Merajver, Mark W. Jackson, Anthony Scott, Anieta M. Sieuwerts, Arul M. Chinnaiyan, Goutham Narla
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Research Article Genetics Oncology

Germline mutations in PPP2R1B in patients with a personal and family history of cancer

Abstract

An estimated 5%–10% of cancer results from an underlying genetic predisposition. For the majority of familial cases, the genes in question remain unknown, suggesting a critical need to identify new cancer predisposition genes. Members of the protein phosphatase 2A (PP2A) family exist as trimeric holoenzymes and are vital negative regulators of multiple oncogenic pathways. PP2A inhibition by somatic mutation, loss of expression, and upregulation of its exogenous inhibitors in tumors has been well described. However, it remains unknown whether germline loss of any PP2A subunits results in a predisposition to cancer in humans. In this study, we identified 9 cancer patients with germline loss-of-function (LOF) variants in PPP2R1B (Aβ), the β isoform of the PP2A scaffold subunit. All 4 patients for whom documentation was available also had a family history of cancer, including multiple indicators of hereditary cancer. Overexpression of these mutant forms of Aβ resulted in truncated proteins that were rapidly turned over. Characterization of an additional missense germline Aβ variant, R233C, which is also recurrently mutated at the somatic level, showed disruption of PP2A catalytic subunit binding, resulting in loss of phosphatase activity. An analysis of Aβ expression among multiple breast cancer cohorts (the most highly represented cancer among the Aβ germline patients) revealed that somatic, heterozygous loss of Aβ was a frequent event in this disease, and decreased Aβ expression correlated with shorter disease-free and overall survival. Furthermore, Aβ levels were significantly lower in multiple histological subtypes of both in situ and malignant breast cancer compared with adjacent normal breast tissue, suggesting that Aβ loss is an early event in breast cancer development. Together, these results highlight a role for Aβ as a predisposition gene in breast cancer and potentially additional cancers.

Authors

Sahar Mazhar, Caitlin M. O’Connor, Alexis Harold, Amanda C. Dowdican, Peter J. Ulintz, Erika N. Hanson, Yuping Zhang, Michelle F. Jacobs, Sofia D. Merajver, Mark W. Jackson, Anthony Scott, Anieta M. Sieuwerts, Arul M. Chinnaiyan, Goutham Narla

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Figure 3

The recurrent Aβ somatic mutation R233C/H/L was discovered in the germline of a patient with breast cancer and causes loss of holoenzyme assembly.

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The recurrent Aβ somatic mutation R233C/H/L was discovered in the germli...
(A) Representation of all somatic mutations in Aβ reported from over 100,000 patients across 226 studies in the cBioPortal database. Somatic missense mutations at R233 are reported in 7 patients in cBioPortal and in 1 patient at the germline in the MI-ONCOSEQ cohort. (B and C) Western blots for whole-cell lysates from tHMECs and MCF7 cells overexpressing V5-tagged control LacZ, wild-type Aβ, and Aβ-R233C mutant. (D and E) Phosphatase activity assays against V5 Co-IP from wild-type or R233C Aβ–expressing (D) tHMECs and (E) MCF7 cells. Okadaic acid (OA) is a catalytic inhibitor of PP2Ac and was used as a negative control. Experiments were conducted 3 times. (F and G) Co-IP immunoblots for PP2Ac catalytic subunit bound to wild-type or R233C forms of Aβ in (F) tHMECs or (G) MCF7 cells. (H and I) CoIP immunoblots for B regulatory subunits bound to wild-type or R233C forms of Aβ in (H) tHMECs or (I) MCF7 cells. Data are representative of 3 experiments.