Journal
NATURE MEDICINE
Volume 21, Issue 1, Pages 71-75Publisher
NATURE PUBLISHING GROUP
DOI: 10.1038/nm.3751
Keywords
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Funding
- Aplastic Anemia and MDS International Foundation
- Edwards P. Evans Foundation
- Max-Eder Program of the Deutsche Krebshilfe [110659]
- Leukemia and Lymphoma Society
- US National Institutes of Health NCI [1R01CA183947, 5R00CA151457]
- V Foundation for Cancer Research
- Gabrielle's Angel Foundation
- Claudia Adams Barr Fund
- American Cancer Society Research Scholar Grant
- Stand Up To Cancer Innovative Research Grant
- American Society of Hematology Scholar Award
- NATIONAL CANCER INSTITUTE [R00CA151457, R01CA183974, R01CA178397, K08CA181340, F30CA186477] Funding Source: NIH RePORTER
- NATIONAL INSTITUTE OF GENERAL MEDICAL SCIENCES [T32GM071338] Funding Source: NIH RePORTER
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Activating mutations in genes encoding G protein alpha (G alpha) subunits occur in 4-5% of all human cancers(1), but oncogenic alterations in G beta subunits have not been defined. Here we demonstrate that recurrent mutations in the G beta proteins GNB1 and GNB2 confer cytokine-independent growth and activate canonical G protein signaling. Multiple mutations in GNB1 affect the protein interface that binds G alpha subunits as well as downstream effectors and disrupt G alpha interactions with the dimer G beta gamma Different mutations in G beta proteins clustered partly on the basis of lineage; for example, all 11 GNB1 K57 mutations were in myeloid neoplasms, and seven of eight GNB1 180 mutations were in B cell neoplasms. Expression of patient-derived GNB1 variants in Cdkn2a-deficient mouse bone marrow followed by transplantation resulted in either myeloid or B cell malignancies. In vivo treatment with the dual PI3K-mTOR inhibitor BEZ235 suppressed GNB1-induced signaling and markedly increased survival. In several human tumors, mutations in the gene encoding GNB1 co-occurred with oncogenic kinase alterations, including the BCR-ABL fusion protein, the V617F substitution in JAK2 and the V600K substitution in BRAF. Coexpression of patient-derived GNB1 variants with these mutant kinases resulted in inhibitor resistance in each context. Thus, GNB1 and GNB2 alterations confer transformed and resistance phenotypes across a range of human tumors and may be targetable with inhibitors of G protein signaling.
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