TY - JOUR
T1 - A Proteomic Approach Identifies Isoform-Specific and Nucleotide-Dependent RAS Interactions
AU - Miller, Seth P.
AU - Maio, George
AU - Zhang, Xiaoyu
AU - Badillo Soto, Felix S.
AU - Zhu, Julia
AU - Ramirez, Stephen Z.
AU - Lin, Hening
N1 - Funding Information:
Acknowledgments—This work is supported in part by a grant (1R01GM121540-01A1) from NIH. We thank Prof. Maurine Linder at Cornell University for providing HRAS, NRAS, KRAS4B, and CDC42 plasmids and Dr Nicole Spie-gelman for providing the RAC1 plasmid. We thank Dr Sheng Zhang and Dr Ievgen Motorykin at the Proteomic and MS Facility of Cornell University for help with the SILAC experiments. The Orbitrap Fusion mass spectrometer is supported by NIH SIG 1S10 OD017992-01 grant. We thank Cornell University Biotechnology Resource Center (BRC) Imaging Facility for the support on the confocal microscopy, which is supported in part by NIH S10RR025502.
Funding Information:
This work is supported in part by a grant (1R01GM121540-01A1) from NIH. We thank Prof. Maurine Linder at Cornell University for providing HRAS, NRAS, KRAS4B, and CDC42 plasmids and Dr Nicole Spiegelman for providing the RAC1 plasmid. We thank Dr Sheng Zhang and Dr Ievgen Motorykin at the Proteomic and MS Facility of Cornell University for help with the SILAC experiments. The Orbitrap Fusion mass spectrometer is supported by NIH SIG 1S10 OD017992-01 grant. We thank Cornell University Biotechnology Resource Center (BRC) Imaging Facility for the support on the confocal microscopy, which is supported in part by NIH S10RR025502.
Publisher Copyright:
© 2022 THE AUTHORS. Published by Elsevier Inc on behalf of American Society for Biochemistry and Molecular Biology.
PY - 2022/8
Y1 - 2022/8
N2 - Active mutations in the RAS genes are found in ~30% of human cancers. Although thought to have overlapping functions, RAS isoforms show preferential activation in human tumors, which prompted us to employ a comparative and quantitative proteomics approach to generate isoform-specific and nucleotide-dependent interactomes of the four RAS isoforms, KRAS4A, KRAS4B, HRAS, and NRAS. Many isoform-specific interacting proteins were identified, including HRAS-specific CARM1 and CHK1 and KRAS-specific PIP4K2C and IPO7. Comparing the interactomes of WT and constitutively active G12D mutant of RAS isoforms, we identified several potential previously unknown effector proteins of RAS, one of which was recently reported while this article was in preparation, RADIL. These interacting proteins play important roles as knockdown or pharmacological inhibition leads to potent inhibition of cancer cells. The HRAS-specific interacting protein CARM1 plays a role in HRAS-induced senescence, with CARM1 knockdown or inhibition selectively increasing senescence in HRAS-transformed cells but not in KRAS4B-transformed cells. By revealing new isoform-specific and nucleotide-dependent RAS interactors, the study here provides insights to help understand the overlapping functions of the RAS isoforms.
AB - Active mutations in the RAS genes are found in ~30% of human cancers. Although thought to have overlapping functions, RAS isoforms show preferential activation in human tumors, which prompted us to employ a comparative and quantitative proteomics approach to generate isoform-specific and nucleotide-dependent interactomes of the four RAS isoforms, KRAS4A, KRAS4B, HRAS, and NRAS. Many isoform-specific interacting proteins were identified, including HRAS-specific CARM1 and CHK1 and KRAS-specific PIP4K2C and IPO7. Comparing the interactomes of WT and constitutively active G12D mutant of RAS isoforms, we identified several potential previously unknown effector proteins of RAS, one of which was recently reported while this article was in preparation, RADIL. These interacting proteins play important roles as knockdown or pharmacological inhibition leads to potent inhibition of cancer cells. The HRAS-specific interacting protein CARM1 plays a role in HRAS-induced senescence, with CARM1 knockdown or inhibition selectively increasing senescence in HRAS-transformed cells but not in KRAS4B-transformed cells. By revealing new isoform-specific and nucleotide-dependent RAS interactors, the study here provides insights to help understand the overlapping functions of the RAS isoforms.
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U2 - 10.1016/j.mcpro.2022.100268
DO - 10.1016/j.mcpro.2022.100268
M3 - Article
C2 - 35839996
AN - SCOPUS:85137134756
SN - 1535-9476
VL - 21
JO - Molecular and Cellular Proteomics
JF - Molecular and Cellular Proteomics
IS - 8
M1 - 100268
ER -