Comprehensive RAD51C ovarian cancer variant analysis uncouples homologous recombination and replicative functions

Hayley L. Rein; Yashpal Rawal; Anna L. Palovcak-Lightbourn; Gayatri S. Ganesan; Phoebe S. Parker; Reagan Russell; Kristie E. Darrah; Mohammad Afsar; Meghan R. Sullivan; Sarah R. Hengel; Marc R. Radke; Patricia L. Opresko; Judith L. Yanowitz; Eric C. Greene; Jung Min Lee; Susan M. Domchek; Elizabeth M. Swisher; Shaun K. Olsen; Patrick Sung; Kara A. Bernstein

doi:10.1038/s41467-025-61283-2

Comprehensive RAD51C ovarian cancer variant analysis uncouples homologous recombination and replicative functions

Hayley L. Rein
, Yashpal Rawal
, Anna L. Palovcak-Lightbourn
, Gayatri S. Ganesan
, Phoebe S. Parker
, Reagan Russell
, Kristie E. Darrah
, Mohammad Afsar
, Meghan R. Sullivan
, Sarah R. Hengel
, Marc R. Radke
, Patricia L. Opresko
, Judith L. Yanowitz
, Eric C. Greene
, Jung Min Lee
, Susan M. Domchek
, Elizabeth M. Swisher
, Shaun K. Olsen
, Patrick Sung
, Kara A. Bernstein

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

RAD51C is a tumor suppressor gene with over 285 variants of unknown significance (VUS) found in primary ovarian tumors. RAD51C is a paralog of the recombinase RAD51, and it forms complexes with other paralogs to regulate RAD51 activity. We screened 27 ovarian cancer-derived RAD51C VUS to identify those that affect the assembly of functional tetrameric RAD51B-C-D-XRCC2 (BCDX2) complex. With yeast 3-hybrid and biochemical analyses, we identify a mutation cluster of the RAD51C Walker B region affecting protein interactions with other RAD51 paralogs. By further analyzing these variants for homologous recombination (HR), replication fork regression, DNA binding and ATPase activity, and RAD51 filament formation, we identified separation-of-function alleles that uncouple RAD51C distinct enzymatic activities with HR and replication. Thus, our analysis of RAD51C identifies additional VUS with functional defects, which will aid in pathogenicity classification and inform future strategies to treat individuals harboring RAD51C loss-of-function alleles.

Original language	English (US)
Article number	6539
Journal	Nature communications
Volume	16
Issue number	1
DOIs	https://doi.org/10.1038/s41467-025-61283-2
State	Published - Dec 2025

ASJC Scopus subject areas

General Chemistry
General Biochemistry, Genetics and Molecular Biology
General Physics and Astronomy

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Rein, H. L., Rawal, Y., Palovcak-Lightbourn, A. L., Ganesan, G. S., Parker, P. S., Russell, R., Darrah, K. E., Afsar, M., Sullivan, M. R., Hengel, S. R., Radke, M. R., Opresko, P. L., Yanowitz, J. L., Greene, E. C., Lee, J. M., Domchek, S. M., Swisher, E. M., Olsen, S. K., Sung, P., & Bernstein, K. A. (2025). Comprehensive RAD51C ovarian cancer variant analysis uncouples homologous recombination and replicative functions. Nature communications, 16(1), Article 6539. https://doi.org/10.1038/s41467-025-61283-2

Rein, HL, Rawal, Y, Palovcak-Lightbourn, AL, Ganesan, GS, Parker, PS, Russell, R, Darrah, KE, Afsar, M, Sullivan, MR, Hengel, SR, Radke, MR, Opresko, PL, Yanowitz, JL, Greene, EC, Lee, JM, Domchek, SM, Swisher, EM, Olsen, SK , Sung, P & Bernstein, KA 2025, 'Comprehensive RAD51C ovarian cancer variant analysis uncouples homologous recombination and replicative functions', Nature communications, vol. 16, no. 1, 6539. https://doi.org/10.1038/s41467-025-61283-2

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title = "Comprehensive RAD51C ovarian cancer variant analysis uncouples homologous recombination and replicative functions",

abstract = "RAD51C is a tumor suppressor gene with over 285 variants of unknown significance (VUS) found in primary ovarian tumors. RAD51C is a paralog of the recombinase RAD51, and it forms complexes with other paralogs to regulate RAD51 activity. We screened 27 ovarian cancer-derived RAD51C VUS to identify those that affect the assembly of functional tetrameric RAD51B-C-D-XRCC2 (BCDX2) complex. With yeast 3-hybrid and biochemical analyses, we identify a mutation cluster of the RAD51C Walker B region affecting protein interactions with other RAD51 paralogs. By further analyzing these variants for homologous recombination (HR), replication fork regression, DNA binding and ATPase activity, and RAD51 filament formation, we identified separation-of-function alleles that uncouple RAD51C distinct enzymatic activities with HR and replication. Thus, our analysis of RAD51C identifies additional VUS with functional defects, which will aid in pathogenicity classification and inform future strategies to treat individuals harboring RAD51C loss-of-function alleles.",

author = "Rein, \{Hayley L.\} and Yashpal Rawal and Palovcak-Lightbourn, \{Anna L.\} and Ganesan, \{Gayatri S.\} and Parker, \{Phoebe S.\} and Reagan Russell and Darrah, \{Kristie E.\} and Mohammad Afsar and Sullivan, \{Meghan R.\} and Hengel, \{Sarah R.\} and Radke, \{Marc R.\} and Opresko, \{Patricia L.\} and Yanowitz, \{Judith L.\} and Greene, \{Eric C.\} and Lee, \{Jung Min\} and Domchek, \{Susan M.\} and Swisher, \{Elizabeth M.\} and Olsen, \{Shaun K.\} and Patrick Sung and Bernstein, \{Kara A.\}",

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year = "2025",

month = dec,

doi = "10.1038/s41467-025-61283-2",

language = "English (US)",

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journal = "Nature communications",

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AU - Rein, Hayley L.

AU - Rawal, Yashpal

AU - Palovcak-Lightbourn, Anna L.

AU - Ganesan, Gayatri S.

AU - Parker, Phoebe S.

AU - Russell, Reagan

AU - Darrah, Kristie E.

AU - Afsar, Mohammad

AU - Sullivan, Meghan R.

AU - Hengel, Sarah R.

AU - Radke, Marc R.

AU - Opresko, Patricia L.

AU - Yanowitz, Judith L.

AU - Greene, Eric C.

AU - Lee, Jung Min

AU - Domchek, Susan M.

AU - Swisher, Elizabeth M.

AU - Olsen, Shaun K.

AU - Sung, Patrick

AU - Bernstein, Kara A.

PY - 2025/12

Y1 - 2025/12

N2 - RAD51C is a tumor suppressor gene with over 285 variants of unknown significance (VUS) found in primary ovarian tumors. RAD51C is a paralog of the recombinase RAD51, and it forms complexes with other paralogs to regulate RAD51 activity. We screened 27 ovarian cancer-derived RAD51C VUS to identify those that affect the assembly of functional tetrameric RAD51B-C-D-XRCC2 (BCDX2) complex. With yeast 3-hybrid and biochemical analyses, we identify a mutation cluster of the RAD51C Walker B region affecting protein interactions with other RAD51 paralogs. By further analyzing these variants for homologous recombination (HR), replication fork regression, DNA binding and ATPase activity, and RAD51 filament formation, we identified separation-of-function alleles that uncouple RAD51C distinct enzymatic activities with HR and replication. Thus, our analysis of RAD51C identifies additional VUS with functional defects, which will aid in pathogenicity classification and inform future strategies to treat individuals harboring RAD51C loss-of-function alleles.

AB - RAD51C is a tumor suppressor gene with over 285 variants of unknown significance (VUS) found in primary ovarian tumors. RAD51C is a paralog of the recombinase RAD51, and it forms complexes with other paralogs to regulate RAD51 activity. We screened 27 ovarian cancer-derived RAD51C VUS to identify those that affect the assembly of functional tetrameric RAD51B-C-D-XRCC2 (BCDX2) complex. With yeast 3-hybrid and biochemical analyses, we identify a mutation cluster of the RAD51C Walker B region affecting protein interactions with other RAD51 paralogs. By further analyzing these variants for homologous recombination (HR), replication fork regression, DNA binding and ATPase activity, and RAD51 filament formation, we identified separation-of-function alleles that uncouple RAD51C distinct enzymatic activities with HR and replication. Thus, our analysis of RAD51C identifies additional VUS with functional defects, which will aid in pathogenicity classification and inform future strategies to treat individuals harboring RAD51C loss-of-function alleles.

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Comprehensive RAD51C ovarian cancer variant analysis uncouples homologous recombination and replicative functions

Abstract

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