Integrating Pathogenic Variants, Polygenic Risk Score, and Family History for Prostate Cancer Risk Estimation in Men of African Ancestry

Fei Chen; Xin Sheng; Anqi Wang; Yili Xu; Raymond Hughley; Wei Xiong; Loreall Pooler; Peggy Wan; Susan M. Gundell; Godfrey Kigozi; Gertrude Nakigozi; Fred Nalugoda; Joseph Kagaayi; Grace Nalwoga Kigozi; Stephen Mugamba; Emmanuel Kyasanku; James Nkale; Vitalis Ofumbi Olwa; Alexander Lubwama; Alex Daama; Resty Nakajugo; Ben Adusei; Mohamed Jalloh; Serigne Magueye Gueye; Andrew A. Adjei; James Mensah; Pedro W. Fernandez; Akindele Olupelumi Adebiyi; J. Olufemi Ogunbiyi; Oseremen Inokhoife Aisuodionoe-Shadrach; Lindsay Petersen; Wenlong Carl Chen; Jo McBride; Jeannette T. Bensen; James L. Mohler; Jack A. Taylor; Caroline Andrews; Mbaaga Kigongo; Amanya Colline; Vicky Kiddu; Juliet Namugambe; Shallot Owamaani; Kuteesa Job; Benon Joseph Masaba; Frank Asiimwe; Proscovia Muwanga; Joy Namulondo; Florence Nagawa; Charity Kayiraba; Martin Ogwang; Ronald Okidi; David Oweka; Elio Kitara; James Obonyo; Daniel Lajul; Paul Matovu; Precious Arinda Muheki; Johnson Natumanya; Emmanuel Agaba; Emmanuel Aculokin; Amos Twongyeirwe; George Mutema; Denis Bitamazire; Eboneé N. Butler; Sue Ann Ingles; Benjamin A. Rybicki; Janet L. Stanford; Wei Zheng; Sonja I. Berndt; Stephen J. Chanock; Chad D. Huff; Joseph Lachance; Luc Multigner; Burcu F. Darst; Timothy R. Rebbeck; Laurent Brureau; Stephen Watya; David V. Conti; Christopher A. Haiman

doi:10.1016/j.eururo.2025.09.4161

Integrating Pathogenic Variants, Polygenic Risk Score, and Family History for Prostate Cancer Risk Estimation in Men of African Ancestry

Fei Chen
, Xin Sheng
, Anqi Wang
, Yili Xu
, Raymond Hughley
, Wei Xiong
, Loreall Pooler
, Peggy Wan
, Susan M. Gundell
, Godfrey Kigozi
, Gertrude Nakigozi
, Fred Nalugoda
, Joseph Kagaayi
, Grace Nalwoga Kigozi
, Stephen Mugamba
, Emmanuel Kyasanku
, James Nkale
, Vitalis Ofumbi Olwa
, Alexander Lubwama
, Alex Daama

Resty Nakajugo, Ben Adusei, Mohamed Jalloh, Serigne Magueye Gueye, Andrew A. Adjei, James Mensah, Pedro W. Fernandez, Akindele Olupelumi Adebiyi, J. Olufemi Ogunbiyi, Oseremen Inokhoife Aisuodionoe-Shadrach, Lindsay Petersen, Wenlong Carl Chen, Jo McBride, Jeannette T. Bensen, James L. Mohler, Jack A. Taylor, Caroline Andrews, Mbaaga Kigongo, Amanya Colline, Vicky Kiddu, Juliet Namugambe, Shallot Owamaani, Kuteesa Job, Benon Joseph Masaba, Frank Asiimwe, Proscovia Muwanga, Joy Namulondo, Florence Nagawa, Charity Kayiraba, Martin Ogwang, Ronald Okidi, David Oweka, Elio Kitara, James Obonyo, Daniel Lajul, Paul Matovu, Precious Arinda Muheki, Johnson Natumanya, Emmanuel Agaba, Emmanuel Aculokin, Amos Twongyeirwe, George Mutema, Denis Bitamazire, Eboneé N. Butler, Sue Ann Ingles, Benjamin A. Rybicki, Janet L. Stanford, Wei Zheng, Sonja I. Berndt, Stephen J. Chanock, Chad D. Huff, Joseph Lachance, Luc Multigner, Burcu F. Darst, Timothy R. Rebbeck, Laurent Brureau, Stephen Watya, David V. Conti, Christopher A. Haiman

Department of Surgery

University of Southern California
Harvard T.H. Chan School of Public Health
Africa Medical and Behavioural Sciences Organization
37 Military Hospital
Université Cheikh Anta Diop de Dakar
Hôpital Général de Grand Yoff
University of Ghana
Stellenbosch University
University College Hospital, Ibadan
College of Medicine, University of Ibadan
University of Abuja
Cancer Science Centre Abuja
Mediclinic Precise Southern Africa
University of the Witwatersrand
National Health Laboratory Service
Center for Proteomic and Genomic Research
University of North Carolina at Chapel Hill
Roswell Park Cancer Institute
National Institute of Environmental Health Sciences (NIEHS)
Dana-Farber Cancer Institute
Uro Care Hospital
Nikao Medical Center
Mulago Hospital
Lacor Hospital
Kisiizi Hospital
Surgipath
Hoima Regional Referral Hospital
University of North Carolina
Henry Ford Hospital
Fred Hutchinson Cancer Research Center
Vanderbilt University
National Institutes of Health
The University of Texas MD Anderson Cancer Center
Georgia Institute of Technology
University Rennes
Paris Cité University and University of the Antilles

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

Abstract

Background and objective The impact of germline pathogenic variants (PVs) in cancer predisposition genes on risk of prostate cancer (PCa) remains understudied in large populations of African ancestry. This study aims to characterize the range of genetic risk of PCa and aggressive disease phenotypes in men of African ancestry. Methods We analyzed 7176 PCa cases and 4873 controls from seven countries across North America and Africa to assess the association between PVs in 37 cancer predisposition genes and the risk of overall, aggressive, and metastatic PCa. Genes significantly associated with PCa risk were used to estimate lifetime absolute risk based on family history, polygenic risk score (PRS), and PV carrier status. Key findings and limitations PVs in ATM , BRCA2 , CHEK2 , HOXB13 , and PALB2 were presented in 4% of aggressive/metastatic PCa cases and were significantly associated with an increased risk of aggressive PCa (odds ratio 2.18–5.96, p ' 0.05). Lifetime absolute risk varied widely depending on PV carrier status, PRS, and family history, ranging from 3.0% to 74% for overall PCa, 0.6% to 41% for aggressive PCa, and 0.2% to 37% for metastatic PCa. PV carriers with a positive family history and a PRS in the 90th percentile had seven, 18, and 34 times the risks of overall, aggressive, and metastatic PCa, respectively, compared with average-risk individuals. Oversampling of aggressive cases may limit the generalizability of these findings to screening populations. Conclusions and clinical implications Integration of PV status, PRS, and family history enables more refined PCa risk estimates. The wide range of PCa risk observed among men of African ancestry in our study supports future prospective studies in the development of risk-stratified cancer screening programs to identify high-risk individuals who may benefit from screening at an earlier age.

Original language	English
Journal	European Urology
DOIs	https://doi.org/10.1016/j.eururo.2025.09.4161
Publication status	Accepted/In press - 2026

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

Keywords

African ancestry
Aggressive prostate cancer
Cancer predisposition genes
Lifetime absolute risk
Pathogenic variants
Polygenic risk score

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10.1016/j.eururo.2025.09.4161

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Chen, F., Sheng, X., Wang, A., Xu, Y., Hughley, R., Xiong, W., Pooler, L., Wan, P., Gundell, S. M., Kigozi, G., Nakigozi, G., Nalugoda, F., Kagaayi, J., Kigozi, G. N., Mugamba, S., Kyasanku, E., Nkale, J., Olwa, V. O., Lubwama, A., ... Haiman, C. A. (Accepted/In press). Integrating Pathogenic Variants, Polygenic Risk Score, and Family History for Prostate Cancer Risk Estimation in Men of African Ancestry. European Urology. https://doi.org/10.1016/j.eururo.2025.09.4161

@article{d7ae66540ff04b6a903c99c4500e19c8,

title = "Integrating Pathogenic Variants, Polygenic Risk Score, and Family History for Prostate Cancer Risk Estimation in Men of African Ancestry",

abstract = "Background and objective The impact of germline pathogenic variants (PVs) in cancer predisposition genes on risk of prostate cancer (PCa) remains understudied in large populations of African ancestry. This study aims to characterize the range of genetic risk of PCa and aggressive disease phenotypes in men of African ancestry. Methods We analyzed 7176 PCa cases and 4873 controls from seven countries across North America and Africa to assess the association between PVs in 37 cancer predisposition genes and the risk of overall, aggressive, and metastatic PCa. Genes significantly associated with PCa risk were used to estimate lifetime absolute risk based on family history, polygenic risk score (PRS), and PV carrier status. Key findings and limitations PVs in ATM , BRCA2 , CHEK2 , HOXB13 , and PALB2 were presented in 4\% of aggressive/metastatic PCa cases and were significantly associated with an increased risk of aggressive PCa (odds ratio 2.18–5.96, p ' 0.05). Lifetime absolute risk varied widely depending on PV carrier status, PRS, and family history, ranging from 3.0\% to 74\% for overall PCa, 0.6\% to 41\% for aggressive PCa, and 0.2\% to 37\% for metastatic PCa. PV carriers with a positive family history and a PRS in the 90th percentile had seven, 18, and 34 times the risks of overall, aggressive, and metastatic PCa, respectively, compared with average-risk individuals. Oversampling of aggressive cases may limit the generalizability of these findings to screening populations. Conclusions and clinical implications Integration of PV status, PRS, and family history enables more refined PCa risk estimates. The wide range of PCa risk observed among men of African ancestry in our study supports future prospective studies in the development of risk-stratified cancer screening programs to identify high-risk individuals who may benefit from screening at an earlier age.",

keywords = "African ancestry, Aggressive prostate cancer, Cancer predisposition genes, Lifetime absolute risk, Pathogenic variants, Polygenic risk score",

author = "Fei Chen and Xin Sheng and Anqi Wang and Yili Xu and Raymond Hughley and Wei Xiong and Loreall Pooler and Peggy Wan and Gundell, \{Susan M.\} and Godfrey Kigozi and Gertrude Nakigozi and Fred Nalugoda and Joseph Kagaayi and Kigozi, \{Grace Nalwoga\} and Stephen Mugamba and Emmanuel Kyasanku and James Nkale and Olwa, \{Vitalis Ofumbi\} and Alexander Lubwama and Alex Daama and Resty Nakajugo and Ben Adusei and Mohamed Jalloh and Gueye, \{Serigne Magueye\} and Adjei, \{Andrew A.\} and James Mensah and Fernandez, \{Pedro W.\} and Adebiyi, \{Akindele Olupelumi\} and \{Olufemi Ogunbiyi\}, J. and Aisuodionoe-Shadrach, \{Oseremen Inokhoife\} and Lindsay Petersen and Chen, \{Wenlong Carl\} and Jo McBride and Bensen, \{Jeannette T.\} and Mohler, \{James L.\} and Taylor, \{Jack A.\} and Caroline Andrews and Mbaaga Kigongo and Amanya Colline and Vicky Kiddu and Juliet Namugambe and Shallot Owamaani and Kuteesa Job and Masaba, \{Benon Joseph\} and Frank Asiimwe and Proscovia Muwanga and Joy Namulondo and Florence Nagawa and Charity Kayiraba and Martin Ogwang and Ronald Okidi and David Oweka and Elio Kitara and James Obonyo and Daniel Lajul and Paul Matovu and Muheki, \{Precious Arinda\} and Johnson Natumanya and Emmanuel Agaba and Emmanuel Aculokin and Amos Twongyeirwe and George Mutema and Denis Bitamazire and Butler, \{Ebone{\'e} N.\} and Ingles, \{Sue Ann\} and Rybicki, \{Benjamin A.\} and Stanford, \{Janet L.\} and Wei Zheng and Berndt, \{Sonja I.\} and Chanock, \{Stephen J.\} and Huff, \{Chad D.\} and Joseph Lachance and Luc Multigner and Darst, \{Burcu F.\} and Rebbeck, \{Timothy R.\} and Laurent Brureau and Stephen Watya and Conti, \{David V.\} and Haiman, \{Christopher A.\}",

note = "Publisher Copyright: {\textcopyright} 2025 The Authors.",

year = "2026",

doi = "10.1016/j.eururo.2025.09.4161",

language = "English",

journal = "European Urology",

issn = "0302-2838",

publisher = "Elsevier B.V.",

}

Chen, F, Sheng, X, Wang, A, Xu, Y, Hughley, R, Xiong, W, Pooler, L, Wan, P, Gundell, SM, Kigozi, G, Nakigozi, G, Nalugoda, F, Kagaayi, J, Kigozi, GN, Mugamba, S, Kyasanku, E, Nkale, J, Olwa, VO, Lubwama, A, Daama, A, Nakajugo, R, Adusei, B, Jalloh, M, Gueye, SM, Adjei, AA, Mensah, J, Fernandez, PW, Adebiyi, AO, Olufemi Ogunbiyi, J, Aisuodionoe-Shadrach, OI, Petersen, L, Chen, WC, McBride, J, Bensen, JT, Mohler, JL, Taylor, JA, Andrews, C, Kigongo, M, Colline, A, Kiddu, V, Namugambe, J, Owamaani, S, Job, K, Masaba, BJ, Asiimwe, F, Muwanga, P, Namulondo, J, Nagawa, F, Kayiraba, C, Ogwang, M, Okidi, R, Oweka, D, Kitara, E, Obonyo, J, Lajul, D, Matovu, P, Muheki, PA, Natumanya, J, Agaba, E, Aculokin, E, Twongyeirwe, A, Mutema, G, Bitamazire, D, Butler, EN, Ingles, SA, Rybicki, BA, Stanford, JL, Zheng, W, Berndt, SI, Chanock, SJ, Huff, CD, Lachance, J, Multigner, L, Darst, BF, Rebbeck, TR, Brureau, L, Watya, S, Conti, DV & Haiman, CA 2026, 'Integrating Pathogenic Variants, Polygenic Risk Score, and Family History for Prostate Cancer Risk Estimation in Men of African Ancestry', European Urology. https://doi.org/10.1016/j.eururo.2025.09.4161

TY - JOUR

T1 - Integrating Pathogenic Variants, Polygenic Risk Score, and Family History for Prostate Cancer Risk Estimation in Men of African Ancestry

AU - Chen, Fei

AU - Sheng, Xin

AU - Wang, Anqi

AU - Xu, Yili

AU - Hughley, Raymond

AU - Xiong, Wei

AU - Pooler, Loreall

AU - Wan, Peggy

AU - Gundell, Susan M.

AU - Kigozi, Godfrey

AU - Nakigozi, Gertrude

AU - Nalugoda, Fred

AU - Kagaayi, Joseph

AU - Kigozi, Grace Nalwoga

AU - Mugamba, Stephen

AU - Kyasanku, Emmanuel

AU - Nkale, James

AU - Olwa, Vitalis Ofumbi

AU - Lubwama, Alexander

AU - Daama, Alex

AU - Nakajugo, Resty

AU - Adusei, Ben

AU - Jalloh, Mohamed

AU - Gueye, Serigne Magueye

AU - Adjei, Andrew A.

AU - Mensah, James

AU - Fernandez, Pedro W.

AU - Adebiyi, Akindele Olupelumi

AU - Olufemi Ogunbiyi, J.

AU - Aisuodionoe-Shadrach, Oseremen Inokhoife

AU - Petersen, Lindsay

AU - Chen, Wenlong Carl

AU - McBride, Jo

AU - Bensen, Jeannette T.

AU - Mohler, James L.

AU - Taylor, Jack A.

AU - Andrews, Caroline

AU - Kigongo, Mbaaga

AU - Colline, Amanya

AU - Kiddu, Vicky

AU - Namugambe, Juliet

AU - Owamaani, Shallot

AU - Job, Kuteesa

AU - Masaba, Benon Joseph

AU - Asiimwe, Frank

AU - Muwanga, Proscovia

AU - Namulondo, Joy

AU - Nagawa, Florence

AU - Kayiraba, Charity

AU - Ogwang, Martin

AU - Okidi, Ronald

AU - Oweka, David

AU - Kitara, Elio

AU - Obonyo, James

AU - Lajul, Daniel

AU - Matovu, Paul

AU - Muheki, Precious Arinda

AU - Natumanya, Johnson

AU - Agaba, Emmanuel

AU - Aculokin, Emmanuel

AU - Twongyeirwe, Amos

AU - Mutema, George

AU - Bitamazire, Denis

AU - Butler, Eboneé N.

AU - Ingles, Sue Ann

AU - Rybicki, Benjamin A.

AU - Stanford, Janet L.

AU - Zheng, Wei

AU - Berndt, Sonja I.

AU - Chanock, Stephen J.

AU - Huff, Chad D.

AU - Lachance, Joseph

AU - Multigner, Luc

AU - Darst, Burcu F.

AU - Rebbeck, Timothy R.

AU - Brureau, Laurent

AU - Watya, Stephen

AU - Conti, David V.

AU - Haiman, Christopher A.

PY - 2026

Y1 - 2026

N2 - Background and objective The impact of germline pathogenic variants (PVs) in cancer predisposition genes on risk of prostate cancer (PCa) remains understudied in large populations of African ancestry. This study aims to characterize the range of genetic risk of PCa and aggressive disease phenotypes in men of African ancestry. Methods We analyzed 7176 PCa cases and 4873 controls from seven countries across North America and Africa to assess the association between PVs in 37 cancer predisposition genes and the risk of overall, aggressive, and metastatic PCa. Genes significantly associated with PCa risk were used to estimate lifetime absolute risk based on family history, polygenic risk score (PRS), and PV carrier status. Key findings and limitations PVs in ATM , BRCA2 , CHEK2 , HOXB13 , and PALB2 were presented in 4% of aggressive/metastatic PCa cases and were significantly associated with an increased risk of aggressive PCa (odds ratio 2.18–5.96, p ' 0.05). Lifetime absolute risk varied widely depending on PV carrier status, PRS, and family history, ranging from 3.0% to 74% for overall PCa, 0.6% to 41% for aggressive PCa, and 0.2% to 37% for metastatic PCa. PV carriers with a positive family history and a PRS in the 90th percentile had seven, 18, and 34 times the risks of overall, aggressive, and metastatic PCa, respectively, compared with average-risk individuals. Oversampling of aggressive cases may limit the generalizability of these findings to screening populations. Conclusions and clinical implications Integration of PV status, PRS, and family history enables more refined PCa risk estimates. The wide range of PCa risk observed among men of African ancestry in our study supports future prospective studies in the development of risk-stratified cancer screening programs to identify high-risk individuals who may benefit from screening at an earlier age.

AB - Background and objective The impact of germline pathogenic variants (PVs) in cancer predisposition genes on risk of prostate cancer (PCa) remains understudied in large populations of African ancestry. This study aims to characterize the range of genetic risk of PCa and aggressive disease phenotypes in men of African ancestry. Methods We analyzed 7176 PCa cases and 4873 controls from seven countries across North America and Africa to assess the association between PVs in 37 cancer predisposition genes and the risk of overall, aggressive, and metastatic PCa. Genes significantly associated with PCa risk were used to estimate lifetime absolute risk based on family history, polygenic risk score (PRS), and PV carrier status. Key findings and limitations PVs in ATM , BRCA2 , CHEK2 , HOXB13 , and PALB2 were presented in 4% of aggressive/metastatic PCa cases and were significantly associated with an increased risk of aggressive PCa (odds ratio 2.18–5.96, p ' 0.05). Lifetime absolute risk varied widely depending on PV carrier status, PRS, and family history, ranging from 3.0% to 74% for overall PCa, 0.6% to 41% for aggressive PCa, and 0.2% to 37% for metastatic PCa. PV carriers with a positive family history and a PRS in the 90th percentile had seven, 18, and 34 times the risks of overall, aggressive, and metastatic PCa, respectively, compared with average-risk individuals. Oversampling of aggressive cases may limit the generalizability of these findings to screening populations. Conclusions and clinical implications Integration of PV status, PRS, and family history enables more refined PCa risk estimates. The wide range of PCa risk observed among men of African ancestry in our study supports future prospective studies in the development of risk-stratified cancer screening programs to identify high-risk individuals who may benefit from screening at an earlier age.

KW - African ancestry

KW - Aggressive prostate cancer

KW - Cancer predisposition genes

KW - Lifetime absolute risk

KW - Pathogenic variants

KW - Polygenic risk score

UR - https://www.scopus.com/pages/publications/105032782729

U2 - 10.1016/j.eururo.2025.09.4161

DO - 10.1016/j.eururo.2025.09.4161

M3 - Article

C2 - 41219045

AN - SCOPUS:105032782729

SN - 0302-2838

JO - European Urology

JF - European Urology

ER -

Integrating Pathogenic Variants, Polygenic Risk Score, and Family History for Prostate Cancer Risk Estimation in Men of African Ancestry

Abstract

UN SDGs

Keywords

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