Testing the generalizability of ancestry-specific polygenic risk scores to predict prostate cancer in sub-Saharan Africa

Michelle S. Kim; Daphne Naidoo; Ujani Hazra; Melanie H. Quiver; Wenlong Carl Chen; Corinne Simonti; Paidamoyo Kachambwa; Maxine Harlemon; Ilir Agalliu; Shakuntala Baichoo; P. Fernandez; Ann W. Hsing; Mohamed Jalloh; Sérigne Maguèye Gueye; Lamine Niang; Halimatou Diop‐Ndiaye; Médina Ndoye; Nana Yaa Snyper; Ben Adusei; James E. Mensah; Afua O.D. Abrahams; Richard Biritwum; Andrew A. Adjei; Akindele O. Adebiyi; Olayiwola B. Shittu; Olufemi J. Ogunbiyi; Sikiru Adebayo; Oseremen I. Aisuodionoe-Shadrach; Maxwell M. Nwegbu; Hafees O. Ajibola; Olabode P. Oluwole; Mustapha A. Jamda; Elvira Singh; Audrey Pentz; Maureen Joffe; Burcu F. Darst; David V. Conti; Christopher A. Haiman; Petrus V. Spies; André van der Merwe; Thomas E. Rohan; Judith S. Jacobson; Alfred I. Neugut; Jo McBride; Caroline Andrews; Lindsay N. Petersen; Timothy R. Rebbeck; Joseph Lachance

doi:10.1186/s13059-022-02766-z

Testing the generalizability of ancestry-specific polygenic risk scores to predict prostate cancer in sub-Saharan Africa

Michelle S. Kim(Georgia Institute of Technology), Daphne Naidoo(African Organisation for Research and Training in Cancer), Ujani Hazra(Georgia Institute of Technology), Melanie H. Quiver(Georgia Institute of Technology), Wenlong Carl Chen(National Health Laboratory Service), Corinne Simonti(Georgia Institute of Technology), Paidamoyo Kachambwa(African Organisation for Research and Training in Cancer), Maxine Harlemon(Georgia Institute of Technology), Ilir Agalliu(Albert Einstein College of Medicine), Shakuntala Baichoo(University of Mauritius), P. Fernandez(Stellenbosch University), Ann W. Hsing(Stanford University), Mohamed Jalloh(Cheikh Anta Diop University), Sérigne Maguèye Gueye(Cheikh Anta Diop University), Lamine Niang(Cheikh Anta Diop University), Halimatou Diop‐Ndiaye(Cheikh Anta Diop University), Médina Ndoye(Cheikh Anta Diop University), Nana Yaa Snyper(37 Military Hospital), Ben Adusei(37 Military Hospital), James E. Mensah(University of Ghana), Afua O.D. Abrahams(University of Ghana), Richard Biritwum(University of Ghana), Andrew A. Adjei(University of Ghana), Akindele O. Adebiyi(University of Ibadan), Olayiwola B. Shittu(University of Ibadan), Olufemi J. Ogunbiyi(University of Ibadan), Sikiru Adebayo(University of Ibadan), Oseremen I. Aisuodionoe-Shadrach(University of Abuja Teaching Hospital), Maxwell M. Nwegbu(University of Abuja Teaching Hospital), Hafees O. Ajibola(University of Abuja Teaching Hospital), Olabode P. Oluwole(University of Abuja Teaching Hospital), Mustapha A. Jamda(University of Abuja Teaching Hospital), Elvira Singh(National Health Laboratory Service), Audrey Pentz(Africa Health Research Institute), Maureen Joffe(University of the Witwatersrand), Burcu F. Darst(University of Southern California), David V. Conti(University of Southern California), Christopher A. Haiman(University of Southern California), Petrus V. Spies(Stellenbosch University), André van der Merwe(Stellenbosch University), Thomas E. Rohan(Albert Einstein College of Medicine), Judith S. Jacobson(Columbia University Irving Medical Center), Alfred I. Neugut(Columbia University Irving Medical Center), Jo McBride(African Organisation for Research and Training in Cancer), Caroline Andrews(Dana-Farber Cancer Institute), Lindsay N. Petersen(African Organisation for Research and Training in Cancer), Timothy R. Rebbeck(Harvard University), Joseph Lachance(Georgia Institute of Technology)

Genome biology

September 13, 2022

10.1186/s13059-022-02766-z

Cited by 41Open Access

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Abstract

BACKGROUND: Genome-wide association studies do not always replicate well across populations, limiting the generalizability of polygenic risk scores (PRS). Despite higher incidence and mortality rates of prostate cancer in men of African descent, much of what is known about cancer genetics comes from populations of European descent. To understand how well genetic predictions perform in different populations, we evaluated test characteristics of PRS from three previous studies using data from the UK Biobank and a novel dataset of 1298 prostate cancer cases and 1333 controls from Ghana, Nigeria, Senegal, and South Africa. RESULTS: Allele frequency differences cause predicted risks of prostate cancer to vary across populations. However, natural selection is not the primary driver of these differences. Comparing continental datasets, we find that polygenic predictions of case vs. control status are more effective for European individuals (AUC 0.608-0.707, OR 2.37-5.71) than for African individuals (AUC 0.502-0.585, OR 0.95-2.01). Furthermore, PRS that leverage information from African Americans yield modest AUC and odds ratio improvements for sub-Saharan African individuals. These improvements were larger for West Africans than for South Africans. Finally, we find that existing PRS are largely unable to predict whether African individuals develop aggressive forms of prostate cancer, as specified by higher tumor stages or Gleason scores. CONCLUSIONS: Genetic predictions of prostate cancer perform poorly if the study sample does not match the ancestry of the original GWAS. PRS built from European GWAS may be inadequate for application in non-European populations and perpetuate existing health disparities.

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