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

被引：23

作者：

Kim, Michelle S. ^{[1
]}

Naidoo, Daphne ^{[2
]}

Hazra, Ujani ^{[1
]}

Quiver, Melanie H. ^{[1
]}

Chen, Wenlong C. ^{[3
,4
]}

Simonti, Corinne N. ^{[1
]}

Kachambwa, Paidamoyo ^{[2
]}

Harlemon, Maxine ^{[1
]}

Agalliu, Ilir ^{[5
]}

Baichoo, Shakuntala ^{[6
]}

Fernandez, Pedro ^{[7
]}

Hsing, Ann W. ^{[8
]}

Jalloh, Mohamed ^{[9
]}

Gueye, Serigne M. ^{[9
]}

Niang, Lamine ^{[9
]}

Diop, Halimatou ^{[9
]}

Ndoye, Medina ^{[9
]}

Snyper, Nana Yaa ^{[10
]}

Adusei, Ben ^{[10
]}

Mensah, James E. ^{[11
,12
]}

Abrahams, Afua O. D. ^{[11
,12
]}

Biritwum, Richard ^{[11
,12
]}

Adjei, Andrew A. ^{[13
]}

Adebiyi, Akindele O. ^{[14
]}

Shittu, Olayiwola ^{[14
]}

Ogunbiyi, Olufemi ^{[14
]}

Adebayo, Sikiru ^{[14
]}

Aisuodionoe-Shadrach, Oseremen, I ^{[15
,16
]}

Nwegbu, Maxwell M. ^{[15
,16
]}

Ajibola, Hafees O. ^{[15
,16
]}

Oluwole, Olabode P. ^{[15
,16
]}

Jamda, Mustapha A. ^{[15
,16
]}

Singh, Elvira ^{[4
]}

Pentz, Audrey ^{[17
]}

Joffe, Maureen ^{[17
,18
]}

Darst, Burcu F. ^{[19
]}

Conti, David, V ^{[19
]}

Haiman, Christopher A. ^{[19
]}

Spies, Petrus, V ^{[7
]}

van der Merwe, Andre ^{[7
]}

Rohan, Thomas E. ^{[5
]}

Jacobson, Judith ^{[20
]}

Neugut, Alfred, I ^{[20
]}

McBride, Jo ^{[2
]}

Andrews, Caroline ^{[21
]}

Petersen, Lindsay N. ^{[2
]}

Rebbeck, Timothy R. ^{[21
,22
]}

Lachance, Joseph ^{[1
]}

机构：

[1] Georgia Inst Technol, Sch Biol Sci, 950 Atlantic Dr, Atlanta, GA 30332 USA

[2] Ctr Proteom & Genom Res, Cape Town, South Africa

[3] Univ Witwatersrand, Fac Hlth Sci, Sydney Brenner Inst Mol Biosci, Johannesburg, South Africa

[4] Natl Hlth Lab Serv, Natl Canc Registry, Johannesburg, South Africa

[5] Albert Einstein Coll Med, Dept Epidemiol & Populat Hlth, Bronx, NY 10467 USA

[6] Univ Mauritius, Reduit, Mauritius

[7] Stellenbosch Univ, Fac Med & Hlth Sci, Cape Town, South Africa

[8] Stanford Univ, Stanford Canc Inst, Stanford, CA 94305 USA

[9] Univ Cheikh Anta Diop Dakar, Dakar, Senegal

[10] 37 Mil Hosp, Accra, Ghana

[11] Korle Bu Teaching Hosp, Accra, Ghana

[12] Univ Ghana Med Sch, Accra, Ghana

[13] Univ Ghana Med Sch, Dept Pathol, Accra, Ghana

[14] Univ Ibadan, Coll Med, Ibadan, Nigeria

[15] Univ Abuja, Coll Hlth Sci, Abuja, Nigeria

[16] Univ Abuja Teaching Hosp, Abuja, Nigeria

[17] Wits Hlth Consortium PTY Ltd, Noncommunicable Dis Res Div, Johannesburg, South Africa

[18] Univ Witwatersrand, Fac Hlth Sci, Dept Pediat, MRC Dev Pathways Hlth Res Unit, Johannesburg, South Africa

[19] Univ Southern Calif, Keck Sch Med, Los Angeles, CA 90007 USA

[20] Columbia Univ, Herbert Irving Comprehens Canc Ctr, New York, NY USA

[21] Dana Farber Canc Inst, Boston, MA 02115 USA

[22] Harvard TH Chan Sch Publ Hlth, Boston, MA USA

来源：

GENOME BIOLOGY | 2022年 / 23卷 / 01期

关键词：

Africa; Health disparities; Genomic medicine; Polygenic risk scores; Population genetics; Prostate cancer; GENOME-WIDE ASSOCIATION; GENETIC-VARIANTS; WEST-AFRICAN; UK BIOBANK; 8Q24; STATISTICS; HISTORY; WOMEN; BIAS;

D O I：

10.1186/s13059-022-02766-z

中图分类号：

Q81 [生物工程学（生物技术）]; Q93 [微生物学];

学科分类号：

071005 ; 0836 ; 090102 ; 100705 ;

摘要：

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.

引用

页数：16

共 23 条

[1] 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 C. Chen
Corinne N. Simonti
Paidamoyo Kachambwa
Maxine Harlemon
Ilir Agalliu
Shakuntala Baichoo
Pedro Fernandez
Ann W. Hsing
Mohamed Jalloh
Serigne M. Gueye
Lamine Niang
Halimatou Diop
Medina Ndoye
Nana Yaa Snyper
Ben Adusei
James E. Mensah
Afua O. D. Abrahams
Richard Biritwum
Andrew A. Adjei
Akindele O. Adebiyi
Olayiwola Shittu
Olufemi 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 Jacobson
Alfred I. Neugut
Jo McBride
Caroline Andrews
Lindsay N. Petersen
Timothy R. Rebbeck
Joseph Lachance
Genome Biology, 23
[2] Ancestry-specific polygenic risk scores are risk enhancers for clinical cardiovascular disease assessments
Busby, George B.
Kulm, Scott
Bolli, Alessandro
Kintzle, Jen
Domenico, Paolo Di
Botta, Giordano
NATURE COMMUNICATIONS, 2023, 14 (01)
[3] Application of European-specific polygenic risk scores for predicting prostate cancer risk in different ancestry populations
Ruan, Xiaohao
Huang, Da
Huang, Jingyi
Xu, Danfeng
Na, Rong
PROSTATE, 2023, 83 (01) : 30 - 38
[4] The State of Our Understanding of Prostate Cancer in Sub-Saharan Africa
Greenberg, Scott A.
Washington, Samuel L., III
CANCER, 2021, 127 (22) : 4131 - 4132
[5] The untapped potential of digital pathology in prostate cancer diagnosis and medical education in sub-Saharan Africa
Farre, Xavier
Kibera, Joshua
AFRICAN JOURNAL OF UROLOGY, 2018, 24 (01) : 54 - 55
[6] How the Cervical Microbiota Contributes to Cervical Cancer Risk in Sub-Saharan Africa
Klein, Cameron
Kahesa, Crispin
Mwaiselage, Julius
West, John T.
Wood, Charles
Angeletti, Peter C.
FRONTIERS IN CELLULAR AND INFECTION MICROBIOLOGY, 2020, 10
[7] Benchmarking multi-ancestry prostate cancer polygenic risk scores in a real-world cohort
Shah, Yajas
Kulm, Scott
Nauseef, Jones T.
Chen, Zhengming
Elemento, Olivier
Kensler, Kevin H.
Sharaf, Ravi N.
PLOS COMPUTATIONAL BIOLOGY, 2024, 20 (04)
[8] Prostate Cancer Screening, Diagnostic, Treatment Procedures and Costs in Sub-Saharan Africa: A Situational Analysis
Makau-Barasa, Louise K. K.
Manirakiza, Achille
Carvalho, Andre L. L.
Rebbeck, Timothy R. R.
CANCER CONTROL, 2022, 29
[9] Prostate Cancer Screening, Diagnostic, Treatment Procedures and Costs in Sub-Saharan Africa: A Situational Analysis
Makau-Barasa, Louise K.
Manirakiza, Achille
Carvalho, Andre L.
Rebbeck, Timothy R.
CANCER CONTROL, 2022, 29
[10] Prostate Cancer Screening, Diagnostic, Treatment Procedures and Costs in Sub-Saharan Africa: A Situational Analysis
Makau-Barasa, Louise K. K.
Manirakiza, Achille
Carvalho, Andre L. L.
Rebbeck, Timothy R. R.
CANCER CONTROL, 2022, 29

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