A custom genotyping array reveals population-level heterogeneity for the genetic risks of prostate cancer and other cancers in Africa

  1. Maxine Harlemon
  2. Olabode Ajayi
  3. Paidamoyo Kachambwa
  4. Michelle S. Kim
  5. Corinne N. Simonti
  6. Melanie H. Quiver
  7. Desiree C. Petersen
  8. Anuradha Mittal
  9. Pedro Fernandez
  10. Ann W. Hsing
  11. Shakuntala Baichoo
  12. Ilir Agalliu
  13. Mohamed Jalloh
  14. Serigne M. Gueye
  15. Nana Yaa Snyper
  16. Ben Adusei
  17. James E. Mensah
  18. Afua O.D. Abrahams
  19. Akindele O. Adebiyi
  20. Akin Orunmuyi
  21. Oseremen I. Aisuodionoe-Shadrach
  22. Maxwell M. Nwegbu
  23. Maureen Joffe
  24. Wenlong C. Chen
  25. Hayley Irusen
  26. Alfred I. Neugut
  27. Yuri Quintana
  28. Moleboheng Seutloali
  29. Mayowa Fadipe
  30. Christopher Warren
  31. Marcos H. Woehrmann
  32. Peng Zhang
  33. Chrissie Ongaco
  34. Michelle Mawhinney
  35. Jo McBride
  36. Caroline Andrews
  37. Marcia Adams
  38. Elizabeth Pugh
  39. Timothy R. Rebbeck
  40. Lindsay Petersen
  41. Joseph Lachance
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Abstract

Although prostate cancer is the leading cause of cancer mortality for African men, the vast majority of known disease associations have been detected in European study cohorts. Furthermore, most genome-wide association studies have used genotyping arrays that are hindered by SNP ascertainment bias. To overcome these disparities in genomic medicine, the <underline>M</underline>en of <underline>A</underline>frican <underline>D</underline>escent and <underline>Ca</underline>rcinoma of the <underline>P</underline>rostate (MADCaP) Network has developed a genotyping array that is optimized for African populations. The MADCaP Array contains more than 1.5 million markers and an imputation backbone that successfully tags over 94% of common genetic variants in African populations. This array also has a high density of markers in genomic regions associated with cancer susceptibility, including 8q24. We assessed the effectiveness of the MADCaP Array by genotyping 399 prostate cancer cases and 403 controls from seven urban study sites in sub-Saharan Africa. We find that samples from Ghana and Nigeria cluster together, while samples from Senegal and South Africa yield distinct ancestry clusters. Using the MADCaP array, we identified cancer-associated loci that have large allele frequency differences across African populations. Polygenic risk scores were also generated for each genome in the MADCaP pilot dataset, and we found that predicted risks of CaP are lower in Senegal and higher in Nigeria.

Significance

We have developed an Africa-specific genotyping array which enables investigators to identify novel disease associations and to fine-map genetic loci that are associated with prostate and other cancers.

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