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African-specific molecular taxonomy of prostate cancer

Prostate cancer is characterized by considerable geo-ethnic disparity. African ancestry is a significant risk factor, with mortality rates across sub-Saharan Africa of 2.7-fold higher than global averages(1). The contributing genetic and non-genetic factors, and associated mutational processes, are...

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Detalles Bibliográficos
Autores principales: Jaratlerdsiri, Weerachai, Jiang, Jue, Gong, Tingting, Patrick, Sean M., Willet, Cali, Chew, Tracy, Lyons, Ruth J., Haynes, Anne-Maree, Pasqualim, Gabriela, Louw, Melanie, Kench, James G., Campbell, Raymond, Horvath, Lisa G., Chan, Eva K. F., Wedge, David C., Sadsad, Rosemarie, Brum, Ilma Simoni, Mutambirwa, Shingai B. A., Stricker, Phillip D., Bornman, M. S. Riana, Hayes, Vanessa M.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group UK 2022
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9477733/
https://www.ncbi.nlm.nih.gov/pubmed/36045292
http://dx.doi.org/10.1038/s41586-022-05154-6
Descripción
Sumario:Prostate cancer is characterized by considerable geo-ethnic disparity. African ancestry is a significant risk factor, with mortality rates across sub-Saharan Africa of 2.7-fold higher than global averages(1). The contributing genetic and non-genetic factors, and associated mutational processes, are unknown(2,3). Here, through whole-genome sequencing of treatment-naive prostate cancer samples from 183 ancestrally (African versus European) and globally distinct patients, we generate a large cancer genomics resource for sub-Saharan Africa, identifying around 2 million somatic variants. Significant African-ancestry-specific findings include an elevated tumour mutational burden, increased percentage of genome alteration, a greater number of predicted damaging mutations and a higher total of mutational signatures, and the driver genes NCOA2, STK19, DDX11L1, PCAT1 and SETBP1. Examining all somatic mutational types, we describe a molecular taxonomy for prostate cancer differentiated by ancestry and defined as global mutational subtypes (GMS). By further including Chinese Asian data, we confirm that GMS-B (copy-number gain) and GMS-D (mutationally noisy) are specific to African populations, GMS-A (mutationally quiet) is universal (all ethnicities) and the African–European-restricted subtype GMS-C (copy-number losses) predicts poor clinical outcomes. In addition to the clinical benefit of including individuals of African ancestry, our GMS subtypes reveal different evolutionary trajectories and mutational processes suggesting that both common genetic and environmental factors contribute to the disparity between ethnicities. Analogous to gene–environment interaction—defined here as a different effect of an environmental surrounding in people with different ancestries or vice versa—we anticipate that GMS subtypes act as a proxy for intrinsic and extrinsic mutational processes in cancers, promoting global inclusion in landmark studies.