Methylation reprogramming associated with aggressive prostate cancer and ancestral disparities

HEROIC PCaPH Africa1K; Other key Consortia members (alphabetical order); Genomics and Data Science Working Group members; SAPCS Resource Working Group members; Developmental team leads; Co-principal investigators

doi:10.1038/s44320-025-00153-x

Methylation reprogramming associated with aggressive prostate cancer and ancestral disparities

HEROIC PCaPH Africa1K
, Other key Consortia members (alphabetical order)
, Genomics and Data Science Working Group members
, SAPCS Resource Working Group members
, Developmental team leads
, Co-principal investigators

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

Abstract

African men are disproportionately impacted by aggressive prostate cancer (PCa). The key to this disparity is both genetic and environmental factors, alluding to epigenetic modifications. However, African-inclusive prostate tumour DNA methylation studies are lacking. Assembling a multi-geo-ancestral prostate tissue cohort, including men with (57 African, 48 European, 23 Asian) or without (65 African) PCa, we interrogate for genome-wide differential methylation. Overall, methylation appears to be driven by ancestry over geography (152 southern Africa, 41 Australia). African tumours show substantial heterogeneity, with universal hypermethylation indicating more pervasive epigenetic silencing, encompassing PCa suppressor genes and enhancer-targeted binding motifs. Conversely, African tumour-associated heterochromatic hypomethylation suggests chromatin relaxation and developmental pathway activation via enhancer targets. Notably, non-prostate lineage elements appeared preferentially exploited in African tumorigenesis, with ancestry potentially influencing the extent of lineage-inappropriate activation, and tumour progression marked by repression of developmental regulators. Together, these findings point to extensive epigenetic plasticity in African tumours, with intergenic regulatory remodelling promoting genomic instability, metastatic potential and aggressive disease phenotypes.

Original language	English
Pages (from-to)	1676-1701
Number of pages	26
Journal	Molecular Systems Biology
Volume	21
Issue number	12
DOIs	https://doi.org/10.1038/s44320-025-00153-x
Publication status	Published - 2 Dec 2025
Externally published	Yes

Keywords

African Ancestry
Differential Methylation
Health Disparity
Prostate Tumours

UN SDGs

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

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10.1038/s44320-025-00153-x

Cite this

HEROIC PCaPH Africa1K, Other key Consortia members (alphabetical order), Genomics and Data Science Working Group members, SAPCS Resource Working Group members, Developmental team leads, & Co-principal investigators (2025). Methylation reprogramming associated with aggressive prostate cancer and ancestral disparities. Molecular Systems Biology, 21(12), 1676-1701. https://doi.org/10.1038/s44320-025-00153-x

@article{11e52f1c9d2340768314ebdb2802924c,

title = "Methylation reprogramming associated with aggressive prostate cancer and ancestral disparities",

abstract = "African men are disproportionately impacted by aggressive prostate cancer (PCa). The key to this disparity is both genetic and environmental factors, alluding to epigenetic modifications. However, African-inclusive prostate tumour DNA methylation studies are lacking. Assembling a multi-geo-ancestral prostate tissue cohort, including men with (57 African, 48 European, 23 Asian) or without (65 African) PCa, we interrogate for genome-wide differential methylation. Overall, methylation appears to be driven by ancestry over geography (152 southern Africa, 41 Australia). African tumours show substantial heterogeneity, with universal hypermethylation indicating more pervasive epigenetic silencing, encompassing PCa suppressor genes and enhancer-targeted binding motifs. Conversely, African tumour-associated heterochromatic hypomethylation suggests chromatin relaxation and developmental pathway activation via enhancer targets. Notably, non-prostate lineage elements appeared preferentially exploited in African tumorigenesis, with ancestry potentially influencing the extent of lineage-inappropriate activation, and tumour progression marked by repression of developmental regulators. Together, these findings point to extensive epigenetic plasticity in African tumours, with intergenic regulatory remodelling promoting genomic instability, metastatic potential and aggressive disease phenotypes.",

keywords = "African Ancestry, Differential Methylation, Health Disparity, Prostate Tumours",

author = "\{HEROIC PCaPH Africa1K\} and \{Other key Consortia members (alphabetical order)\} and \{Genomics and Data Science Working Group members\} and \{SAPCS Resource Working Group members\} and \{Developmental team leads\} and \{Co-principal investigators\} and Jenna Craddock and Pavlo Lutsik and Soh, \{Pamela X.Y.\} and Melanie Louw and Hasan, \{Md Mehedi\} and Patrick, \{Sean M.\} and Mutambirwa, \{Shingai B.A.\} and Stricker, \{Phillip D.\} and F{\"o}rtsch, \{Hagen E.A.\} and Margaret Quaid and Wanjiku, \{Githui Shila\} and Walong, \{Edwin O.O.\} and Walker, \{Douglas I.\} and Joyce Shirinde and Oyaro, \{Micah O.\} and Nyaga, \{Muriuki Elias\} and Lynn Birch and Irene Barnhoorn and Maria Argos and Zsofia Kote-Jarai and Eeles, \{Rosalind A.\} and Cooper, \{Colin S.\} and Abraham Gihawi and Brewer, \{Daniel S.\} and Bristow, \{Robert G.\} and Vivien Holmes and Avraam Tapinos and Wedge, \{David C.\} and Fanelli, \{Giuseppe Nicolo{\textquoteright}\} and Massimo Loda and Umuna Maendo and Kangping Zhou and Ruotian Huang and Kazzem Gheybi and Korawich Uthayopas and Tingting Gong and Jue Jiang and Menoe, \{Reginald M.J.\} and Jessie Gamxamub and Golda Stellmacher and Radzuma, \{Mulalo B.\} and Campbell, \{Raymond A.\} and Martin Obida and Muvhulawa Obida and Mbeki, \{Tumisang M.N.\} and Lebelo, \{Maphuti Tebogo\} and Madueke, \{Ikenna C.\} and Moreira, \{Daniel M.\} and Ombuki, \{Winstar Mokua\} and Weerachai Jaratlerdsiri",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2025.",

year = "2025",

month = dec,

day = "2",

doi = "10.1038/s44320-025-00153-x",

language = "English",

volume = "21",

pages = "1676--1701",

journal = "Molecular Systems Biology",

issn = "1744-4292",

publisher = "Wiley-Blackwell",

number = "12",

}

HEROIC PCaPH Africa1K, Other key Consortia members (alphabetical order), Genomics and Data Science Working Group members, SAPCS Resource Working Group members, Developmental team leads & Co-principal investigators 2025, 'Methylation reprogramming associated with aggressive prostate cancer and ancestral disparities', Molecular Systems Biology, vol. 21, no. 12, pp. 1676-1701. https://doi.org/10.1038/s44320-025-00153-x

TY - JOUR

T1 - Methylation reprogramming associated with aggressive prostate cancer and ancestral disparities

AU - HEROIC PCaPH Africa1K

AU - Other key Consortia members (alphabetical order)

AU - Genomics and Data Science Working Group members

AU - SAPCS Resource Working Group members

AU - Developmental team leads

AU - Co-principal investigators

AU - Craddock, Jenna

AU - Lutsik, Pavlo

AU - Soh, Pamela X.Y.

AU - Louw, Melanie

AU - Hasan, Md Mehedi

AU - Patrick, Sean M.

AU - Mutambirwa, Shingai B.A.

AU - Stricker, Phillip D.

AU - Förtsch, Hagen E.A.

AU - Quaid, Margaret

AU - Wanjiku, Githui Shila

AU - Walong, Edwin O.O.

AU - Walker, Douglas I.

AU - Shirinde, Joyce

AU - Oyaro, Micah O.

AU - Nyaga, Muriuki Elias

AU - Birch, Lynn

AU - Barnhoorn, Irene

AU - Argos, Maria

AU - Kote-Jarai, Zsofia

AU - Eeles, Rosalind A.

AU - Cooper, Colin S.

AU - Gihawi, Abraham

AU - Brewer, Daniel S.

AU - Bristow, Robert G.

AU - Holmes, Vivien

AU - Tapinos, Avraam

AU - Wedge, David C.

AU - Fanelli, Giuseppe Nicolo’

AU - Loda, Massimo

AU - Maendo, Umuna

AU - Zhou, Kangping

AU - Huang, Ruotian

AU - Gheybi, Kazzem

AU - Uthayopas, Korawich

AU - Gong, Tingting

AU - Jiang, Jue

AU - Menoe, Reginald M.J.

AU - Gamxamub, Jessie

AU - Stellmacher, Golda

AU - Radzuma, Mulalo B.

AU - Campbell, Raymond A.

AU - Obida, Martin

AU - Obida, Muvhulawa

AU - Mbeki, Tumisang M.N.

AU - Lebelo, Maphuti Tebogo

AU - Madueke, Ikenna C.

AU - Moreira, Daniel M.

AU - Ombuki, Winstar Mokua

AU - Jaratlerdsiri, Weerachai

PY - 2025/12/2

Y1 - 2025/12/2

N2 - African men are disproportionately impacted by aggressive prostate cancer (PCa). The key to this disparity is both genetic and environmental factors, alluding to epigenetic modifications. However, African-inclusive prostate tumour DNA methylation studies are lacking. Assembling a multi-geo-ancestral prostate tissue cohort, including men with (57 African, 48 European, 23 Asian) or without (65 African) PCa, we interrogate for genome-wide differential methylation. Overall, methylation appears to be driven by ancestry over geography (152 southern Africa, 41 Australia). African tumours show substantial heterogeneity, with universal hypermethylation indicating more pervasive epigenetic silencing, encompassing PCa suppressor genes and enhancer-targeted binding motifs. Conversely, African tumour-associated heterochromatic hypomethylation suggests chromatin relaxation and developmental pathway activation via enhancer targets. Notably, non-prostate lineage elements appeared preferentially exploited in African tumorigenesis, with ancestry potentially influencing the extent of lineage-inappropriate activation, and tumour progression marked by repression of developmental regulators. Together, these findings point to extensive epigenetic plasticity in African tumours, with intergenic regulatory remodelling promoting genomic instability, metastatic potential and aggressive disease phenotypes.

AB - African men are disproportionately impacted by aggressive prostate cancer (PCa). The key to this disparity is both genetic and environmental factors, alluding to epigenetic modifications. However, African-inclusive prostate tumour DNA methylation studies are lacking. Assembling a multi-geo-ancestral prostate tissue cohort, including men with (57 African, 48 European, 23 Asian) or without (65 African) PCa, we interrogate for genome-wide differential methylation. Overall, methylation appears to be driven by ancestry over geography (152 southern Africa, 41 Australia). African tumours show substantial heterogeneity, with universal hypermethylation indicating more pervasive epigenetic silencing, encompassing PCa suppressor genes and enhancer-targeted binding motifs. Conversely, African tumour-associated heterochromatic hypomethylation suggests chromatin relaxation and developmental pathway activation via enhancer targets. Notably, non-prostate lineage elements appeared preferentially exploited in African tumorigenesis, with ancestry potentially influencing the extent of lineage-inappropriate activation, and tumour progression marked by repression of developmental regulators. Together, these findings point to extensive epigenetic plasticity in African tumours, with intergenic regulatory remodelling promoting genomic instability, metastatic potential and aggressive disease phenotypes.

KW - African Ancestry

KW - Differential Methylation

KW - Health Disparity

KW - Prostate Tumours

UR - https://www.scopus.com/pages/publications/105018603330

U2 - 10.1038/s44320-025-00153-x

DO - 10.1038/s44320-025-00153-x

M3 - Article

C2 - 41057544

AN - SCOPUS:105018603330

SN - 1744-4292

VL - 21

SP - 1676

EP - 1701

JO - Molecular Systems Biology

JF - Molecular Systems Biology

IS - 12

ER -

HEROIC PCaPH Africa1K, Other key Consortia members (alphabetical order), Genomics and Data Science Working Group members, SAPCS Resource Working Group members, Developmental team leads, Co-principal investigators. Methylation reprogramming associated with aggressive prostate cancer and ancestral disparities. Molecular Systems Biology. 2025 Dec 2;21(12):1676-1701. doi: 10.1038/s44320-025-00153-x

Methylation reprogramming associated with aggressive prostate cancer and ancestral disparities

Abstract

Keywords

UN SDGs

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