Virome remodeling rewires epigenetic and metabolic pathways linked to infection-associated colorectal cancer risk

Aspects of molecular medicine Pub Date : 2026-06-01 Epub Date: 2026-02-05 DOI:10.1016/j.amolm.2026.100103

Botle Precious Damane , Jonathan Featherston , Shakeel Kader , Mohammed Alaouna , Pragalathan Naidoo , Zodwa Dlamini , Zilungile Lynette Mkhize-Kwitshana

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Abstract

Background

Colorectal cancer (CRC) incidence is rising in sub-Saharan Africa, coinciding with the high prevalence of immune-modulating infections such as HIV and helminths. The gut virome, a critical yet understudied component of the microbiome, may influence oncogenic processes through epigenetic and metabolic alterations. However, the interplay between gut viral communities, HIV-helminth co-infection, and CRC risk remains poorly characterized in African populations. This study aimed to investigate gut virome-associated epigenetic and metabolic signatures linked to CRC susceptibility among South African adults, with a focus on HIV and helminth co-infection dynamics.

Methods

Untargeted shotgun metagenomic sequencing was performed on stool DNA samples from 62 adults stratified into five groups: uninfected controls (n = 10), HIV-only (n = 14), helminth-only (n = 15), HIV-helminth co-infected (n = 13), and CRC-confirmed patients (n = 10). Bioinformatic analyses were used to identify differentially abundant viral genes and to functionally annotate epigenetic and metabolic pathways associated with infection status and CRC occurrence.

Results and discussion

Adenine-specific DNA methylase (COG2189) emerged as one of the most significantly enriched epigenetic markers across all infected and CRC groups, CRC (7.0 ± 1.26, q = 2.98e-06), helminth-only (7.1 ± 1.16, q = 1.30e-07), HIV-only (6.2 ± 1.21, q = 1.28e-05), and co-infected 6.5 ± 1.21, q = 6.11e-06), suggesting a shared viral epigenomic mechanism potentially contributing to tumorigenesis. Additionally, diverse metabolism-related genes were differentially abundant, particularly those linked to butyrate metabolism, oxidative stress response, and polyamine biosynthesis, metabolic pathways known to influence tumor initiation, immune evasion, and disease progression. These findings indicate that the gut virome may play an intermediary role in modulating host epigenetic and metabolic landscapes in infection-driven CRC risk.

Conclusion

This study identifies novel gut virome-associated epigenetic and metabolic functional signatures that may serve as early, non-invasive biomarkers of CRC susceptibility in HIV- and helminth-endemic populations. Integrating such molecular indicators into cancer surveillance and prevention frameworks could enhance early detection strategies and precision cancer care in underrepresented, high-infection burden African regions.

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病毒体重塑重塑与感染相关的结直肠癌风险相关的表观遗传和代谢途径

背景：在撒哈拉以南非洲地区，结直肠癌（CRC）的发病率正在上升，这与艾滋病毒和蠕虫等免疫调节感染的高发相吻合。肠道病毒组是微生物组中一个重要但尚未得到充分研究的组成部分，它可能通过表观遗传和代谢改变影响致癌过程。然而，在非洲人群中，肠道病毒群落、hiv -蠕虫合并感染和结直肠癌风险之间的相互作用仍然缺乏特征。本研究旨在调查南非成年人中与结直肠癌易感性相关的肠道病毒相关的表观遗传和代谢特征，重点关注HIV和蠕虫的共同感染动态。方法对62例成人粪便DNA样本进行靶向散枪宏基因组测序，将其分为5组：未感染对照组（n = 10）、仅感染hiv （n = 14）、仅感染蠕虫（n = 15）、合并感染hiv -蠕虫（n = 13）和确诊的crc患者（n = 10）。生物信息学分析用于鉴定差异丰富的病毒基因，并功能性地注释与感染状态和结直肠癌发生相关的表观遗传和代谢途径。结果和讨论腺嘌呤特异性DNA甲基化酶（COG2189）在所有感染组和结直肠癌组(结直肠癌组（7.0±1.26,q = 2.98e-06）、蠕虫组（7.1±1.16,q = 1.30e-07）、hiv组（6.2±1.21,q = 1.28e-05）和合并感染组（6.5±1.21,q = 6.11e-06）中成为最显著富集的表观遗传标记之一，表明共享的病毒表观基因组机制可能有助于肿瘤发生。此外，多种代谢相关基因差异丰富，特别是与丁酸代谢、氧化应激反应和多胺生物合成相关的基因，已知的影响肿瘤起始、免疫逃避和疾病进展的代谢途径。这些发现表明，在感染驱动的CRC风险中，肠道病毒可能在调节宿主表观遗传和代谢景观中发挥中介作用。本研究确定了新的肠道病毒组相关的表观遗传和代谢功能特征，这些特征可能作为HIV和蠕虫流行人群结直肠癌易感性的早期非侵入性生物标志物。将这些分子指标纳入癌症监测和预防框架可以在代表性不足、高感染负担的非洲地区加强早期发现战略和精确癌症治疗。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Aspects of molecular medicine Molecular Biology, Molecular Medicine

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38 days