Genomic and functional co-diversification imprint African Hominidae microbiomes to signal dietary and lifestyle adaptations

Saria Otani; Marie Louise Jespersen; Christian Brinch; Frederik Duus Møller; Bo Pilgaard; Emilie Egholm Bruun Jensen; Pimlapas Leekitcharoenphon; Christina Aaby Svendsen; Amalie H. Aarestrup; Tolbert Sonda; Teresa J. Sylvina; Jeff Leach; Alexander Piel; Fiona Stewart; Panagiotis Sapountzis; Paul E. Kazyoba; Happiness Kumburu; Frank M. Aarestrup

doi:10.1080/19490976.2025.2484385

Genomic and functional co-diversification imprint African Hominidae microbiomes to signal dietary and lifestyle adaptations

Saria Otani^*, Marie Louise Jespersen^*, Christian Brinch, Frederik Duus Møller, Bo Pilgaard, Emilie Egholm Bruun Jensen, Pimlapas Leekitcharoenphon, Christina Aaby Svendsen, Amalie H. Aarestrup, Tolbert Sonda, Teresa J. Sylvina, Jeff Leach, Alexander Piel, Fiona Stewart, Panagiotis Sapountzis, Paul E. Kazyoba, Happiness Kumburu, Frank M. Aarestrup

^*Corresponding author for this work

Research output: Contribution to journal › Journal article › Research › peer-review

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Abstract

In the diverse landscape of African hominids, the obligate relationship between the host and its microbiome narrates signals of adaptation and co-evolution. Sequencing 546 African hominid metagenomes, including those from indigenous Hadza and wild chimpanzees, identified similar bacterial richness and diversity surpassing those of westernized populations. While hominids share core bacterial communities, they also harbor distinct, population-specific bacterial taxa tailored to specific diets, ecology and lifestyles, differentiating non-indigenous and indigenous humans and chimpanzees. Even amongst shared bacterial communities, several core bacteria have co-diversified to fulfil unique dietary degradation functions within their host populations. These co-evolutionary trends extend to non-bacterial elements, such as mitochondrial DNA, antimicrobial resistance, and parasites. Our findings indicate that microbiome-host co-adaptations have led to both taxonomic and within taxa functional displacements to meet host physiological demands. The microbiome, in turn, transcends its taxonomic interchangeable role, reflecting the lifestyle, ecology and dietary history of its host.

Original language	English
Article number	2484385
Journal	Gut Microbes
Volume	17
Issue number	1
Number of pages	29
ISSN	1949-0976
DOIs	https://doi.org/10.1080/19490976.2025.2484385
Publication status	Published - 2025

Keywords

Microbiome
Evolution
Host adaptation
African hominidae

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Otani, S., Louise Jespersen, M., Brinch, C., Duus Møller, F., Pilgaard, B., Egholm Bruun Jensen, E., Leekitcharoenphon, P., Aaby Svendsen, C., Aarestrup, A. H., Sonda, T., Sylvina, T. J., Leach, J., Piel, A., Stewart, F., Sapountzis, P., Kazyoba, P. E., Kumburu, H., & Aarestrup, F. M. (2025). Genomic and functional co-diversification imprint African Hominidae microbiomes to signal dietary and lifestyle adaptations. Gut Microbes, 17(1), Article 2484385. https://doi.org/10.1080/19490976.2025.2484385

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title = "Genomic and functional co-diversification imprint African Hominidae microbiomes to signal dietary and lifestyle adaptations",

abstract = "In the diverse landscape of African hominids, the obligate relationship between the host and its microbiome narrates signals of adaptation and co-evolution. Sequencing 546 African hominid metagenomes, including those from indigenous Hadza and wild chimpanzees, identified similar bacterial richness and diversity surpassing those of westernized populations. While hominids share core bacterial communities, they also harbor distinct, population-specific bacterial taxa tailored to specific diets, ecology and lifestyles, differentiating non-indigenous and indigenous humans and chimpanzees. Even amongst shared bacterial communities, several core bacteria have co-diversified to fulfil unique dietary degradation functions within their host populations. These co-evolutionary trends extend to non-bacterial elements, such as mitochondrial DNA, antimicrobial resistance, and parasites. Our findings indicate that microbiome-host co-adaptations have led to both taxonomic and within taxa functional displacements to meet host physiological demands. The microbiome, in turn, transcends its taxonomic interchangeable role, reflecting the lifestyle, ecology and dietary history of its host.",

keywords = "Microbiome, Evolution, Host adaptation, African hominidae",

author = "Saria Otani and {Louise Jespersen}, Marie and Christian Brinch and {Duus M{\o}ller}, Frederik and Bo Pilgaard and {Egholm Bruun Jensen}, Emilie and Pimlapas Leekitcharoenphon and {Aaby Svendsen}, Christina and Aarestrup, {Amalie H.} and Tolbert Sonda and Sylvina, {Teresa J.} and Jeff Leach and Alexander Piel and Fiona Stewart and Panagiotis Sapountzis and Kazyoba, {Paul E.} and Happiness Kumburu and Aarestrup, {Frank M.}",

year = "2025",

doi = "10.1080/19490976.2025.2484385",

language = "English",

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journal = "Gut Microbes",

issn = "1949-0976",

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Otani, S , Louise Jespersen, M , Brinch, C , Duus Møller, F, Pilgaard, B, Egholm Bruun Jensen, E , Leekitcharoenphon, P , Aaby Svendsen, C, Aarestrup, AH, Sonda, T, Sylvina, TJ, Leach, J, Piel, A, Stewart, F, Sapountzis, P, Kazyoba, PE, Kumburu, H & Aarestrup, FM 2025, 'Genomic and functional co-diversification imprint African Hominidae microbiomes to signal dietary and lifestyle adaptations', Gut Microbes, vol. 17, no. 1, 2484385. https://doi.org/10.1080/19490976.2025.2484385

TY - JOUR

T1 - Genomic and functional co-diversification imprint African Hominidae microbiomes to signal dietary and lifestyle adaptations

AU - Otani, Saria

AU - Louise Jespersen, Marie

AU - Brinch, Christian

AU - Duus Møller, Frederik

AU - Pilgaard, Bo

AU - Egholm Bruun Jensen, Emilie

AU - Leekitcharoenphon, Pimlapas

AU - Aaby Svendsen, Christina

AU - Aarestrup, Amalie H.

AU - Sonda, Tolbert

AU - Sylvina, Teresa J.

AU - Leach, Jeff

AU - Piel, Alexander

AU - Stewart, Fiona

AU - Sapountzis, Panagiotis

AU - Kazyoba, Paul E.

AU - Kumburu, Happiness

AU - Aarestrup, Frank M.

PY - 2025

Y1 - 2025

N2 - In the diverse landscape of African hominids, the obligate relationship between the host and its microbiome narrates signals of adaptation and co-evolution. Sequencing 546 African hominid metagenomes, including those from indigenous Hadza and wild chimpanzees, identified similar bacterial richness and diversity surpassing those of westernized populations. While hominids share core bacterial communities, they also harbor distinct, population-specific bacterial taxa tailored to specific diets, ecology and lifestyles, differentiating non-indigenous and indigenous humans and chimpanzees. Even amongst shared bacterial communities, several core bacteria have co-diversified to fulfil unique dietary degradation functions within their host populations. These co-evolutionary trends extend to non-bacterial elements, such as mitochondrial DNA, antimicrobial resistance, and parasites. Our findings indicate that microbiome-host co-adaptations have led to both taxonomic and within taxa functional displacements to meet host physiological demands. The microbiome, in turn, transcends its taxonomic interchangeable role, reflecting the lifestyle, ecology and dietary history of its host.

AB - In the diverse landscape of African hominids, the obligate relationship between the host and its microbiome narrates signals of adaptation and co-evolution. Sequencing 546 African hominid metagenomes, including those from indigenous Hadza and wild chimpanzees, identified similar bacterial richness and diversity surpassing those of westernized populations. While hominids share core bacterial communities, they also harbor distinct, population-specific bacterial taxa tailored to specific diets, ecology and lifestyles, differentiating non-indigenous and indigenous humans and chimpanzees. Even amongst shared bacterial communities, several core bacteria have co-diversified to fulfil unique dietary degradation functions within their host populations. These co-evolutionary trends extend to non-bacterial elements, such as mitochondrial DNA, antimicrobial resistance, and parasites. Our findings indicate that microbiome-host co-adaptations have led to both taxonomic and within taxa functional displacements to meet host physiological demands. The microbiome, in turn, transcends its taxonomic interchangeable role, reflecting the lifestyle, ecology and dietary history of its host.

KW - Microbiome

KW - Evolution

KW - Host adaptation

KW - African hominidae

U2 - 10.1080/19490976.2025.2484385

DO - 10.1080/19490976.2025.2484385

M3 - Journal article

C2 - 40164980

SN - 1949-0976

VL - 17

JO - Gut Microbes

JF - Gut Microbes

IS - 1

M1 - 2484385

ER -

Genomic and functional co-diversification imprint African Hominidae microbiomes to signal dietary and lifestyle adaptations

Abstract

Keywords

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