Fire Usage and Ancient Hominin Detoxification Genes: Protective Ancestral Variants Dominate While Additional Derived Risk Variants Appear in Modern Humans.

Michael D Petraglia,Jac M M J G Aarts,Gerrit M Alink,Wil Roebroeks,Harm Nijveen,Alison C Smith,Katharine Macdonald,Fulco Scherjon

doi:10.1371/journal.pone.0161102

Michael D Petraglia, Jac M M J G Aarts + Show 6 more

Open Access

https://doi.org/10.1371/journal.pone.0161102

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Journal: PloS one	Publication Date: Sep 21, 2016
Citations: 9	License type: CC BY 4.0

Affiliation: Leiden University, Wageningen University & Research

Abstract

Studies of the defence capacity of ancient hominins against toxic substances may contribute importantly to the reconstruction of their niche, including their diets and use of fire. Fire usage implies frequent exposure to hazardous compounds from smoke and heated food, known to affect general health and fertility, probably resulting in genetic selection for improved detoxification. To investigate whether such genetic selection occurred, we investigated the alleles in Neanderthals, Denisovans and modern humans at gene polymorphisms well-known to be relevant from modern human epidemiological studies of habitual tobacco smoke exposure and mechanistic evidence. We compared these with the alleles in chimpanzees and gorillas. Neanderthal and Denisovan hominins predominantly possess gene variants conferring increased resistance to these toxic compounds. Surprisingly, we observed the same in chimpanzees and gorillas, implying that less efficient variants are derived and mainly evolved in modern humans. Less efficient variants are observable from the first early Upper Palaeolithic hunter-gatherers onwards. While not clarifying the deep history of fire use, our results highlight the long-term stability of the genes under consideration despite major changes in the hominin dietary niche. Specifically for detoxification gene variants characterised as deleterious by epidemiological studies, our results confirm the predominantly recent appearance reported for deleterious human gene variants, suggesting substantial impact of recent human population history, including pre-Holocene expansions.

Highlights

The capacity to neutralise the adverse health effects of toxic substances is an important asset which increases “Darwinian” fitness, especially through dietary flexibility, and by improved resistance to environmental poisons
Nineteen genes relevant for detoxification of toxic smoke components and food heating products were identified on the basis of biochemical knowledge of their detoxification mechanism (Tables 1–3), and by screening the epidemiological literature for studies reporting an interactive effect of exposure to these poison categories and polymorphisms in a relevant gene, acting on health parameters affecting reproductive success
For the majority of gene polymorphisms studied (29 out of 36) we found that both the Altai Neanderthal and Denisovan genomes were still homozygous for the ancestral variant observed in chimpanzees and gorilla (Tables 1–3; and S2 Table)

Summary

Methods

The genetic variants occurring in Neanderthal and Denisovan genomes were derived from two high-coverage genomes, one from a Denisovan [22, 23] and one from a Neanderthal individual [24], both found at Denisova cave in Siberia, and estimated to be at least 50 ky old [60], and predating the earliest known Upper Palaeolithic human fossils in Eurasia. The genetic variants occurring in Upper Palaeolithic hunter-gatherers were derived from genomes from two individuals, found at Ust’-Ishim and Mal’ta (MA-1) in Siberia, and respectively dating to around 45 and 24 kya [53, 55], and one from North America (Anzick-1), dating to around 12.6 kya [56]. The variant data of the ethnic individuals were derived from Meyer et al (2012) [23], except for the Yoruba trio, which were retrieved from the March 2010 release of the 1000 Genomes Project [66]

Results

Discussion

Conclusion