Brain size, gut size and cognitive abilities: the energy trade-offs tested in artificial selection experiment

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Abstract

The enlarged brains of homeotherms bring behavioural advantages, but also incur high energy expenditures. The 'expensive brain' (EB) hypothesis posits that the energetic costs of the enlarged brain and the resulting increased cognitive abilities (CA) were met by either increased energy turnover or reduced allocation to other expensive organs, such as the gut. We tested the EB hypothesis by analysing correlated responses to selection in an experimental evolution model system, which comprises line types of laboratory mice selected for high or low basal metabolic rate (BMR), maximum (VO2max) metabolic rates and random-bred (unselected) lines. The traits are implicated in the evolution of homeothermy, having been pre-requisites for the encephalization and exceptional CA of mammals, including humans. High-BMR mice had bigger guts, but not brains, than mice of other line types. Yet, they were superior in the cognitive tasks carried out in both reward and avoidance learning contexts and had higher neuronal plasticity (indexed as the long-term potentiation) than their counterparts. Our data indicate that the evolutionary increase of CA in mammals was initially associated with increased BMR and brain plasticity. It was also fuelled by an enlarged gut, which was not traded off for brain size.

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Goncerzewicz, A., Górkiewicz, T., Dzik, J. M., Jędrzejewska-Szmek, J., Knapska, E., & Konarzewski, M. (2022). Brain size, gut size and cognitive abilities: the energy trade-offs tested in artificial selection experiment. Proceedings of the Royal Society B: Biological Sciences, 289(1972). https://doi.org/10.1098/rspb.2021.2747

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