Functional synergy of a human-specific and an ape-specific metabolic regulator 
in human neocortex development

Xing, Lei; Gkini, Vasiliki; Nieminen, Anni I.; Zhou, Hui-Chao; Aquilino, Matilde; Naumann, Ronald; Reppe, Katrin; Tanaka, Kohichi; Carmeliet, Peter; Heikinheimo, Oskari; Pääbo, Svante; Huttner, Wieland B.; Namba, Takashi

doi:10.1038/s41467-024-47437-8

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Functional synergy of a human-specific and an ape-specific metabolic regulator in human neocortex development

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Pääbo, Svante
Department of Evolutionary Genetics, Max Planck Institute for Evolutionary Anthropology, Max Planck Society;

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Citation

Xing, L., Gkini, V., Nieminen, A. I., Zhou, H.-C., Aquilino, M., Naumann, R., et al. (2024). Functional synergy of a human-specific and an ape-specific metabolic regulator in human neocortex development. Nature Communications, 15: 3468. doi:10.1038/s41467-024-47437-8.

Cite as: https://hdl.handle.net/21.11116/0000-000F-3971-2

Abstract

Metabolism has recently emerged as a major target of genes implicated in the evolutionary expansion of human neocortex. One such gene is the human-specific gene ARHGAP11B. During human neocortex development, ARHGAP11B increases the abundance of basal radial glia, key progenitors for neocortex expansion, by stimulating glutaminolysis (glutamine-to-glutamate-to-alpha-ketoglutarate) in mitochondria. Here we show that the ape-specific protein GLUD2 (glutamate dehydrogenase 2), which also operates in mitochondria and converts glutamate-to-αKG, enhances ARHGAP11B’s ability to increase basal radial glia abundance. ARHGAP11B + GLUD2 double-transgenic bRG show increased production of aspartate, a metabolite essential for cell proliferation, from glutamate via alpha-ketoglutarate and the TCA cycle. Hence, during human evolution, a human-specific gene exploited the existence of another gene that emerged during ape evolution, to increase, via concerted changes in metabolism, progenitor abundance and neocortex size.