Exposure to the Amino Acids Histidine, Lysine, and Threonine Reduces mTOR Activity and Affects Neurodevelopment in a Human Cerebral Organoid Model

A.B. van Berlekom, R. Kübler, J.W. Hoogeboom, D. Vonk, J.A. Sluijs, R.J. Pasterkamp, J. Middeldorp, A.D. Kraneveld, J. Garssen, R.S. Kahn, E.M. Hol, L.D. de Witte, M.P. Boks

Research output: Contribution to JournalArticleAcademicpeer-review

Abstract

© 2022 by the authors. Licensee MDPI, Basel, Switzerland.Evidence of the impact of nutrition on human brain development is compelling. Previous in vitro and in vivo results show that three specific amino acids, histidine, lysine, and threonine, synergistically inhibit mTOR activity and behavior. Therefore, the prenatal availability of these amino acids could be important for human neurodevelopment. However, methods to study the underlying mechanisms in a human model of neurodevelopment are limited. Here, we pioneer the use of human cerebral organoids to investigate the impact of amino acid supplementation on neurodevelopment. In this study, cerebral organoids were exposed to 10 mM and 50 mM of the amino acids threonine, histidine, and lysine. The impact was determined by measuring mTOR activity using Western blots, general cerebral organoid size, and gene expression by RNA sequencing. Exposure to threonine, histidine, and lysine led to decreased mTOR activity and markedly reduced organoid size, supporting findings in rodent studies. RNA sequencing identified comprehensive changes in gene expression, with enrichment in genes related to specific biological processes (among which are mTOR signaling and immune function) and to specific cell types, including proliferative precursor cells, microglia, and astrocytes. Altogether, cerebral organoids are responsive to nutritional exposure by increasing specific amino acid concentrations and reflect findings from previous rodent studies. Threonine, histidine, and lysine exposure impacts the early development of human cerebral organoids, illustrated by the inhibition of mTOR activity, reduced size, and altered gene expression.
Original languageEnglish
Article number2175
JournalNutrients
Volume14
Issue number10
DOIs
Publication statusPublished - 1 May 2022
Externally publishedYes

Funding

Funding: This work was supported by the ZonMw Meer Kennis met Minder Dieren grant. Materials for this study were funded by Danone Nutricia Research.

FundersFunder number
ZonMw Meer Kennis met Minder Dieren
Danone Nutricia Research

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