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The level of protein in the maternal murine diet modulates the facial appearance of the offspring via mTORC1 signaling. | LitMetric

AI Article Synopsis

  • - The study investigates how craniofacial skeletal structures develop and how understanding this could improve treatments for congenital malformations through genome-wide RNA transcription analysis from human embryonic facial mesenchyme.
  • - Researchers identified active regulatory elements linked to the PI3/AKT/mTORC1/autophagy pathway and tested its role in craniofacial development using genetic and pharmacological methods in mice and zebrafish.
  • - Findings suggest that mTORC1 signaling influences craniofacial formation in response to environmental factors, particularly nutrition, highlighting its potential role in facial shape variations and developmental plasticity.

Article Abstract

The development of craniofacial skeletal structures is fascinatingly complex and elucidation of the underlying mechanisms will not only provide novel scientific insights, but also help develop more effective clinical approaches to the treatment and/or prevention of the numerous congenital craniofacial malformations. To this end, we performed a genome-wide analysis of RNA transcription from non-coding regulatory elements by CAGE-sequencing of the facial mesenchyme of human embryos and cross-checked the active enhancers thus identified against genes, identified by GWAS for the normal range human facial appearance. Among the identified active cis-enhancers, several belonged to the components of the PI3/AKT/mTORC1/autophagy pathway. To assess the functional role of this pathway, we manipulated it both genetically and pharmacologically in mice and zebrafish. These experiments revealed that mTORC1 signaling modulates craniofacial shaping at the stage of skeletal mesenchymal condensations, with subsequent fine-tuning during clonal intercalation. This ability of mTORC1 pathway to modulate facial shaping, along with its evolutionary conservation and ability to sense external stimuli, in particular dietary amino acids, indicate that the mTORC1 pathway may play a role in facial phenotypic plasticity. Indeed, the level of protein in the diet of pregnant female mice influenced the activity of mTORC1 in fetal craniofacial structures and altered the size of skeletogenic clones, thus exerting an impact on the local geometry and craniofacial shaping. Overall, our findings indicate that the mTORC1 signaling pathway is involved in the effect of environmental conditions on the shaping of craniofacial structures.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10965948PMC
http://dx.doi.org/10.1038/s41467-024-46030-3DOI Listing

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