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How human brain development diverged from great apes - Phys.org

How human brain development diverged from great apes
Drawing of a chimpanzee by Cuban artist Enrique Guisado Triay, currently based out of Leipzig, Germany. Credit: Enrique Guisado Triay

Researchers from the Max Planck Institute for Evolutionary Anthropology in Leipzig, Germany, Institute of Molecular and Clinical Ophthalmology Basel, and ETH Zurich, Switzerland, have presented new insights into the development of the human brain and differences in this process compared to other great apes. The study reveals features of brain development that are unique to humans, and outlines how these processes have diverged from those in other primates.

Since humans diverged from a common ancestor shared with chimpanzees and the other great apes, the has changed dramatically. However, the genetic and developmental processes responsible for this divergence are not understood. Cerebral organoids (brain-like tissues), grown from stem cells in a dish, offer the possibility to study the evolution of early brain development in the laboratory.

Sabina Kanton, Michael James Boyle and Zhisong He, co-first authors of the study, together with Gray Camp, Barbara Treutlein and colleagues analyzed human through their development from to explore the dynamics of gene expression and regulation using methods called single-cell RNA-seq and ATAC-seq. The authors also examined chimpanzee and macaque cerebral organoids to understand how organoid development differs in humans.

"We observed more pronounced cortical neuron maturation in chimpanzee and macaque organoids compared to human organoids at the same point of development," said co-senior author Barbara Treutlein. "This would suggest that human neuronal development takes place more slowly than in the other two primates."

Human-specific gene expression and regulation

The researchers also identified exhibiting expression patterns that are unique to humans during the generation and maturation of neurons. Gene expression can be regulated by the accessibility of DNA, which can be in an open or compact state. Many of the that the authors identified could be linked to nearby changes in accessibility of the human genome. Most of the differentially accessible regions harbor mutations that are shared among all humans living today, some of which may be responsible for observed changes in DNA accessibility and gene expression. "Some are predicted to alter transcription factor binding, proving a potential explanation of how these gene expression differences occur," said Gray Camp, co-senior author of the study. "Among the gene regulation changes we identified could be those contributing to the larger brain and cognitive abilities observed in humans relative to other primates."

The authors further investigated human-specific gene expression in the adult prefrontal cortex, a region of the brain that has increased in size in humans and is believed to influence complex cognitive behaviors. They identified developmental differences in that persist into adulthood, as well as changes exclusive to the adult brain in specific cell types. "Our data provide a resource to guide further research into the mechanisms of gene regulation dynamics during early brain development, especially those potentially distinguishing developing human and chimpanzee brains," conclude the authors.

How human brain development diverged from great apes
Chimpanzee cerebral organoids in a petri dish. Credit: Sabina Kanton, MPI f. Evolutionary Anthropology

The study is published in Nature.


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Differing division rates of brain stem cells

More information: Organoid single-cell genomic atlas uncovers human-specific features of brain development, Nature, DOI: 10.1038/s41586-019-1654-9 , https://www.nature.com/articles/s41586-019-1654-9
Provided by Max Planck Society

Citation: How human brain development diverged from great apes (2019, October 17) retrieved 17 October 2019 from https://phys.org/news/2019-10-human-brain-diverged-great-apes.html

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