With a long history of coevolution and coadaptation with humans, dogs have developed exquisite and complex heterospecific social and cognitive capabilities. Thus, the domestic dog offers a unique opportunity to understand human brain development and function, especially social and cognitive functions.
Recently, a research team led by Prof. ZHANG Yonging from the Institute of Genetics and Developmental Biology, Chinese Academy of Sciences performed a comparative study of the postnatal development of brain between human, dog and mouse brain. The study was published online in Molecular & Cellular Proteomics on June 20, 2022 (DOI:10.1016/j.mcpro.2022.100261).
The precise spatial and temporal regulation of the expression of proteins, the executors of biological function, is crucial for brain development and function. Postnatal development is as important as embryonic development for brain development. However, only adult human and mouse brains have been systematically analyzed at the proteomic level. The researchers quantitatively profiled the proteomes of six brain regions including cerebellar cortex, olfactory, hippocampus, prefrontal cortex, amygdala, and striatum across 3 postnatal developmental stages: neonatal, juvenile, and adult.
Their results demonstrated that different brain regions have distinct cytoarchitecture, function and myelination progression. The inter-regional expression patterns of orthologous proteins especially those involved in mitochondria-related pathways were similar between dog and human but different between mice and human. The similarity in protein expressions is consistent with the conserved CREF (cis-regulatory element frequency) modules between dog and human.
“We've been working on autism research for more than 15 years. After getting the data, what we really want to know is the spatial expression pattern of psychiatric disease-related proteins among species,” said Prof. ZHANG, a corresponding author of the study.
Many human psychiatric disorders, in which social cognition deficits are a core feature, have apparent canine analogs. “We identified 328 ASD/Scz-associated protein orthologs expressed in the brains of the three species and showed that the inter-regional ASD/Scz protein expression in dog brain was significantly more similar to that in human than in mouse brain,” said Dr. HONG Huilin, first author of the study.
“This study provide important information to guide mechanistic and translational study for human brain diseases using appropriate animal models,” said by Prof. ZHANG Yaping, Member of Chinese Academy of Sciences.
Contact:
Dr. ZHANG Yonging
Institute of Genetics and Developmental Biology, Chinese Academy of Sciences
CAS
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