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A cross-species proteomic map reveals neoteny of human synapse development.

Nature (2023-09-14)
Li Wang, Kaifang Pang, Li Zhou, Arantxa Cebrián-Silla, Susana González-Granero, Shaohui Wang, Qiuli Bi, Matthew L White, Brandon Ho, Jiani Li, Tao Li, Yonatan Perez, Eric J Huang, Ethan A Winkler, Mercedes F Paredes, Rothem Kovner, Nenad Sestan, Alex A Pollen, Pengyuan Liu, Jingjing Li, Xianhua Piao, José Manuel García-Verdugo, Arturo Alvarez-Buylla, Zhandong Liu, Arnold R Kriegstein
RESUMEN

The molecular mechanisms and evolutionary changes accompanying synapse development are still poorly understood1,2. Here we generate a cross-species proteomic map of synapse development in the human, macaque and mouse neocortex. By tracking the changes of more than 1,000 postsynaptic density (PSD) proteins from midgestation to young adulthood, we find that PSD maturation in humans separates into three major phases that are dominated by distinct pathways. Cross-species comparisons reveal that human PSDs mature about two to three times slower than those of other species and contain higher levels of Rho guanine nucleotide exchange factors (RhoGEFs) in the perinatal period. Enhancement of RhoGEF signalling in human neurons delays morphological maturation of dendritic spines and functional maturation of synapses, potentially contributing to the neotenic traits of human brain development. In addition, PSD proteins can be divided into four modules that exert stage- and cell-type-specific functions, possibly explaining their differential associations with cognitive functions and diseases. Our proteomic map of synapse development provides a blueprint for studying the molecular basis and evolutionary changes of synapse maturation.

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Monoclonal Anti-Synaptophysin antibody produced in mouse, clone SVP-38, ascites fluid
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Anticuerpo anti-receptor 1 de glutamato, from rabbit, purified by affinity chromatography
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Anticuerpo anti-Beta Pix, dominio SH3, from rabbit, purified by affinity chromatography