CTNND2 regulation by the SRGAP2 protein family links human evolution to synaptic neoteny
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CC-BY-NC-ND-4.0
Abstract
SUMMARY Human-specific genes are potential drivers of brain evolution. Among them, SRGAP2C has contributed to the emergence of features characterizing human cortical synapses, including their extended period of maturation. SRGAP2C inhibits its ancestral copy, the postsynaptic protein SRGAP2A; yet the synaptic molecular pathways differentially regulated in humans by SRGAP2 proteins remain largely unknown. Here, we identify CTNND2, a protein implicated in severe intellectual disability (ID) in the Cri-du-Chat syndrome, as an SRGAP2 effector. We demonstrate that CTNND2 slows down synaptic maturation and promotes neuronal homeostasis. During postnatal development, CTNND2 moderates neuronal excitation and excitability. In adults, it supports synapse maintenance. While CTNND2 deficiency is deleterious and results in the synaptic loss of SYNGAP1, another major ID-associated protein, the human-specific protein SRGAP2C enhances CTNND2 synaptic accumulation in human neurons. Our findings reveal that CTNND2 regulation by SRGAP2C contributes to synaptic neoteny in humans, and link human-specific and ID genes at the synapse.
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- europepmc
- last seen: 2026-05-19T01:45:01.086888+00:00
- unpaywall
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License: CC-BY-NC-ND-4.0