Sex differences in cerebellar synaptic transmission and sex-specific responses to autism-linked Gabrb3 mutations in mice
نویسندگان
چکیده
Neurons of the cerebellar nuclei (CbN) transmit cerebellar signals to premotor areas. The cerebellum expresses several autism-linked genes, including GABRB3, which encodes GABAA receptor β3 subunits and is among the maternal alleles deleted in Angelman syndrome. We tested how this Gabrb3 m-/p+ mutation affects CbN physiology in mice, separating responses of males and females. Wild-type mice showed sex differences in synaptic excitation, inhibition, and intrinsic properties. Relative to females, CbN cells of males had smaller synaptically evoked mGluR1/5-dependent currents, slower Purkinje-mediated IPSCs, and lower spontaneous firing rates, but rotarod performances were indistinguishable. In mutant CbN cells, IPSC kinetics were unchanged, but mutant males, unlike females, showed enlarged mGluR1/5 responses and accelerated spontaneous firing. These changes appear compensatory, since mutant males but not females performed indistinguishably from wild-type siblings on the rotarod task. Thus, sex differences in cerebellar physiology produce similar behavioral output, but provide distinct baselines for responses to mutations.
منابع مشابه
GABAA receptor β3 subunits and is among the maternal alleles deleted in Angelman syndrome
Impact statement: Male and female mice differ in basal cerebellar physiology, including the 19 magnitude of synaptic excitation by metabotropic glutamate receptors, kinetics of synaptic 20 inhibition, intrinsic properties, and responses to autism-linked mutations. Acknowledgments: We are grateful to Professor Theo Palmer (Stanford University) for the kind 34 gift of floxed Gabrb3 mice. We thank...
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