AI Article Synopsis
- GABAergic transmission negatively impacts cell proliferation and promotes dendrite formation during adult neurogenesis, with distinct roles for different GABA(A) receptor subtypes.
- Specific GABA(A) receptors containing α4 subunits influence early stages of neuronal development, while α2 subunits control the positioning and maturation of newborn neurons.
- Pharmacological interventions targeting signaling pathways, like thrombospondin, can mitigate changes in dendritic development observed when specific GABA(A) receptor subunits are absent.
Article Abstract
GABAergic transmission regulates adult neurogenesis by exerting negative feedback on cell proliferation and enabling dendrite formation and outgrowth. Further, GABAergic synapses target differentiating dentate gyrus granule cells prior to formation of glutamatergic connections. GABA(A) receptors (GABA(A) Rs) mediating tonic (extrasynaptic) and phasic (synaptic) transmission are molecularly and functionally distinct, but their specific role in regulating adult neurogenesis is unknown. Using global and single-cell targeted gene deletion of subunits contributing to the assembly of GABA(A) Rs mediating tonic (α4, δ) or phasic (α2) GABAergic transmission, we demonstrate here in the dentate gyrus of adult mice that GABA(A) Rs containing α4, but not δ, subunits mediate GABAergic effects on cell proliferation, initial migration and early dendritic development. In contrast, α2-GABA(A) Rs cell-autonomously signal to control positioning of newborn neurons and regulate late maturation of their dendritic tree. In particular, we observed pruning of distal dendrites in immature granule cells lacking the α2 subunit. This alteration could be prevented by pharmacological inhibition of thrombospondin signaling with chronic gabapentin treatment, shown previously to reduce glutamatergic synaptogenesis. These observations point to homeostatic regulation of inhibitory and excitatory inputs onto newborn granule cells under the control of α2-GABA(A) Rs. Taken together, the availability of distinct GABA(A) R subtypes provides a molecular mechanism endowing spatiotemporal specificity to GABAergic control of neuronal maturation in adult brain.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3996709 | PMC |
| http://dx.doi.org/10.1111/j.1460-9568.2011.07782.x | DOI Listing |
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