The onset of puberty defines a developmental stage when some learning processes are diminished, but the mechanism for this deficit remains unknown. We found that, at puberty, expression of inhibitory α4βδ γ-aminobutyric acid type A (GABA A ) receptors (GABAR) increases perisynaptic to excitatory synapses in CA1 hippocampus. Shunting inhibition via these receptors reduced Nmethyl-D-aspartate receptor activation, impairing induction of long-term potentiation (LTP). Pubertal mice also failed to learn a hippocampal, LTP-dependent spatial task that was easily acquired by δ−/− mice. However, the stress steroid THP (3αOH-5α[β]-pregnan-20-one), which reduces tonic inhibition at puberty, facilitated learning. Thus, the emergence of α4βδ GABARs at puberty impairs learning, an effect that can be reversed by a stress steroid.Certain learning and cognitive processes decline at the onset of puberty (1-3). The pubertal process that shapes this developmental decline is unknown but is likely to involve the hippocampus, which is widely regarded as the site for learning (4-6). In addition to excitatory input, the inhibitory GABAergic (GABA, γ-aminobutyric acid) system plays a pivotal role in shaping developmental plasticity, as in the visual cortex (7), where drugs that target the γ-aminobutyric acid type A (GABA A ) receptor (GABAR) alter the timing of the critical period. The GABAR mediates most central nervous system inhibition and consists of diverse subtypes with distinct properties. Of these, α4βδ GABARs increase at pubertal onset in the mouse hippocampus (8), suggesting that they may shape plasticity here.We employed immunocytochemical, electron microscopic techniques (9) to localize and quantify α4 and δ GABAR subunits on CA1 hippocampal pyramidal cells across the pubertal state of female mice, because females exhibit greater deficits in learning at puberty than males † To whom correspondence should be addressed. sheryl.smith@downstate.edu. * These authors contributed equally to this work. (10,11). We detected immunostaining of both subunits perisynaptic to asymmetric synapses on the plasma membrane of spines of the apical dendrite, which increased up to 700% at puberty ( Fig. 1, A to C, and fig. S1; α4, P = 0.0048; δ, P = 0.00091) (9). In contrast, α4 and δ immunoreactivity on the dendritic shaft increased by less than 100% at puberty ( fig. S2). Functional expression of δ-containing GABAR at puberty was demonstrated by robust responses of pyramidal cells at puberty to 100 nM gaboxadol, which, at this concentration, is selective for this receptor (Fig. 1, D and E) (12). Gaboxadol had no effect before puberty and only a modest effect in the adult hippocampus (Fig. 1, D and E), where α4 and δ expression is lower than at puberty ( fig. S3).Extrasynaptic α4β2δ GABARs on spines could impair voltage-triggered Mg++ unblock of Nmethyl-D-aspartate (NMDA) receptors. Thus, we used whole-cell voltage clamp techniques with blockade of synaptic GABARs (13) to record evoked NMDA excitatory postsynaptic currents (EPSCs) from CA1 ...
