Enhanced lateral inhibition in the barrel cortex by deletion of phospholipase C-related catalytically inactive protein-1/2 in mice.

Hiroki Toyoda, Mitsuru Saito, Hajime Sato, Tsutomu Kawano, Shinpei Kawakami, Hirofumi Yatani, Takashi Kanematsu, Masato Hirata, Youngnam Kang

Index: Pflugers Arch. 467 , 1445-56, (2015)

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Abstract

We previously demonstrated that the deletion of phospholipase C-related catalytically inactive protein-1/2 (PRIP-1/2) enhances the desensitization of GABAA receptors (GABAARs), while it facilitates their resensitization at the offset of GABA puff, causing a hump-like tail current (tail-I) in layer 3 (L3) pyramidal cells (PCs) of the barrel cortex. In the present study, we investigated whether inhibitory synaptic transmission in L3 PCs in the barrel cortex is altered in the PRIP-1/2 double-knockout (PRIP-DKO) mice, and if so, how the interaction between excitation and inhibition is subsequently modified. PRIP-1/2 deletion resulted in the prolongation of the decay phase of inhibitory postsynaptic currents/potentials (IPSCs/IPSPs) in L3 PCs evoked by stimulation of L3, leaving the overall features of miniature IPSCs unchanged. An optical imaging revealed that the spatiotemporal profile of a horizontal excitation spread across columns in L2/3 caused by L4 stimulation in the barrel cortex was more restricted in PRIP-DKO mice compared to the wild type, while those obtained in the presence of bicuculline were almost identical between the two genotypes. These findings suggest that PRIP-1/2 deletion enhances the lateral inhibition by prolonging inhibitory synaptic actions to limit the intercolumnar integration in the barrel cortex. Considering the present findings together with our previous study including a mathematical simulation, the prolongation of inhibitory synaptic actions is likely to result from an enhancement of desensitization followed by an enhanced resensitization in GABAARs.