T-Type Ca Channels Mediate a Critical Period of Plasticity in Adult-Born Granule Cells

Overview

Journal J Neurosci

Specialty Neurology

Date 2024 Feb 27

PMID 38413230

Authors

William M Kennedy

Jose Carlos Gonzalez

Haeun Lee

Jacques I Wadiche

Linda Overstreet-Wadiche

Affiliations

Soon will be listed here.

Abstract

Adult-born granule cells (abGCs) exhibit a transient period of elevated synaptic plasticity that plays an important role in hippocampal function. Various mechanisms have been implicated in this critical period for enhanced plasticity, including minimal GABAergic inhibition and high intrinsic excitability conferred by T-type Ca channels. Here we assess the contribution of synaptic inhibition and intrinsic excitability to long-term potentiation (LTP) in abGCs of adult male and female mice using perforated patch recordings. We show that the timing of critical period plasticity is unaffected by intact GABAergic inhibition such that 4-6-week-old abGCs exhibit LTP that is absent by 8 weeks. Blocking GABA receptors, or partial blockade of GABA release from PV and nNos-expressing interneurons by a µ-opioid receptor agonist, strongly enhances LTP in 4-week-old GCs, suggesting that minimal inhibition does not underlie critical period plasticity. Instead, the closure of the critical period coincides with a reduction in the contribution of T-type Ca channels to intrinsic excitability, and a selective T-type Ca channel antagonist prevents LTP in 4-week-old but not mature GCs. Interestingly, whole-cell recordings that facilitate T-type Ca channel activity in mature GCs unmasks LTP (with inhibition intact) that is also sensitive to a T-type Ca channel antagonist, suggesting T-type channel activity in mature GCs is suppressed by native intracellular signaling. Together these results show that abGCs use T-type Ca channels to overcome inhibition, providing new insight into how high intrinsic excitability provides young abGCs a competitive advantage for experience-dependent synaptic plasticity.

Citing Articles

The Suprapyramidal and Infrapyramidal Blades of the Dentate Gyrus Exhibit Different GluN Subunit Content and Dissimilar Frequency-Dependent Synaptic Plasticity In Vivo.

Strauch C, Boge J, Shchyglo O, Dubovyk V, Manahan-Vaughan D Hippocampus. 2025; 35(2):e70002.

PMID: 39994965 PMC: 11850964. DOI: 10.1002/hipo.70002.

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