Increased dendritic inhibition of dentate gyrus granule cells in a mouse model of Down syndrome
Nicole Gutmann, Ute Häussler, Anabel Mersi, Marie Follo, Josef Bischofberger, Jan M. Schulz

TL;DR
This study finds increased dendritic inhibition in a mouse model of Down syndrome, specifically from cholecystokinin interneurons in the dentate gyrus.
Contribution
The study reveals a novel imbalance in dendritic inhibition from CCK interneurons in Down syndrome mouse models.
Findings
Optogenetically evoked IPSCs from CCK interneurons in Ts65Dn mice showed increased amplitude compared to euploid mice.
Quantitative analysis showed a significantly higher number of CCK interneuron terminals in the inner molecular layer of Ts65Dn mice.
PV interneuron-mediated somatic inhibition was reduced in Ts65Dn mice.
Abstract
Down syndrome is the most common genetic neurodevelopmental disorder associated with mild-to-moderate intellectual disability. A disturbed excitation-inhibition balance is thought to be a major cause for the intellectual deficits in DS. In this study, we used patch-clamp electrophysiology, optogenetic stimulation and immunohistochemistry to investigate synaptic inhibition from specific interneuron subpopulations onto granule cells of the dentate gyrus in Ts65Dn mice. Optogenetically evoked inhibitory postsynaptic currents (IPSCs) from somatostatin (SOM) interneurons onto dendrites of granule cells in the outer molecular layer (ML) did not differ between euploid (Eu) and Ts65Dn mice, indicating normal distal dendritic inhibition in Ts65Dn mice. In addition, optogenetically evoked IPSCs from parvalbumin (PV) interneurons were significantly reduced, indicating reduced functional somatic…
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Taxonomy
TopicsNeuroscience and Neuropharmacology Research · Down syndrome and intellectual disability research · Memory and Neural Mechanisms
