# A new mouse mutant with a discrete mutation in Pcdhgc5 reveals that the Protocadherin γC5 isoform is not essential for dendrite arborization in the cerebral cortex

**Authors:** Camille M. Hanes, David M. Steffen, George C. Murray, Robert W. Burgess, Joshua A. Weiner, Andrew M. Garrett, Xiangming Zha, Xiangming Zha, Xiangming Zha

PMC · DOI: 10.1371/journal.pone.0344863 · 2026-03-12

## TL;DR

A new mouse model shows that the Protocadherin γC5 isoform is not essential for dendrite arborization in the cerebral cortex.

## Contribution

A new mouse mutant specifically targeting Pcdhgc5 reveals the isoform's non-essential role in dendrite arborization.

## Key findings

- γC5 expression begins postnatally and increases in the second week of life.
- No major disruptions in neuronal organization or dendritic arborization were observed in mutants.
- Gene pathways related to synaptic activity and cognition showed significant expression changes.

## Abstract

There are ~ 60 clustered protocadherin (cPcdh) isoforms expressed from three gene clusters (Pcdha, Pcdhb, Pcdhg) arrayed in tandem across nearly 1 Mb in mammals. cPcdhs are homophilic cell adhesion molecules (CAMs) critical for a host of neural developmental functions consistent with a role in cell-cell recognition. Indeed, isoforms make recognition modules in combination to generate recognition diversity far exceeding the ~ 60 individual CAMs. However, there is also growing evidence for specialized functions for specific isoforms, particularly the C-type isoforms found at the 3’ ends of the Pcdha cluster (αC1 and αC2) and at the 3’ end of the Pcdhg cluster (γC3, γC4, and γC5). We have previously described unique roles for γC3 in dendrite arborization in the cerebral cortex and neural circuit formation in the spinal cord, as well as for γC4 in neuronal survival. Here we report a new mouse mutant specifically targeting the Pcdhgc5 exon encoding γC5. Unlike the rest of the Pcdhg cluster, expression of this isoform does not begin until postnatal stages of mouse development, increasing in the second week of life, suggesting specialized roles. We found significant expression changes in gene pathways involved in synaptic activity, learning and memory, and cognition. Despite this, we saw no major disruption in the cerebral cortex in neuronal organization, survival, dendritic arborization, or synaptic protein expression in these mutants. This new model will be an important tool for future studies delineating specific functions for γC5.

## Linked entities

- **Genes:** PCDHGC5 (protocadherin gamma subfamily C, 5) [NCBI Gene 56097], PCDHA@ (protocadherin alpha cluster, complex locus) [NCBI Gene 56117], PCDHB@ (protocadherin beta cluster) [NCBI Gene 56116], PCDHG@ (protocadherin gamma cluster) [NCBI Gene 56115], GC5 (golgin Putative 5) [NCBI Gene 844322], Ankrd48 (ankyrin repeat domain 48) [NCBI Gene 76389], NDRG1 (N-myc downstream regulated 1) [NCBI Gene 10397], ADCY1 (adenylate cyclase 1) [NCBI Gene 107], ADCY2 (adenylate cyclase 2) [NCBI Gene 108]
- **Species:** Mus musculus (taxon 10090)

## Full-text entities

- **Genes:** Adcy1 (adenylate cyclase 1) [NCBI Gene 432530] {aka AC1, D11Bwg1392e, I-AC, brl}, Pcdhg@ (protocadherin gamma cluster) [NCBI Gene 192682], Pcdha@ (protocadherin alpha cluster) [NCBI Gene 192162], Pcdhgc5 (protocadherin gamma subfamily C, 5) [NCBI Gene 93708]
- **Species:** Mus musculus (house mouse, species) [taxon 10090]

## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12981507/full.md

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Source: https://tomesphere.com/paper/PMC12981507