Xkr8 Modulates Bipolar Cell Number in the Mouse Retina.

Amanda G Kautzman,Irene E Whitney,Stephanie Leong,Benjamin E Reese,Patrick W Keeley,Caroline R Ackley

doi:10.3389/fnins.2018.00876

Amanda G Kautzman, Irene E Whitney + Show 4 more

Open Access

https://doi.org/10.3389/fnins.2018.00876

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Abstract

The present study interrogated a quantitative trait locus (QTL) on Chr 4 associated with the population sizes of two types of bipolar cell in the mouse retina. This locus was identified by quantifying the number of rod bipolar cells and Type 2 cone bipolar cells across a panel of recombinant inbred (RI) strains of mice derived from two inbred laboratory strains, C57BL/6J (B6/J) and A/J, and mapping a proportion of that variation in cell number, for each cell type, to this shared locus. There, we identified the candidate gene X Kell blood group precursor related family member 8 homolog (Xkr8). While Xkr8 has no documented role in the retina, we localize robust expression in the mature retina via in situ hybridization, confirm its developmental presence via immunolabeling, and show that it is differentially regulated during the postnatal period between the B6/J and A/J strains using qPCR. Microarray analysis, derived from whole eye mRNA from the entire RI strain set, demonstrates significant negative correlation of Xkr8 expression with the number of each of these two types of bipolar cells, and the variation in Xkr8 expression across the strains maps a cis-eQTL, implicating a regulatory variant discriminating the parental genomes. Xkr8 plasmid electroporation during development yielded a reduction in the number of bipolar cells in the retina, while sequence analysis of Xkr8 in the two parental strain genomes identified a structural variant in the 3′ UTR that may disrupt mRNA stability, and two SNPs in the promoter that create transcription factor binding sites. We propose that Xkr8, via its participation in mediating cell death, plays a role in the specification of bipolar cell number in the retina.

Highlights

The sizes of various neuronal populations in the mouse retina have been shown to exhibit little inter-individual variation with a strain, yet there is substantial variation between strains (Keeley et al, 2014b)
The variation in each cell type is graded across the strain set (Figures 1C,D), indicating that each is a complex trait that is controlled by multiple variant genes discriminating the parental strains
The present study has shown that variation in the numbers of two different bipolar cell types each map to an identical genomic locus on Chr 4, where the mapped quantitative trait locus (QTL) accounts for a substantial portion of the overall variation in cell number

Summary

Introduction

The sizes of various neuronal populations in the mouse retina have been shown to exhibit little inter-individual variation with a strain, yet there is substantial variation between strains (Keeley et al, 2014b). Such between-strain variation has been mapped to specific genomic loci, where variant genes modulate biological processes affecting fate determination, differentiation, and cell survival (Whitney et al, 2009, 2011a,b). The numbers of rod and cone photoreceptors show no significant correlation, and the three types of cone bipolar cells are not significantly correlated with each other (Keeley et al, 2014b)

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