BAP1 is required prenatally for differentiation and maintenance of postnatal murine enteric nervous system
Sabine Schneider, … , J. William Harbour, Robert O. Heuckeroth
Sabine Schneider, … , J. William Harbour, Robert O. Heuckeroth
Published May 1, 2024
Citation Information: J Clin Invest. 2024;134(9):e177771. https://doi.org/10.1172/JCI177771.
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Research Article Development Gastroenterology

BAP1 is required prenatally for differentiation and maintenance of postnatal murine enteric nervous system

Abstract

Epigenetic regulatory mechanisms are underappreciated, yet are critical for enteric nervous system (ENS) development and maintenance. We discovered that fetal loss of the epigenetic regulator Bap1 in the ENS lineage caused severe postnatal bowel dysfunction and early death in Tyrosinase-Cre Bap1fl/fl mice. Bap1-depleted ENS appeared normal in neonates; however, by P15, Bap1-deficient enteric neurons were largely absent from the small and large intestine of Tyrosinase-Cre Bap1fl/fl mice. Bowel motility became markedly abnormal with disproportionate loss of cholinergic neurons. Single-cell RNA sequencing at P5 showed that fetal Bap1 loss in Tyrosinase-Cre Bap1fl/fl mice markedly altered the composition and relative proportions of enteric neuron subtypes. In contrast, postnatal deletion of Bap1 did not cause enteric neuron loss or impaired bowel motility. These findings suggest that BAP1 is critical for postnatal enteric neuron differentiation and for early enteric neuron survival, a finding that may be relevant to the recently described human BAP1-associated neurodevelopmental disorder.

Authors

Sabine Schneider, Jessica B. Anderson, Rebecca P. Bradley, Katherine Beigel, Christina M. Wright, Beth A. Maguire, Guang Yan, Deanne M. Taylor, J. William Harbour, Robert O. Heuckeroth

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Figure 7

Enteric neuron subtype ratios and gene expression are abnormal at P5 in Tyr-Cre–lineage neurons of TyrBap1 KO mice.

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Enteric neuron subtype ratios and gene expression are abnormal at P5 in ...
(A) UMAP projection of 14 enteric neuron subtypes identified in P5 colon myenteric plexus using unsupervised clustering (Seurat single-cell sequencing analysis pipeline). Each dot represents a single cell, and color indicates neuron subtype (cluster) identity. (B) Violin plots show expression levels of select neuron subtype and precursor markers in each cluster. (C) UMAP projection shown in A. Blue color denotes cells from Bap1wt/wt Tyr-Cre+ (WT) tissue. Red color denotes cells derived from TyrBap1 KO tissue. (D) Percentage of total cells in each individual cluster for WT or TyrBap1 KO. (E) Expression levels of selected genes in individual WT or TyrBap1 KO clusters color-coded by genotype (blue, WT; red, TyrBap1 KO). (F) Expression levels of selected genes across all WT or TyrBap1 KO neurons (blue, WT; red, TyrBap1 KO). (B, E, and F) Expression level represents ln(normalized and scaled expression level) where mean expression level for each gene across all cells in data set is defined as ln(1). (E and F) Bonferroni-corrected statistical significance (defined as P < 0.05) is indicated by asterisks (exact P values are accessible in the Supplemental Data file).