Cell-autonomous retinoic acid receptor signaling has stage-specific effects on mouse enteric nervous system
Tao Gao, Elizabeth C. Wright-Jin, Rajarshi Sengupta, Jessica B. Anderson, Robert O. Heuckeroth
Tao Gao, Elizabeth C. Wright-Jin, Rajarshi Sengupta, Jessica B. Anderson, Robert O. Heuckeroth
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Research Article Gastroenterology

Cell-autonomous retinoic acid receptor signaling has stage-specific effects on mouse enteric nervous system

Abstract

Retinoic acid (RA) signaling is essential for enteric nervous system (ENS) development, since vitamin A deficiency or mutations in RA signaling profoundly reduce bowel colonization by ENS precursors. These RA effects could occur because of RA activity within the ENS lineage or via RA activity in other cell types. To define cell-autonomous roles for retinoid signaling within the ENS lineage at distinct developmental time points, we activated a potent floxed dominant-negative RA receptor α (RarαDN) in the ENS using diverse CRE recombinase–expressing mouse lines. This strategy enabled us to block RA signaling at premigratory, migratory, and postmigratory stages for ENS precursors. We found that cell-autonomous loss of RA receptor (RAR) signaling dramatically affected ENS development. CRE activation of RarαDN expression at premigratory or migratory stages caused severe intestinal aganglionosis, but at later stages, RarαDN induced a broad range of phenotypes including hypoganglionosis, submucosal plexus loss, and abnormal neural differentiation. RNA sequencing highlighted distinct RA-regulated gene sets at different developmental stages. These studies show complicated context-dependent RA-mediated regulation of ENS development.

Authors

Tao Gao, Elizabeth C. Wright-Jin, Rajarshi Sengupta, Jessica B. Anderson, Robert O. Heuckeroth

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Figure 7

RarαDNLoxP/+; Sox10Cre+ mice had extensive distal bowel aganglionosis.

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RarαDNLoxP/+; Sox10Cre+ mice had extensive distal bowel aganglionosis. ...
(AE) E12.5 control or RarαDNLoxP/+; Sox10Cre+ whole bowel was stained with TuJ1 antibody (red) and DAPI (blue). Insets highlight mutant stomach (C), proximal small intestine (D), and distal small intestine (E). Sparse TuJ1+ nerve cell bodies were seen in the proximal small bowel (D) but not in more distal small bowel (E) of RarαDNLoxP/+; Sox10Cre+ mice. Scale bars: 500 μm (A and B) and 100 μm (CE). (F) Images of either RarαDNLoxP/+ (control) or RarαDNLoxP/+; Sox10Cre+ E15.5 embryos. Note the defective eye and craniofacial development of the mutant embryos. (G and H) E15.5 RarαDNLoxP/+; Sox10Cre+ bowels were stained with TuJ1 (green) and counter-stained with DAPI. Note the TuJ1+ network at proximal small intestine (G) and distal colon (H). Scale bars: 100 μm. (IR) RarαDNLoxP/+ (control) or RarαDNLoxP/+; Sox10Cre+ bowels were stained with HuC/D (red) and TuJ1 (green) antibodies. Representative images of esophagus (I and J), stomach (K and L), proximal small intestine (M and N), distal small intestine (O and P), and end of distal colon (Q and R). Scale bar: 50 μm. (S) Proximal small intestine of E15.5 RarαDNLoxP/+; Sox10Cre+ bowel. Regions outlined by boxes indicate which areas are enlarged in (TV). Note extrinsic nerve fibers (T and U). Scale bars: 500 μm (S) and 50 μm (TV). n = 3, RarαDNLoxP/+ (control); n = 3, RarαDNLoxP/+; Sox10Cre+.