Dlx1/2 mice have abnormal enteric nervous system function
Christina M. Wright, James P. Garifallou, Sabine Schneider, Heather L. Mentch, Deepika R. Kothakapa, Beth A. Maguire, Robert O. Heuckeroth
Christina M. Wright, James P. Garifallou, Sabine Schneider, Heather L. Mentch, Deepika R. Kothakapa, Beth A. Maguire, Robert O. Heuckeroth
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Research Article Development Neuroscience

Dlx1/2 mice have abnormal enteric nervous system function

Abstract

Decades ago, investigators reported that mice lacking DLX1 and DLX2, transcription factors expressed in the enteric nervous system (ENS), die with possible bowel motility problems. These problems were never fully elucidated. We found that mice lacking DLX1 and DLX2 (Dlx1/2–/– mice) had slower small bowel transit and reduced or absent neurally mediated contraction complexes. In contrast, small bowel motility seemed normal in adult mice lacking DLX1 (Dlx1–/–). Even with detailed anatomic studies, we found no defects in ENS precursor migration, or neuronal and glial density in Dlx1/2–/– or Dlx1–/– mice. However, RNA sequencing of Dlx1/2–/– ENS revealed dysregulation of many genes, including vasoactive intestinal peptide (Vip). Using immunohistochemistry and reporter mice, we then found that Dlx1/2–/– mice have reduced VIP expression and fewer VIP-lineage neurons in their ENS. Our study reveals what we believe is a novel connection between Dlx genes and Vip and highlights the observation that dangerous bowel motility problems can occur in the absence of easily identifiable ENS structural defects. These findings may be relevant for disorders like chronic intestinal pseudo-obstruction (CIPO) syndrome.

Authors

Christina M. Wright, James P. Garifallou, Sabine Schneider, Heather L. Mentch, Deepika R. Kothakapa, Beth A. Maguire, Robert O. Heuckeroth

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Figure 3

Dlx1/2–/–, Dlx2–/–, and Ret+/– Dlx1/2–/– mice have normal bowel colonization rates by ENCDCs or minimal defects at E12.5. (A and B) Confocal Z-stacks of WT (A) and Dlx1/2–/– (B) E12.5 bowel stained with TuJ1 antibody that labels early and mature neurons (green).

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Dlx1/2–/–, Dlx2–/–, and Ret+/– Dlx1/2–/– mice have normal bowel coloniz...
Maximum intensity projections are shown. White triangles mark distal-most TuJ1+ neuron processes. Scale bar: 1 mm. (C and D) Percentage hindgut colonized relative to total colon length (C; 1-way ANOVA, n = 7 [+/+], n = 13 [+/–], n = 6 [–/–]) and colon length (D; 1-way ANOVA, n = 7 [+/+], n = 13 [+/–], n = 6 [–/–]) were normal in Dlx1/2–/– mutants. (EH) Representative WT (E) and Dlx2–/– (F) E12.5 bowel labeled with TuJ1 antibody. Dlx2–/– mice had a slight delay (66.5 ± 1.5% colonized [+/+] vs. 47.4 ± 5.2% colonized [–/–]) in ENS migration of unknown functional significance (G; P =0.0499; Kruskal-Wallis test with Dunn’s multiple-comparisons test, n = 4 [+/+], n = 15 [+/–], n = 7 [–/–]) and normal colon length (H). (IL) Representative Ret+/– Dlx1/2+/+ (I) and Ret+/– Dlx1/2–/– (J) E12.5 bowel labeled with TuJ1 antibody. Dlx1/2–/– mice on a Ret-heterozygous background had normal extent of bowel colonization (I; 1-way ANOVA, n = 3 per genotype) and normal colon length (L; 1-way ANOVA, n = 3 per genotype). Scale bar: 1 cm. *P < 0.05.