Serotonin transporter variant drives preventable gastrointestinal abnormalities in development and function
Kara Gross Margolis, … , Randy D. Blakely, Michael D. Gershon
Kara Gross Margolis, … , Randy D. Blakely, Michael D. Gershon
Published April 25, 2016
Citation Information: J Clin Invest. 2016;126(6):2221-2235. https://doi.org/10.1172/JCI84877.
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Research Article Gastroenterology

Serotonin transporter variant drives preventable gastrointestinal abnormalities in development and function

Abstract

Autism spectrum disorder (ASD) is an increasingly common behavioral condition that frequently presents with gastrointestinal (GI) disturbances. It is not clear, however, how gut dysfunction relates to core ASD features. Multiple, rare hyperfunctional coding variants of the serotonin (5-HT) transporter (SERT, encoded by SLC6A4) have been identified in ASD. Expression of the most common SERT variant (Ala56) in mice increases 5-HT clearance and causes ASD-like behaviors. Here, we demonstrated that Ala56-expressing mice display GI defects that resemble those seen in mice lacking neuronal 5-HT. These defects included enteric nervous system hypoplasia, slow GI transit, diminished peristaltic reflex activity, and proliferation of crypt epithelial cells. An opposite phenotype was seen in SERT-deficient mice and in progeny of WT dams given the SERT antagonist fluoxetine. The reciprocal phenotypes that resulted from increased or decreased SERT activity support the idea that 5-HT signaling regulates enteric neuronal development and can, when disturbed, cause long-lasting abnormalities of GI function. Administration of a 5-HT4 agonist to Ala56 mice during development prevented Ala56-associated GI perturbations, suggesting that excessive SERT activity leads to inadequate 5-HT4–mediated neurogenesis. We propose that deficient 5-HT signaling during development may contribute to GI and behavioral features of ASD. The consequences of therapies targeting SERT during pregnancy warrant further evaluation.

Authors

Kara Gross Margolis, Zhishan Li, Korey Stevanovic, Virginia Saurman, Narek Israelyan, George M. Anderson, Isaac Snyder, Jeremy Veenstra-VanderWeele, Randy D. Blakely, Michael D. Gershon

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Figure 5

Sympathetic hyperactivity slows intestinal motility in SERTKO mice.

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Sympathetic hyperactivity slows intestinal motility in SERTKO mice. Symp...
Sympathetic hyperactivity slowed intestinal motility in SERTKO mice (n = 6–9/group for in vivo motility, 2 trials, and 12/group for peristalsis). (A) GIT measured in vivo. Total GI transit in WT and SERTKO mice was not significantly different. 6-OHDA accelerated transit in both. (B) Gastric emptying. SERTKO and WT mice were not significantly different. (C) Small intestinal transit. Transit was significantly slower in SERTKO than in WT mice. 6-OHDA did not affect transit in WT mice but eliminated slow transit in SERTKO mice. (D) Colonic motility. More time was required for bead ejection in SERTKO than in WT mice. 6-OHDA did not affect motility in WT mice but eliminated slow bead ejection in SERTKO animals. (E and F) WT (E) and SERT Ala56 (F). Typical spatiotemporal maps showing CMMCs in isolated colon as in Figure 4. (G) CMMC frequency. (H) CMMC velocity. (I) CMMC length of propagation. Student’s unpaired t test and 1-way ANOVA were used, respectively, to compare single and multiple means. For the box-and-whisker plot, the boxes represent the first and third quartiles, the whiskers are 95% confidence interval, and the lines within the boxes are median values.