Vagal oxytocin receptors are necessary for esophageal motility and function
Mohammed Asker, Jean-Philippe Krieger, Ivana Maric, Emre Bedel, Jenny Steen, Stina Börchers, Yuxiang Wen, Francesco Longo, Patrik Aronsson, Michael Winder, Robert P. Doyle, Matthew R. Hayes, Karolina P. Skibicka
Mohammed Asker, Jean-Philippe Krieger, Ivana Maric, Emre Bedel, Jenny Steen, Stina Börchers, Yuxiang Wen, Francesco Longo, Patrik Aronsson, Michael Winder, Robert P. Doyle, Matthew R. Hayes, Karolina P. Skibicka
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Research Article Gastroenterology Neuroscience

Vagal oxytocin receptors are necessary for esophageal motility and function

Abstract

Oxytocin plays a key role in reproductive physiology but has recently garnered interest for its involvement in modulating feeding behavior. The vagus nerve contributes to feeding behavior control, as well as other gastrointestinal functions. Oxytocin receptors (OTR) are expressed on the vagus, but their role is poorly understood. Herein, we evaluated the contribution of the vagal OTR to food intake and body weight control in male and female rats. Virogenetic knockdown of vagal OTR resulted in reduced body weight and food intake in male rats. Loss of OTR in the vagus also resulted in suppressed locomotor activity in males but hyperactivity in females. Importantly, rats with vagal OTR knockdown, but not controls, exhibited a significantly elevated mortality rate starting 4 weeks after knockdown, with males being disproportionately affected. Mortality followed large eating bouts and was accompanied by abnormal presence of food in the mouth and esophagus, suggesting death by aspiration or food in the airways and suggesting a crucial role of vagal OTR in upper gastrointestinal tract motility. Furthermore, in vivo experiments revealed impaired esophageal transit. Ex vivo findings indicated oxytocin’s contribution to lower esophageal sphincter contraction. Our findings demonstrated a critical role for the oxytocin system: essential function of vagal OTR for esophageal transit and swallowing.

Authors

Mohammed Asker, Jean-Philippe Krieger, Ivana Maric, Emre Bedel, Jenny Steen, Stina Börchers, Yuxiang Wen, Francesco Longo, Patrik Aronsson, Michael Winder, Robert P. Doyle, Matthew R. Hayes, Karolina P. Skibicka

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Figure 1

OTR knockdown in nodose ganglia affects body weight, food intake, and mortality in rats, in a sex-specific manner.

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OTR knockdown in nodose ganglia affects body weight, food intake, and mo...
(A) Diagram of the experimental design showing nodose ganglia injections with either scrambled (AAV.shR.OXTRscr.EGFP) or OTR knockdown (AAV.shR.OXTR.EGFP) viruses. (B) Confocal microscopy image showing EGFP-labeled viral expression in the nodose ganglia. Scale bar: 50 μm. (C) qPCR analysis confirms a significant reduction in OTR expression in the nodose ganglia after injection, normalized to GAPDH. (DF) Nodose OTR knockdown results in a significant reduction in body weight gain in males but not in females. (GI) OTR knockdown also significantly reduced food intake in males but not in females. (J and K) Kaplan-Meier survival analysis shows increased mortality in males with OTR knockdown compared with controls, whereas females were less affected by the nodose OTR loss. Data are shown as mean ± SEM and analyzed by 2-way ANOVA and post hoc Holm-Šidák tests unless otherwise stated; n = 11–12 for females and 7–13 for males. *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001.