Physiology - Research Publications

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    Colonic dilation and altered ex vivo gastrointestinal motility in the neuroligin-3 knockout mouse
    Leembruggen, AJL ; Balasuriya, GK ; Zhang, J ; Schokman, S ; Swiderski, K ; Bornstein, JC ; Nithianantharajah, J ; Hill-Yardin, EL (WILEY, 2020-05)
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    Spatiotemporal Mapping Reveals Regional Gastrointestinal Dysfunction in mdx Dystrophic Mice Ameliorated by Oral L-arginine Supplementation
    Swiderski, K ; Bindon, R ; Trieu, J ; Naim, T ; Schokman, S ; Swaminathan, M ; Leembruggen, AJL ; Hill-Yardin, EL ; Koopman, R ; Bornstein, JC ; Lynch, GS (KOREAN SOC NEUROGASTROENTEROLOGY & MOTILITY, 2020-01)
    BACKGROUND/AIMS: Patients with Duchenne muscular dystrophy exhibit significant, ongoing impairments in gastrointestinal (GI) function likely resulting from dysregulated nitric oxide production. Compounds increasing neuronal nitric oxide synthase expression and/or activity could improve GI dysfunction and enhance quality of life for dystrophic patients. We used video imaging and spatiotemporal mapping to identify GI dysfunction in mdx dystrophic mice and determine whether dietary intervention to enhance nitric oxide could alleviate aberrant colonic activity in muscular dystrophy. METHODS: Four-week-old male C57BL/10 and mdx mice received a specialized diet either with no supplementation (control) or supplemented (1 g/kg/day) with L-alanine, L-arginine, or L-citrulline for 8 weeks. At the conclusion of treatment, mice were sacrificed by cervical dislocation and colon motility examined by spatiotemporal (ST) mapping ex vivo. RESULTS: ST mapping identified increased contraction number in the mid and distal colon of mdx mice on control and L-alanine supplemented diets relative to C57BL/10 mice (P < 0.05). Administration of either L-arginine or L-citrulline attenuated contraction number in distal colons of mdx mice relative to C57BL/10 mice. CONCLUSIONS: GI dysfunction in Duchenne muscular dystrophy has been sadly neglected as an issue affecting quality of life. ST mapping identified regional GI dysfunction in the mdx dystrophic mouse. Dietary interventions to increase nitric oxide signaling in the GI tract reduced the number of colonic contractions and alleviated colonic constriction at rest. These findings in mdx mice reveal that L-arginine can improve colonic motility and has potential therapeutic relevance for alleviating GI discomfort, improving clinical care, and enhancing quality of life in Duchenne muscular dystrophy.