Abstract
Administration of dextran sodium sulfate (DSS) to rodents at varying concentrations and exposure times is commonly used to model human inflammatory bowel disease (IBD). Currently, the criteria used to assess IBD-like pathology seldom include surrogate measures of visceral pain. Thus, we sought to standardize the model and then identify surrogate measures to assess effects on visceral pain. We used various 4% DSS protocols and evaluated effects on weight loss, colon pathology, biochemistry, RNA signature, and open field behavior. We then tested the therapeutic potential of NPY Y1 and/or Y2 receptor inhibition for the treatment of IBD pathology using this expanded panel of outcome measures. DSS caused weight loss and colon shrinkage, increased colon NPY and inflammatory cytokine expression, altered behaviors in the open field and induced a distinct gene metasignature that significantly overlapped with that of human IBD patients. Inhibition of Y1 and/or Y2 receptors failed to improve gross colon pathology. Y1 antagonism significantly attenuated colon inflammatory cytokine expression without altering pain-associated behaviors while Y2 antagonism significantly inhibited pain-associated behaviors in spite of a limited effect on inflammatory markers. A protocol using 7 days of 4% DSS most closely modeled human IBD pathology. In this model, rearing behavior potentially represents a tool for evaluating visceral pain/discomfort that may be pharmacologically dissociable from other features of pathology. The finding that two different NPY receptor antagonists exhibited different efficacy profiles highlights the benefit of including a variety of outcome measures in IBD efficacy studies to most fully evaluate the therapeutic potential of experimental treatments.
Highlights
Inflammatory bowel disease (IBD) is characterized by chronic inflammation of the gastrointestinal (GI) tract and includes Crohn’s disease (CD) and ulcerative colitis (UC)
While previous studies have reported amelioration, attenuation, and modulation of DSSinduced colon structural damage and inflammation by pharmacologically or genetically inhibiting the Neuropeptide Y (NPY) system systemically [30, 31, 39], our findings suggest that Y2 receptor inhibition does not alter any of the traditionally evaluated aspects of dextran sodium sulfate (DSS)-induced colitis and Y1 inhibition failed to protect against colon structural damage
Administration of DSS to male C57Bl/6 mice produces acute, chronic and relapsing models of human inflammatory bowel disease (IBD). While this is a widely used experimental model, standardized protocols that allow for comparison among independent studies are lacking, as are surrogate measures of visceral pain, a hallmark of human IBD that results in reduced quality of life for patients
Summary
Inflammatory bowel disease (IBD) is characterized by chronic inflammation of the gastrointestinal (GI) tract and includes Crohn’s disease (CD) and ulcerative colitis (UC). Several experimental models of IBD have been developed [6,7,8,9] including the dextran sodium sulfate (DSS)-induced model of colon pathology. While the flexibility of the DSS model is one of its strengths, the lack of both a standardized DSS protocol and an in-depth characterization of its sequelae are gaps in the colitis literature. These gaps are problematic when attempting to compare results from studies using different DSS protocol variations, especially in the context of assessing the therapeutic value of novel pharmacological agents
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