PROJECT SUMMARY This NIH ORIP K01 award application describes a 5-year training plan designed to allow me to gain additional skill and knowledge so that I can transition to an independent R01-funded tenure track research scientist. In carrying out the proposed research and career development plan, I will add to my scientific repertoire and acquire expertise in intestinal stem cell biology, microbiome, and microfluidic organ-on-chip technology. Using this newly acquired expertise, I will establish a scientific niche that will set me apart from my mentors and pave the way to a robust, extramurally funded research program. With the support of my mentoring team, I have designed a robust research program that leverages my extensive expertise with comparative gastroenterology and molecular biology. Specifically, Aim 1 will demonstrate molecular and genetic alterations affecting canine IBD following the development and validation of a patient-specific IBD model that can quantitatively assess the cellular and molecular signature of host-microbiome crosstalk. Aim 2. will allow mapping of the microbial signature and epithelial integrity in response to the host-microbiome intercellular crosstalk by utilizing single-cell level multi-omics (especially genomics and transcriptomics) and RNA in situ hybridization. Consistent with the ORIP’s mission statements promoting veterinary scientists to employ their expertise in comparative medicine to investigate human diseases, my research will allow me to use my expertise in comparative gastroenterology as well as in primary stem cell culture to investigate alterations in intestinal homeostasis relevant to Inflammatory Bowel Disease. Also, as ORIP supports animal modeling of human diseases, I will be using the dog as a spontaneous animal model to investigate the effect of gut microbiota in the intestinal epithelium given their genetic and physiological similarity to humans. The results generated in this proposal have direct implications for human diseases, since they will provide new insights into genetic and transcriptomic alterations initiating or maintaining the chronic inflammation in the gut. Such findings can be applied to various chronic conditions that have been epidemiologically associated with microbiome dysbiosis and disturbances of intestinal health (i.e., Colorectal Cancer, Diabetes Mellitus, and Alzheimer’s Disease, to name a few). This knowledge may be applied to understand disease development and novel therapies aimed at modifying intestinal homeostasis via perturbation of epithelium-microbiome-immune axis in the intestine. In summary, the training goals and career development activities proposed in this application will promote my successful transition into independent research directions.

PROJECT NARRATIVE The role of the gut microbiome in both canine and human inflammatory bowel disease (IBD) has been poorly understood because a patient specific experimental model that can reflect genetic heterogeneity and host- microbiome dynamics do not exist. My research proposes to develop a translational, patient-specific IBD Chip by integrating a microfluidic gut-on-a-chip and canine patient-derived intestinal organoids to recapitulate epithelium-microbiome-immune axis. The ultimate goal is to map the intestinal epithelium-microbiome crosstalk relevant to IBD by leveraging the single-cell multi-omics analysis while validating the findings with RNA in situ hybridization, which may lead to a broader impact on uncovering the underlying disease mechanism and developing new targeted anti-inflammatory drugs.