Research Interest: Gastrointestinal Biology
Name | PhD Program | Research Interest | Publications |
---|---|---|
Graves, Christina WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
Fundamentally, our research is focused on how the nervous and immune systems are developmentally educated by infectious and non-infectious stressors across the “gum-to-gut” axis. One current major focus of the lab is to elucidate how early life stress impacts the developing gut and dentition using zebrafish as an ideal — and translational — model organism. We utilize a combination of advanced imaging, next-generation sequencing, and genetic approaches to achieve a greater understanding of how early life events dictate health outcomes across the lifespan and generations. In addition to these primary research interests, we maintain active collaborations with other groups within the Adams School of Dentistry and across campus. |
McCauley, Heather WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
The McCauley Lab is interested in how the food we eat changes our physiology. Rare, nutrient sensing cells in the intestine called enteroendocrine cells secrete hormones in response to environmental cues that orchestrate systemic metabolism. How these cells regulate their neighbors in the gut is not well understood. We use mouse models which lack enteroendocrine cells and human pluripotent stem cell derived intestinal organoids to discover new roles for these master metabolic cells in the regulation of intestinal physiology and function. Enteroendocrine cells are dysregulated in inflammatory bowel disease, type 2 diabetes, and obesity, and loss of enteroendocrine cells results in malabsorptive diarrhea with poor survival. Our research has the potential to improve human health for a wide segment of the global population. |
Good, Misty WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
The Good Laboratory is focused on the cellular and molecular mechanisms involved in the pathogenesis of a devastating intestinal disease primarily affecting premature infants called necrotizing enterocolitis (NEC). The long-term goal of the Good Lab is to understand the signaling pathways regulating the uncontrolled immune response in NEC and how these responses can be prevented through dietary modifications or targeted intestinal epithelial therapies. Her basic and translational research utilizes a bench-to-bedside approach with multiple cutting-edge techniques. In her pre-clinical studies, their team utilizes a humanized neonatal mouse model of NEC to understand the signaling pathways and immune cell responses involved in NEC development. Specifically, the laboratory interrogates ways to modulate the immune response, epithelial cell and stem cell regeneration as well as early microbial colonization during NEC. In the clinical component of her research program, Dr. Good leads a large multi-center NEC biorepository for the dedicated pursuit of molecular indicators of disease and to gain greater pathophysiologic insights during NEC in humans. Dr. Good also developed a premature infant intestine-on-a-chip model to study NEC and provide a personalized medicine approach to test new therapeutics. Her laboratory is currently funded with multiple NIH R01 grants and has previously received K08 and R03 funding as well as awards from the March of Dimes, the Gerber Foundation and the NEC Society. |