Abstract
Neutrophils (PMNs) play a critical role in innate immunity, yet many pathologic conditions are associated with dysregulated infiltration of PMNs into tissues. In the gut, robust PMN accumulation and migration across the intestinal epithelium closely correlates with clinical symptoms in conditions such as ulcerative colitis. While much is known about how PMNs migrate out of blood vessels, far less is understood about how PMNs traverse epithelial barriers. Until fairly recently, in vitro models of PMN transepithelial migration (TEpM) across cultured intestinal epithelial cell lines provided many of the insights into the molecular basis of TEpM. However, innovative animal models have provided new avenues for investigating in vivo mechanisms regulating PMN TEpM. This report will highlight molecular insights gained from studies on PMN TEpM and provide a rationale for developing tissue targeted strategies directed at reducing pathologic consequences of dysregulated PMN trafficking in the gut.