Radiation enteropathy and leucocyte-endothelial cell reactions in a refined small bowel model.

BACKGROUND: Leucocyte recruitment and inflammation are key features of high dose radiation-induced tissue injury. The inflammatory response in the gut may be more pronounced following radiotherapy due to its high bacterial load in comparison to the response in other organs. We designed a model to enable us to study the effects of radiation on leucocyte-endothelium interactions and on intestinal microflora in the murine ileum. This model enables us to study specifically the local effects of radiation therapy. METHOD: A midline laparotomy was performed in male C57/Bl6 mice and a five-centimetre segment of ileum is irradiated using the chamber. Leucocyte responses (rolling and adhesion) were then analysed in ileal venules 2 - 48 hours after high dose irradiation, made possible by an inverted approach using intravital fluorescence microscopy. Furthermore, intestinal microflora, myeloperoxidase (MPO) and cell histology were analysed. RESULTS: The highest and most reproducible increase in leucocyte rolling was exhibited 2 hours after high dose irradiation whereas leucocyte adhesion was greatest after 16 hours. Radiation reduced the intestinal microflora count compared to sham animals with a significant decrease in the aerobic count after 2 hours of radiation. Further, the total aerobic counts, Enterobacteriaceae and Lactobacillus decreased significantly after 16 hours. In the radiation groups, the bacterial count showed a progressive increase from 2 to 24 hours after radiation. CONCLUSION: This study presents a refinement of a previous method of examining mechanisms of radiation enteropathy, and a new approach at investigating radiation induced leucocyte responses in the ileal microcirculation. Radiation induced maximum leucocyte rolling at 2 hours and adhesion peaked at 16 hours. It also reduces the microflora count, which then starts to increase steadily afterwards. This model may be instrumental in developing strategies against pathological recruitment of leucocytes and changes in intestinal microflora in the small bowel after radiotherapy.

Fundamental and distinct roles of P-selectin and LFA-1 in ischemia/reperfusion-induced leukocyte-endothelium interactions in the mouse colon.

OBJECTIVE: To study the adhesive mechanisms underlying ischemia/reperfusion (I/R)-induced leukocyte-endothelium interactions in the colon. SUMMARY BACKGROUND DATA: Leukocyte recruitment is a key feature in I/R-induced tissue injury, but the mechanisms regulating leukocyte rolling and adhesion in the colon are not known. The authors recently developed a new model to study the molecular mechanisms of I/R-provoked leukocyte-endothelium interactions in the colon microcirculation using inverted intravital fluorescence microscopy. METHODS: The superior mesenteric artery was occluded for 30 minutes and leukocyte responses were analyzed after 120 minutes of reperfusion in colonic venules in mice. The adhesive mechanisms underlying I/R-induced leukocyte rolling and adhesion were investigated using monoclonal antibodies against L-, E- and P-selectin, and CD11a gene-targeted mice were used to examine the role of lymphocyte function antigen-1 (LFA-1, CD11a/CD18). RESULTS: Reperfusion provoked a clear-cut increase in leukocyte rolling and adhesion in colonic venules compared to negative controls. Both P- and E-selectin mRNA were expressed in the colon after this I/R insult. Pretreatment with an anti-P-selectin antibody reduced leukocyte rolling and adhesion by 88% and 85%, respectively, whereas antibodies against L- and E-selectin had no effect. Moreover, I/R-induced leukocyte adhesion in LFA-1-deficient mice was reduced by more than 95%. CONCLUSIONS: This study provides evidence that leukocyte rolling is exclusively and nonredundantly mediated by P-selectin and that firm adhesion is supported by LFA-1 in I/R-induced leukocyte recruitment in the colon. Taken together, both P-selectin and LFA-1 may be important targets to control pathologic inflammation in I/R-induced tissue injury in the colon.

Leukocyte rolling is exclusively mediated by P-selectinin colonic venules.

1. The objective of the present study was to examine the role of the endothelial selectins (i.e. P- and E-selectin) in leukocyte-endothelium interactions in colonic venules by use of intravital microscopy. 2. Balb/c mice were exposed to dextran sodium sulphate (DSS) in the drinking water for 5 days or treated intraperitoneally (i.p.) with tumour necrosis factor-alpha (TNF-alpha) for 3 h. 3. In DSS-treated mice, mRNA of both P- and E-selectin were expressed and leukocyte rolling and adhesion was increased to 27+/-3 cells min(-1) and 36+/-8 cells mm(-1), respectively. An anti-P-selectin antibody abolished DSS-induced leukocyte rolling, whereas an antibody against E-selectin had no effect. Established leukocyte adhesion was insensitive to inhibition of the selectins. 4. DSS markedly increased production of TNF-alpha in the colon. TNF-alpha increased leukocyte rolling to 22+/-3 cells min(-1) and adhesion to 45+/-4 cells mm(-1). Only inhibition of P-selectin significantly reduced (>94%) leukocyte rolling provoked by TNF-alpha. Leukocyte adhesion was not changed by late anti-P-selectin antibody treatment. In contrast, pretreatment with the anti-P-selectin antibody not only abolished leukocyte rolling but also completely inhibited firm adhesion in response to TNF-alpha. 5. This study demonstrates that P-selectin plays an important role in leukocyte rolling in colonic venules, both in experimental colitis and when stimulated with TNF-alpha. Moreover, P-selectin-dependent leukocyte rolling was found to be a precondition for TNF-alpha-induced firm adhesion. Thus, these findings suggest that P-selectin may be a key target to reduce pathological recruitment of inflammatory cells in the colon.