Harvest Tissue Source Does Not Alter the Protective Power of Stromal Cell Therapy Following Intestinal Ischemia and Reperfusion Injury

Background Transplantation of mesenchymal stromal cells (MSCs) may be a novel treatment for intestinal ischemia. The optimal stromal cell source that could yield maximal protection following injury, however, has not been identified. We hypothesized that: 1) MSCs would increase survival and mesenteric perfusion, preserve intestinal histological architecture, and limit inflammation following intestinal ischemia and reperfusion injury (I/R), and 2) MSCs harvested from different sources of tissue would have equivalent protective properties to the intestine following I/R. Methods Adult male mice were anesthetized and a midline laparotomy performed. The intestines were eviscerated, the small bowel mesenteric root identified, and baseline intestinal perfusion was determined using Laser Doppler Imaging (LDI). Intestinal ischemia was established by temporarily occluding the superior mesenteric artery for 60 minutes with a non-crushing clamp. Following ischemia, the clamp was removed and the intestines were allowed to recover. Prior to abdominal closure, 2 × 106 human umbilical (USCs), bone-marrow (BMSCs) derived MSCs, or keratinocytes in 250μl of phosphate-buffered saline (PBS) vehicle were injected into the peritoneum. Animals were allowed to recover for 12 or 24 hours (perfusion, histology, inflammatory studies), or 7 days (survival studies). Survival data was analyzed using log rank test. Perfusion was expressed as percentage of baseline and 12 and 24 hour data was analyzed using one way ANOVA and student’s t-test. Non parametric data was compared using Mann-Whitney-U test. A p-value of less than 0.05 was significant. Results All MSCs increased seven day survival following I/R and were superior to vehicle or keratinocytes (P<0.05). All MSCs increased mesenteric perfusion above vehicle at 12 and 24 hours following injury (P<0.05). All MSCs provided superior perfusion compared to keratinocytes at 24 hours post-injury (P<0.05). Administration of each MSC line improved intestinal histology after I/R (P<0.05). Multiple pro-inflammatory chemokines were down-regulated following application of MSCs suggesting a decreased inflammatory response following MSC therapy. Conclusion Transplantation of MSCs following intestinal I/R, irrespective of source tissue, significantly increases survival and mesenteric perfusion while limiting intestinal damage and inflammation. Further studies are needed to identify the mechanism that these cells utilize to promote improved outcomes following injury

Human Adipose Stromal Cells Increase Survival and Mesenteric Perfusion Following Intestinal Ischemia and Reperfusion Injury

OBJECTIVE: Intestinal ischemia can quickly escalate to bowel necrosis and perforation. Transplantation of stem cells presents a novel treatment modality for this problem. We hypothesized that: human adipose-derived stromal cells (hASCs) would increase survival and mesenteric perfusion to a greater degree compared with differentiated cellular controls following ischemic intestinal injury, and improved outcomes with hASC therapy would be associated with preservation of intestinal histological and tight junction architecture, and lower levels of systemic inflammation following intestinal injury. METHODS: hASCs and keratinocytes (differentiated cellular control) were cultured on polystyrene flasks at 37°C in 5% CO2 in air. Adult male C57Bl6J mice were anesthetized and a midline laparotomy performed. The intestines were eviscerated, the small bowel mesenteric root identified, and intestinal ischemia was established by temporarily occluding the superior mesenteric artery for 60 min with a noncrushing vascular clamp. Following ischemia, the clamp was removed, and the intestines were returned to the abdominal cavity. Before abdominal closure, 2 million hASCs or keratinocytes in 250 μL of phosphate-buffered saline (carrier for cells and control solution) were infused into the peritoneum. Animals were allowed to recover for 12 or 24 h (perfusion, histology, cytokine, and immunofluoresence studies), or 7 days (survival studies). Intestinal perfusion was assessed by laser Doppler imaging. Intestinal tissue segments were stained with hematoxylin and eosin, as well as antibodies for the tight junction protein claudin-1. Separate aliquots of intestine, liver, and lung tissue were homogenized and assessed for inflammatory cytokines via multiplex beaded assay. RESULTS: Animals administered hASCs following intestinal ischemia and reperfusion (I/R) injury had significantly greater 7-day survival and better postischemic recovery of mesenteric perfusion compared with vehicle or keratinocyte therapy. hASCs also abated intestinal mucosal destruction, facilitated preservation of intestinal tight junctions, and decreased the systemic inflammatory response to injury. CONCLUSIONS: Human adipose-derived stromal cells improved survival and mesenteric perfusion and attenuated the mucosal damage associated with intestinal I/R injury. hASCs should be considered as a plausible cell source for novel cellular treatment plans following intestinal ischemia