Kazunori Tahara scite author profile

Gut manipulation and ischemia/reperfusion evoke an inflammatory response within the intestinal muscularis that contributes to dysmotility. We hypothesize that resident macrophages play a key role in initiating the inflammatory cascade. Isogenic small bowel transplantation was performed in Lewis rats. The impact of recovery of organs on muscularis inflammation was investigated by comparing cold whole-body perfusion after versus prior to recovery. The role of macrophages was investigated by transplantation of macrophage-depleted gut. Leukocytes were counted using muscularis whole mounts. Mediator expression was determined by real-time RT-PCR. Contractility was assessed in a standard organ bath. Both organ recovery and ischemia/reperfusion induced leukocyte recruitment and a significant upregulation in IL-6, MCP-1, ICAM-1 and iNOS mRNAs. Although organ recovery in cold ischemia prevented early gene expression, peak expression was not changed by modification of the recovery technique. Compared to controls, transplanted animals showed a 65% decrease in smooth muscle contractility. In contrast, transplanted macrophagedepleted isografts exhibited significant less leukocyte infiltration and only a 19% decrease in contractile activity. In summary, intestinal manipulation during recovery of organs initiates a functionally relevant inflammatory response within the intestinal muscularis that is massively intensified by the ischemia reperfusion injury. Resident muscularis macrophages participate in initiating this inflammatory response.

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Acute Rejection and the Muscularis Propria After Intestinal Transplantation: The Alloresponse, Inflammation, and Smooth Muscle Function

Schaefer

Tahara²,

Websky³

et al. 2008

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Role of resident macrophages in the immunologic response and smooth muscle dysfunction during acute allograft rejection after intestinal transplantation

Schaefer

Tahara

Websky

et al. 2008

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Summary Resident muscularis macrophages initiate an inflammatory cascade during ischemia/reperfusion that is associated with dysmotility and the activation of immunologic processes. We hypothesized that these muscularis macrophages may also play a potential immunologic role for acute allograft rejection in intestinal transplantation. Orthotopic SBTx (BN‐Lew) was performed without immunosuppression. Animals were sacrificed 7 days after SBTx. The role of resident macrophages was evaluated by transplantation of macrophage‐depleted and gadolinium chloride‐treated gut. Leukocyte infiltration was investigated in muscularis whole mounts by immunohistochemistry. Mediator mRNA expression was determined by Real‐Time‐RT‐PCR. Apoptosis was evaluated by TUNEL. Smooth muscle contractility was assessed in a standard organ bath. In comparison to vehicle‐treated grafts, macrophage‐depleted grafts exhibited significantly lower mediator mRNA peak expression (IL‐6, IL‐2, IL‐10, MCP‐1, iNOS, TNFα, IFNγ, FasL), leukocyte infiltrates (ED1‐ and ED2 positive monocytes and macrophages, neutrophils, CD4+ and CD8+ lymphocytes), apoptosis rates and an improved histologic rejection grading. Vehicle‐treated grafts showed a 77% decrease in smooth muscle contractility compared to naïve controls, while macrophage‐depleted gut exhibited only a 51% decrease in contractile activity. Transplantation of macrophage‐depleted gut attenuates the functionally relevant molecular and cellular immunologic response within the graft muscularis in acute allograft rejection. Resident macrophages participate in initiating these processes.

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Perioperative Glycine Treatment Attenuates Ischemia/Reperfusion Injury and Ameliorates Smooth Muscle Dysfunction in Intestinal Transplantation

Schaefer

Tahara²,

Schuchtrup³

et al. 2008

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Kazunori Tahara

Green Fluorescent Protein-Transgenic Rat: A Tool for Organ Transplantation Research

Resident Macrophages are Involved in Intestinal Transplantation-Associated Inflammation and Motoric Dysfunction of the Graft Muscularis

Acute Rejection and the Muscularis Propria After Intestinal Transplantation: The Alloresponse, Inflammation, and Smooth Muscle Function

Role of resident macrophages in the immunologic response and smooth muscle dysfunction during acute allograft rejection after intestinal transplantation

Perioperative Glycine Treatment Attenuates Ischemia/Reperfusion Injury and Ameliorates Smooth Muscle Dysfunction in Intestinal Transplantation

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