Mazhar A. Kanak scite author profile

y These authors contributed equally.A nonspecific inflammatory and thrombotic reaction termed instant blood-mediated inflammatory reaction (IBMIR) has been reported when allogenic or xenogenic islets come into contact with blood. This reaction is known to cause significant loss of transplanted islets. We hypothesized that IBMIR occurs in patients undergoing total pancreatectomy followed by autologous islet transplantation (TP-AIT) and tested this hypothesis in 24 patients and in an in vitro model. Blood samples drawn during the peritransplant period showed a significant and rapid increase of thrombinanti-thrombin III complex (TAT) and C-peptide during islet infusion, which persisted for up to 3 h, along with a decreased platelet count. A concomitant increase in levels of inflammatory proteins IL-6, IL-8 and interferoninducible protein-10 was observed. An in vitro model composed of pure islets plus autologous blood also demonstrated significantly increased levels of TAT (p < 0.05), C-peptide (p < 0.05), tumor necrosis factoralpha (p < 0.05) and MCP-1 (p < 0.05), as well as strong tissue factor expression in islets. Islet viability decreased significantly but was rescued by the presence of low-molecular-weight dextran sulfate. In conclusion, AIT-induced elevation of TAT and destruction of islets suggests that IBMIR might occur during AIT. Modulating this process may help improve islet engraftment and the insulin independence rate in TP-AIT patients.

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Inflammatory Response in Islet Transplantation

Kanak

Takita²,

Kunnathodi³

et al. 2014

International Journal of Endocrinology

113

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Islet cell transplantation is a promising beta cell replacement therapy for patients with brittle type 1 diabetes as well as refractory chronic pancreatitis. Despite the vast advancements made in this field, challenges still remain in achieving high frequency and long-term successful transplant outcomes. Here we review recent advances in understanding the role of inflammation in islet transplantation and development of strategies to prevent damage to islets from inflammation. The inflammatory response associated with islets has been recognized as the primary cause of early damage to islets and graft loss after transplantation. Details on cell signaling pathways in islets triggered by cytokines and harmful inflammatory events during pancreas procurement, pancreas preservation, islet isolation, and islet infusion are presented. Robust control of pre- and peritransplant islet inflammation could improve posttransplant islet survival and in turn enhance the benefits of islet cell transplantation for patients who are insulin dependent. We discuss several potent anti-inflammatory strategies that show promise for improving islet engraftment. Further understanding of molecular mechanisms involved in the inflammatory response will provide the basis for developing potent therapeutic strategies for enhancing the quality and success of islet transplantation.

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Differential zinc accumulation and expression of human zinc transporter 1 (hZIP1) in prostate glands

Johnson

Kanak

Kajdacsy-Balla

et al. 2010

Methods

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Evaluation of MicroRNA375 as a Novel Biomarker for Graft Damage in Clinical Islet Transplantation

Kanak¹,

Takita²,

Shahbazov³

et al. 2015

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A small molecule inhibitor of NFκB blocks ER stress and the NLRP3 inflammasome and prevents progression of pancreatitis

et al. 2016

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Mazhar A. Kanak

Evidence for Instant Blood-Mediated Inflammatory Reaction in Clinical Autologous Islet Transplantation

Inflammatory Response in Islet Transplantation

Differential zinc accumulation and expression of human zinc transporter 1 (hZIP1) in prostate glands

Evaluation of MicroRNA375 as a Novel Biomarker for Graft Damage in Clinical Islet Transplantation

A small molecule inhibitor of NFκB blocks ER stress and the NLRP3 inflammasome and prevents progression of pancreatitis

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