Implication of Mitochondrial Cytoprotection in Human Islet Isolation and Transplantation

Overview

Journal Biochem Res Int

Publisher Wiley

Specialty Biochemistry

Date 2012 May 22

PMID 22611495

Citations 4

Authors

Yong Wang

Joshua E Mendoza-Elias

Meirigeng Qi

Tricia A Harvat

Sang Joon Ahn

Dongyoung Lee

Diana Gutierrez

Hyojin Jeon

Daniel Paushter

Jose Oberholzer

Affiliations

Soon will be listed here.

Abstract

Islet transplantation is a promising therapy for type 1 diabetes mellitus; however, success rates in achieving both short- and long-term insulin independence are not consistent, due in part to inconsistent islet quality and quantity caused by the complex nature and multistep process of islet isolation and transplantation. Since the introduction of the Edmonton Protocol in 2000, more attention has been placed on preserving mitochondrial function as increasing evidences suggest that impaired mitochondrial integrity can adversely affect clinical outcomes. Some recent studies have demonstrated that it is possible to achieve islet cytoprotection by maintaining mitochondrial function and subsequently to improve islet transplantation outcomes. However, the benefits of mitoprotection in many cases are controversial and the underlying mechanisms are unclear. This article summarizes the recent progress associated with mitochondrial cytoprotection in each step of the islet isolation and transplantation process, as well as islet potency and viability assays based on the measurement of mitochondrial integrity. In addition, we briefly discuss immunosuppression side effects on islet graft function and how transplant site selection affects islet engraftment and clinical outcomes.

Citing Articles

Decellularized human pancreatic extracellular matrix-based physiomimetic microenvironment for human islet culture.

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The effect of short-term intensive insulin therapy in newly-diagnosed Type-2 diabetic patients.

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Differential influence of tacrolimus and sirolimus on mitochondrial-dependent signaling for apoptosis in pancreatic cells.

Constantinescu A, Abbas M, Kassem M, Gleizes C, Kreutter G, Schini-Kerth V Mol Cell Biochem. 2016; 418(1-2):91-102.

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A novel strategy to increase the proliferative potential of adult human β-cells while maintaining their differentiated phenotype.

Aly H, Rohatgi N, Marshall C, Grossenheider T, Miyoshi H, Stappenbeck T PLoS One. 2013; 8(6):e66131.

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