Characterization of the Effects of Mesenchymal Stromal Cells on Mouse and Human Islet Function

Overview

Journal Stem Cells Transl Med

Publisher Oxford University Press

Specialties Cell Biology
Pharmacology

Date 2019 May 9

PMID 31066521

Citations 12

Authors

Ahmed A Arzouni

Andreia Vargas-Seymour

Paramjeet K Dhadda

Chloe L Rackham

Guo-Cai Huang

Pratik Choudhary

Aileen J F King

Peter M Jones

Affiliations

Soon will be listed here.

Abstract

Islet transplantation has the potential to cure type 1 diabetes, but current transplantation protocols are not optimal and there is extensive loss of islet β-cell insulin secretory function during the immediate post-transplantation period. Studies using experimental models of diabetes have shown that the coculture of islets with mesenchymal stromal cells (MSCs) prior to transplantation improves graft function, but several variables differed among research groups (e.g., type of MSCs used and the treatment conditions). We have therefore assessed the effects of MSCs on mouse and human islets by investigating the importance of tissue source for MSCs, the coculture protocol configuration and length, the effect of activated MSCs, and different β-cell secretory stimuli. MSCs derived from adipose tissue (aMSCs) were the most effective at supporting β-cell insulin secretion in both mouse and human islets, in a direct contact coculture configuration. Preculture with aMSCs enhanced both phases of glucose-induced insulin secretion and further enhanced secretory responses to the non-nutrients carbachol and arginine. These effects required a coculture period of 48-72 hours and were not dependent on activation of the MSCs. Thus, direct contact coculture with autologous, adipose-derived MSCs for a minimum of 48 hours before implantation is likely to be an effective addition to human islet transplantation protocols. Stem Cells Translational Medicine 2019;8:935&944.

Citing Articles

Mesenchymal stromal cells and their secretory products reduce the inflammatory crosstalk between islets and endothelial cells.

Dewhurst-Trigg R, Hopkinson J, Richardson S, Jones P, Rackham C Endocrine. 2024; 87(1):94-105.

PMID: 39085567 PMC: 11739262. DOI: 10.1007/s12020-024-03975-1.

Strategy for Clinical Setting of Co-transplantation of Mesenchymal Stem Cells and Pancreatic Islets.

Mei L, Yuwei Y, Weiping L, Zhiran X, Bingzheng F, Jibing C Cell Transplant. 2024; 33:9636897241259433.

PMID: 38877672 PMC: 11179456. DOI: 10.1177/09636897241259433.

Mouse islet-derived stellate cells are similar to, but distinct from, mesenchymal stromal cells and influence the beta cell function.

Xu W, Zhou Y, Wang T, Ni C, Wang C, Li R Diabet Med. 2024; 41(6):e15279.

PMID: 38185936 PMC: 11451341. DOI: 10.1111/dme.15279.

Trimetazidine Preconditioning Potentiates the Effect of Mesenchymal Stem Cells Secretome on the Preservation of Rat Pancreatic Islet Survival and Function In Vitro.

Ahmadi F, Sahebghadam Lotfi A, Navaei-Nigjeh M, Kadivar M Appl Biochem Biotechnol. 2023; 195(8):4796-4817.

PMID: 37184724 DOI: 10.1007/s12010-023-04532-8.

Engineering islets from stem cells for advanced therapies of diabetes.

Siehler J, Blochinger A, Meier M, Lickert H Nat Rev Drug Discov. 2021; 20(12):920-940.

PMID: 34376833 DOI: 10.1038/s41573-021-00262-w.

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