The Efficacy of an Immunoisolating Membrane System for Islet Xenotransplantation in Minipigs

Tova Neufeld; Barbara Ludwig; Uriel Barkai; Gordon C. Weir; Clark K. Colton; Yoav Evron; Maria Balyura; Karina Yavriyants; Baruch Zimermann; Dmitri Azarov; Shiri Maimon; Noa Shabtay; Tania Rozenshtein; Dana Lorber; Anja Steffen; Udi Willenz; Konstantine Bloch; Pnina Vardi; Ran Taube; Paul de Vos; Eli C. Lewis; Stefan R. Bornstein; Avi Rotem

doi:10.1371/journal.pone.0070150

The Efficacy of an Immunoisolating Membrane System for Islet Xenotransplantation in Minipigs

Tova Neufeld, Barbara Ludwig, Uriel Barkai, Gordon C. Weir, Clark K. Colton, Yoav Evron, Maria Balyura, Karina Yavriyants, Baruch Zimermann, Dmitri Azarov, Shiri Maimon, Noa Shabtay, Tania Rozenshtein, Dana Lorber, Anja Steffen, Udi Willenz, Konstantine Bloch, Pnina Vardi, Ran Taube, Paul de VosEli C. Lewis, Stefan R. Bornstein, Avi Rotem

Ben-Gurion University of the Negev, Tel Aviv University

Research output: Contribution to journal › Article › peer-review

Abstract

Developing a device that protects xenogeneic islets to allow treatment and potentially cure of diabetes in large mammals has been a major challenge in the past decade. Using xenogeneic islets for transplantation is required in light of donor shortage and the large number of diabetic patients that qualify for islet transplantation. Until now, however, host immunoreactivity against the xenogeneic graft has been a major drawback for the use of porcine islets. Our study demonstrates the applicability of a novel immunoprotective membrane that allows successful xenotransplantation of rat islets in diabetic minipigs without immunosuppressive therapy. Rat pancreatic islets were encapsulated in highly purified alginate and integrated into a plastic macrochamber covered by a poly-membrane for subcutaneous transplantation. Diabetic Sinclair pigs were transplanted and followed for up to 90 days. We demonstrated a persistent graft function and restoration of normoglycemia without the need for immunosuppressive therapy. This concept could potentially offer an attractive strategy for a more widespread islet replacement therapy that would restore endogenous insulin secretion in diabetic patients without the need for immunosuppressive drugs and may even open up an avenue for safe utilization of xenogeneic islet donors.

Original language	American English
Article number	e70150
Journal	PLoS ONE
Volume	8
Issue number	8
DOIs	https://doi.org/10.1371/journal.pone.0070150
State	Published - 1 Aug 2013

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Neufeld, T., Ludwig, B., Barkai, U., Weir, G. C., Colton, C. K., Evron, Y., Balyura, M., Yavriyants, K., Zimermann, B., Azarov, D., Maimon, S., Shabtay, N., Rozenshtein, T., Lorber, D., Steffen, A., Willenz, U., Bloch, K., Vardi, P., Taube, R., ... Rotem, A. (2013). The Efficacy of an Immunoisolating Membrane System for Islet Xenotransplantation in Minipigs. PLoS ONE, 8(8), Article e70150. https://doi.org/10.1371/journal.pone.0070150

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title = "The Efficacy of an Immunoisolating Membrane System for Islet Xenotransplantation in Minipigs",

abstract = "Developing a device that protects xenogeneic islets to allow treatment and potentially cure of diabetes in large mammals has been a major challenge in the past decade. Using xenogeneic islets for transplantation is required in light of donor shortage and the large number of diabetic patients that qualify for islet transplantation. Until now, however, host immunoreactivity against the xenogeneic graft has been a major drawback for the use of porcine islets. Our study demonstrates the applicability of a novel immunoprotective membrane that allows successful xenotransplantation of rat islets in diabetic minipigs without immunosuppressive therapy. Rat pancreatic islets were encapsulated in highly purified alginate and integrated into a plastic macrochamber covered by a poly-membrane for subcutaneous transplantation. Diabetic Sinclair pigs were transplanted and followed for up to 90 days. We demonstrated a persistent graft function and restoration of normoglycemia without the need for immunosuppressive therapy. This concept could potentially offer an attractive strategy for a more widespread islet replacement therapy that would restore endogenous insulin secretion in diabetic patients without the need for immunosuppressive drugs and may even open up an avenue for safe utilization of xenogeneic islet donors.",

author = "Tova Neufeld and Barbara Ludwig and Uriel Barkai and Weir, {Gordon C.} and Colton, {Clark K.} and Yoav Evron and Maria Balyura and Karina Yavriyants and Baruch Zimermann and Dmitri Azarov and Shiri Maimon and Noa Shabtay and Tania Rozenshtein and Dana Lorber and Anja Steffen and Udi Willenz and Konstantine Bloch and Pnina Vardi and Ran Taube and {de Vos}, Paul and Lewis, {Eli C.} and Bornstein, {Stefan R.} and Avi Rotem",

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Neufeld, T, Ludwig, B, Barkai, U, Weir, GC, Colton, CK, Evron, Y, Balyura, M, Yavriyants, K, Zimermann, B, Azarov, D, Maimon, S, Shabtay, N, Rozenshtein, T, Lorber, D, Steffen, A, Willenz, U, Bloch, K, Vardi, P, Taube, R, de Vos, P, Lewis, EC, Bornstein, SR & Rotem, A 2013, 'The Efficacy of an Immunoisolating Membrane System for Islet Xenotransplantation in Minipigs', PLoS ONE, vol. 8, no. 8, e70150. https://doi.org/10.1371/journal.pone.0070150

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T1 - The Efficacy of an Immunoisolating Membrane System for Islet Xenotransplantation in Minipigs

AU - Neufeld, Tova

AU - Ludwig, Barbara

AU - Barkai, Uriel

AU - Weir, Gordon C.

AU - Colton, Clark K.

AU - Evron, Yoav

AU - Balyura, Maria

AU - Yavriyants, Karina

AU - Zimermann, Baruch

AU - Azarov, Dmitri

AU - Maimon, Shiri

AU - Shabtay, Noa

AU - Rozenshtein, Tania

AU - Lorber, Dana

AU - Steffen, Anja

AU - Willenz, Udi

AU - Bloch, Konstantine

AU - Vardi, Pnina

AU - Taube, Ran

AU - de Vos, Paul

AU - Lewis, Eli C.

AU - Bornstein, Stefan R.

AU - Rotem, Avi

PY - 2013/8/1

Y1 - 2013/8/1

N2 - Developing a device that protects xenogeneic islets to allow treatment and potentially cure of diabetes in large mammals has been a major challenge in the past decade. Using xenogeneic islets for transplantation is required in light of donor shortage and the large number of diabetic patients that qualify for islet transplantation. Until now, however, host immunoreactivity against the xenogeneic graft has been a major drawback for the use of porcine islets. Our study demonstrates the applicability of a novel immunoprotective membrane that allows successful xenotransplantation of rat islets in diabetic minipigs without immunosuppressive therapy. Rat pancreatic islets were encapsulated in highly purified alginate and integrated into a plastic macrochamber covered by a poly-membrane for subcutaneous transplantation. Diabetic Sinclair pigs were transplanted and followed for up to 90 days. We demonstrated a persistent graft function and restoration of normoglycemia without the need for immunosuppressive therapy. This concept could potentially offer an attractive strategy for a more widespread islet replacement therapy that would restore endogenous insulin secretion in diabetic patients without the need for immunosuppressive drugs and may even open up an avenue for safe utilization of xenogeneic islet donors.

AB - Developing a device that protects xenogeneic islets to allow treatment and potentially cure of diabetes in large mammals has been a major challenge in the past decade. Using xenogeneic islets for transplantation is required in light of donor shortage and the large number of diabetic patients that qualify for islet transplantation. Until now, however, host immunoreactivity against the xenogeneic graft has been a major drawback for the use of porcine islets. Our study demonstrates the applicability of a novel immunoprotective membrane that allows successful xenotransplantation of rat islets in diabetic minipigs without immunosuppressive therapy. Rat pancreatic islets were encapsulated in highly purified alginate and integrated into a plastic macrochamber covered by a poly-membrane for subcutaneous transplantation. Diabetic Sinclair pigs were transplanted and followed for up to 90 days. We demonstrated a persistent graft function and restoration of normoglycemia without the need for immunosuppressive therapy. This concept could potentially offer an attractive strategy for a more widespread islet replacement therapy that would restore endogenous insulin secretion in diabetic patients without the need for immunosuppressive drugs and may even open up an avenue for safe utilization of xenogeneic islet donors.

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DO - 10.1371/journal.pone.0070150

M3 - Article

C2 - 23936385

SN - 1932-6203

VL - 8

JO - PLoS ONE

JF - PLoS ONE

IS - 8

M1 - e70150

ER -

The Efficacy of an Immunoisolating Membrane System for Islet Xenotransplantation in Minipigs

Abstract

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