Single synchronous delivery of FK506-loaded polymeric microspheres with pancreatic islets for the successful treatment of streptozocin-induced diabetes in mice

Single synchronous delivery of FK506-loaded polymeric microspheres with pancreatic islets for the successful treatment of streptozocin-induced diabetes in mice

Immune rejection after transplantation is common, which leads to prompt failure of the graft. Therefore, to prolong the survival time of the graft, immunosuppressive therapy is the norm. Here, we report a robust immune protection protocol using FK506-loaded microspheres (FK506M) in injectable hydrog...

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Main Authors: Shiva Pathak, Shobha Regmi, Biki Gupta, Bijay K. Poudel, Tung Thanh Pham, Chul Soon Yong, Jong Oh Kim, Jae-Ryong Kim, Min Hui Park, Young Kyung Bae, Simmyung Yook, Cheol-Hee Ahn, Jee-Heon Jeong
Format: Article
Language:English
Published: Taylor & Francis Group 2017-01-01
Series:Drug Delivery
Subjects:
electrospray
fk506
microspheres
islet transplantation
immune suppression
Online Access:http://dx.doi.org/10.1080/10717544.2017.1377317
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spelling doaj-f51e3a051f0e4f5fbe74cfb9a1a1c9f92020-11-25T02:38:17ZengTaylor & Francis GroupDrug Delivery1071-75441521-04642017-01-012411350135910.1080/10717544.2017.13773171377317Single synchronous delivery of FK506-loaded polymeric microspheres with pancreatic islets for the successful treatment of streptozocin-induced diabetes in miceShiva Pathak0Shobha Regmi1Biki Gupta2Bijay K. Poudel3Tung Thanh Pham4Chul Soon Yong5Jong Oh Kim6Jae-Ryong Kim7Min Hui Park8Young Kyung Bae9Simmyung Yook10Cheol-Hee Ahn11Jee-Heon Jeong12Yeungnam UniversityYeungnam UniversityYeungnam UniversityYeungnam UniversityYeungnam UniversityYeungnam UniversityYeungnam UniversityCollege of Medicine, Yeungnam UniversityYeungnam University College of MedicineYeungnam University College of MedicineKeimyung UniversitySeoul National UniversityYeungnam UniversityImmune rejection after transplantation is common, which leads to prompt failure of the graft. Therefore, to prolong the survival time of the graft, immunosuppressive therapy is the norm. Here, we report a robust immune protection protocol using FK506-loaded microspheres (FK506M) in injectable hydrogel. Pancreatic islets were codelivered with the FK506M into the subcutaneous space of streptozocin-induced diabetic mice. The islets codelivered with 10 mg/kg FK506M maintained normal blood glucose levels during the study period (survival rate: 60%). However, transplantation of islets and FK506M at different sites hardly controlled the blood glucose level (survival rate: 20%). Immunohistochemical analysis revealed an intact morphology of the islets transplanted with FK506M. In addition, minimal number of immune cells invaded inside the gel of the islet-FK506M group. The single injection of FK506M into the local microenvironment effectively inhibited immune rejection and prolonged the survival time of transplanted islets in a xenograft model.http://dx.doi.org/10.1080/10717544.2017.1377317electrosprayfk506microspheresislet transplantationimmune suppression
collection DOAJ
language English
format Article
sources DOAJ
author Shiva Pathak
Shobha Regmi
Biki Gupta
Bijay K. Poudel
Tung Thanh Pham
Chul Soon Yong
Jong Oh Kim
Jae-Ryong Kim
Min Hui Park
Young Kyung Bae
Simmyung Yook
Cheol-Hee Ahn
Jee-Heon Jeong
spellingShingle Shiva Pathak
Shobha Regmi
Biki Gupta
Bijay K. Poudel
Tung Thanh Pham
Chul Soon Yong
Jong Oh Kim
Jae-Ryong Kim
Min Hui Park
Young Kyung Bae
Simmyung Yook
Cheol-Hee Ahn
Jee-Heon Jeong
Single synchronous delivery of FK506-loaded polymeric microspheres with pancreatic islets for the successful treatment of streptozocin-induced diabetes in mice
Drug Delivery
electrospray
fk506
microspheres
islet transplantation
immune suppression
author_facet Shiva Pathak
Shobha Regmi
Biki Gupta
Bijay K. Poudel
Tung Thanh Pham
Chul Soon Yong
Jong Oh Kim
Jae-Ryong Kim
Min Hui Park
Young Kyung Bae
Simmyung Yook
Cheol-Hee Ahn
Jee-Heon Jeong
author_sort Shiva Pathak
title Single synchronous delivery of FK506-loaded polymeric microspheres with pancreatic islets for the successful treatment of streptozocin-induced diabetes in mice
title_short Single synchronous delivery of FK506-loaded polymeric microspheres with pancreatic islets for the successful treatment of streptozocin-induced diabetes in mice
title_full Single synchronous delivery of FK506-loaded polymeric microspheres with pancreatic islets for the successful treatment of streptozocin-induced diabetes in mice
title_fullStr Single synchronous delivery of FK506-loaded polymeric microspheres with pancreatic islets for the successful treatment of streptozocin-induced diabetes in mice
title_full_unstemmed Single synchronous delivery of FK506-loaded polymeric microspheres with pancreatic islets for the successful treatment of streptozocin-induced diabetes in mice
title_sort single synchronous delivery of fk506-loaded polymeric microspheres with pancreatic islets for the successful treatment of streptozocin-induced diabetes in mice
publisher Taylor & Francis Group
series Drug Delivery
issn 1071-7544
1521-0464
publishDate 2017-01-01
description Immune rejection after transplantation is common, which leads to prompt failure of the graft. Therefore, to prolong the survival time of the graft, immunosuppressive therapy is the norm. Here, we report a robust immune protection protocol using FK506-loaded microspheres (FK506M) in injectable hydrogel. Pancreatic islets were codelivered with the FK506M into the subcutaneous space of streptozocin-induced diabetic mice. The islets codelivered with 10 mg/kg FK506M maintained normal blood glucose levels during the study period (survival rate: 60%). However, transplantation of islets and FK506M at different sites hardly controlled the blood glucose level (survival rate: 20%). Immunohistochemical analysis revealed an intact morphology of the islets transplanted with FK506M. In addition, minimal number of immune cells invaded inside the gel of the islet-FK506M group. The single injection of FK506M into the local microenvironment effectively inhibited immune rejection and prolonged the survival time of transplanted islets in a xenograft model.
topic electrospray
fk506
microspheres
islet transplantation
immune suppression
url http://dx.doi.org/10.1080/10717544.2017.1377317
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