1型糖尿病治療のための膵島移植を改善するバイオマテリアル(Biomaterial Improves Islet Transplants for Treatment of Type 1 Diabetes)

2022-05-13 ジョージア工科大学

<関連情報>

• https://research.gatech.edu/biomaterial-improves-islet-transplants-treatment-type-1-diabetes
• https://www.science.org/doi/10.1126/sciadv.abm9881

FasLマイクロゲルは霊長類における膵島移植片の免疫受容を誘発する FasL microgels induce immune acceptance of islet allografts in nonhuman primates

JI LEI,MARÍA M. CORONEL,ESMA S. YOLCU,HONGPING DENG,ORLANDO GRIMANY-NUNO,MICHAEL D. HUNCKLER,VAHAP ULKER ,ZHIHONG YANG,KANG M. LEE,ALEXANDER ZHANG ,HAO LUO,COLE W. PETERS,ZHONGLIANG ZOU,TAO CHEN,ZHENJUAN WANG,COLLEEN S. MCCOY ,IVY A. ROSALES ,JAMES F. MARKMANN,HAVAL SHIRWAN AND ANDRÉS J. GARCÍA
Science Advances  Published:13 May 2022
DOI: 10.1126/sciadv.abm9881

Abstract

Islet transplantation to treat insulin-dependent diabetes is greatly limited by the need for maintenance immunosuppression. We report a strategy through which cotransplantation of allogeneic islets and streptavidin (SA)–FasL–presenting microgels to the omentum under transient rapamycin monotherapy resulted in robust glycemic control, sustained C-peptide levels, and graft survival in diabetic nonhuman primates for >6 months. Surgical extraction of the graft resulted in prompt hyperglycemia. In contrast, animals receiving microgels without SA-FasL under the same rapamycin regimen rejected islet grafts acutely. Graft survival was associated with increased number of FoxP3⁺ cells in the graft site with no significant changes in T cell systemic frequencies or responses to donor and third-party antigens, indicating localized tolerance. Recipients of SA-FasL microgels exhibited normal liver and kidney metabolic function, demonstrating safety. This localized immunomodulatory strategy succeeded with unmodified islets and does not require long-term immunosuppression, showing translational potential in β cell replacement for treating type 1 diabetes.