Islet transplantation into brown adipose tissue can delay immune rejection
Jessica D. Kepple, Jessie M. Barra, Martin E. Young, Chad S. Hunter, Hubert M. Tse
Jessica D. Kepple, Jessie M. Barra, Martin E. Young, Chad S. Hunter, Hubert M. Tse
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Research Article Endocrinology Transplantation

Islet transplantation into brown adipose tissue can delay immune rejection

Abstract

Type 1 diabetes is an autoimmune disease characterized by insulin-producing β cell destruction. Although islet transplantation restores euglycemia and improves patient outcomes, an ideal transplant site remains elusive. Brown adipose tissue (BAT) has a highly vascularized and antiinflammatory microenvironment. Because these tissue features can promote islet graft survival, we hypothesized that islets transplanted into BAT will maintain islet graft and BAT function while delaying immune-mediated rejection. We transplanted syngeneic and allogeneic islets into BAT or under the kidney capsule of streptozotocin-induced diabetic NOD.Rag and NOD mice to investigate islet graft function, BAT function, metabolism, and immune-mediated rejection. Islet grafts within BAT restored euglycemia similarly to kidney capsule controls. Islets transplanted in BAT maintained expression of islet hormones and transcription factors and were vascularized. Compared with those in kidney capsule and euglycemic mock-surgery controls, no differences in glucose or insulin tolerance, thermogenic regulation, or energy expenditure were observed with islet grafts in BAT. Immune profiling of BAT revealed enriched antiinflammatory macrophages and T cells. Compared with the kidney capsule control, there were significant delays in autoimmune and allograft rejection of islets transplanted in BAT, possibly due to increased antiinflammatory immune populations. Our data support BAT as an alternative islet transplant site that may improve graft survival.

Authors

Jessica D. Kepple, Jessie M. Barra, Martin E. Young, Chad S. Hunter, Hubert M. Tse

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Figure 6

Islets transplanted into BAT delay allograft rejection.

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Islets transplanted into BAT delay allograft rejection. (A) Schematic of...
(A) Schematic of allogeneic islet transplant experimental design. (B) Ad libitum daily blood glucose values after allogeneic islet transplantation into NOD recipients (n = 7). (C) Kaplan-Meier log-rank test for percentage of allograft recipients maintaining islet graft function, based on blood glucose readings (n = 7). Inset displaying individual recipient graft survival analyzed via Student’s t test. (D and E) Staining of islet grafts from BAT (day 66 after Tx) and kidney capsule (day 5 after Tx) via H&E and immunofluorescence staining of insulin (green), glucagon (red or blue), somatostatin (blue), and CD4 T cells (red) (n = 3–4). (F and G) Staining of islet grafts from BAT and kidney capsule (both day 10 after Tx) via H&E and immunofluorescence staining of insulin (green), glucagon (blue), and CD4 T cells (red) (n = 3–4). All histology images are ×40 magnification. Data represent 3 independent experiments. Error bars are ± SD. *P < 0.05; **P < 0.01. Tx, transplantation.