Genetic deletion of granzyme B does not confer resistance to the development of spontaneous diabetes in non‐obese diabetic mice

Granzyme B (GzmB) and perforin are proteins, secreted mainly by natural killer cells and cytotoxic T lymphocytes that are largely responsible for the induction of apoptosis in target cells. Because type 1 diabetes results from the selective destruction of β cells and perforin deficiency effectively reduces diabetes in non‐obese diabetic (NOD) mice, it can be deduced that β cell apoptosis involves the GzmB/perforin pathway. However, the relevance of GzmB remains totally unknown in non‐obese diabetic (NOD) mice. In this study we have focused on GzmB and examined the consequence of GzmB deficiency in NOD mice. We found that NOD.GzmB^–/– mice developed diabetes spontaneously with kinetics similar to those of wild‐type NOD (wt‐NOD) mice. Adoptive transfer study with regulatory T cell (T_reg)‐depleted splenocytes (SPCs) into NOD‐SCID mice or in‐vivo T_reg depletion by anti‐CD25 antibody at 4 weeks of age comparably induced the rapid progression of diabetes in the NOD.GzmB^–/– mice and wt‐NOD mice. Expression of GzmA and Fas was enhanced in the islets from pre‐diabetic NOD.GzmB^–/– mice. In contrast to spontaneous diabetes, GzmB deficiency suppressed the development of cyclophosphamide‐promoted diabetes in male NOD mice. Cyclophosphamide treatment led to a significantly lower percentage of apoptotic CD4⁺, CD8⁺ and CD4⁺CD25⁺ T cells in SPCs from NOD.GzmB^–/– mice than those from wt‐NOD mice. In conclusion, GzmB, in contrast to perforin, is not essentially involved in the effector mechanisms for β cell destruction in NOD mice.