Morphometrical analysis of the kidney from nonobese diabetic (NOD) mice in the non-diabetic stage.

The kidneys of non-diabetic NOD and wild type ICR mice were examined morphometrically at 3 and 6 months of age. Kidney weights and diameter of renal corpuscles of non-diabetic NOD mice were less than those of ICR mice. No lesions were observed in glomeruli or uriniferous tubules. Renin-positive areas were more common in NOD mice than in ICR mice, but no differences were detected in the Western blot analyses.

Development and function of diabetogenic T-cells in B-cell-deficient nonobese diabetic mice.

Insulin-dependent diabetes (type 1 diabetes) in the NOD mouse is a T-cell-mediated autoimmune disease. However, B-cells may also play a critical role in disease pathogenesis, as genetically B-cell-deficient NOD mice (NOD.microMT) have been shown to be protected from type 1 diabetes and to display reduced responses to certain islet autoantigens. To examine the requirements for B-cells in the development of type 1 diabetes, we generated a B-cell-naive T-cell repertoire by transplantation of NOD fetal thymuses (FTs) into NOD.scid recipients. Surprisingly, these FT-derived NOD T-cells were diabetogenic in 36% of NOD.scid recipients, despite the absence of B-cells. In addition, T-cells isolated from NOD.microMT mice were diabetogenic in 22% of NOD.scid recipients. Together, these results indicate that B-cells are not an absolute requirement for the generation or effector function of an islet-reactive T-cell repertoire in NOD mice. We suggest that conditions favoring rapid lymphocyte expansion can reveal autoreactive T-cell activity and precipitate disease in genetically susceptible individuals.

Effect of prophylactic insulin treatment on the number of ER-MP23+ macrophages in the pancreas of NOD mice. Is the prevention of diabetes based on beta-cell rest?

Prophylactic insulin treatment has been shown to have beneficial effects in type 1 diabetes, both in humans and in various animal models of the disease. In experimental models, the protective effect of prophylactic insulin treatment was observed in two parameters: (1) progression of insulitis and (2) diabetes incidence. The mechanism of protection still remains to be investigated. We therefore analysed by immunohistochemistry the effect of prophylactic insulin treatment vs placebo treatment (from 4 to 13 weeks of age) on ER-MP23+ macrophage infiltration in and around pancreatic islets in the non-obese diabetic (NOD) mouse, a spontaneous model for type 1 diabetes. BALB/c mice were used as diabetes-free controls. Using conventional haematoxylin-eosin staining, we detected a protective effect of prophylactic insulin treatment in NOD females on the lymphocytic insulitis, significant at 13 weeks, but not at 9 weeks of age. However, when assessed by immunostaining for early infiltration of ER-MP23+ macrophages around islets, the reduction in severity of insulitis could already be detected as early as 9 weeks of age. With regard to the early accumulation of ER-MP23+ cells, we observed that their numbers per mm2 surface area of the exocrine pancreas and per micron at the circumference of the islet were higher in placebo-treated NODs (197 +/- 13.8 and 14 +/- 0.9, respectively) as compared to age-matched BALB/c mice (123.1 +/- 7.1 and 3.5 +/- 0.9, respectively). Prophylactic insulin treatment of NODs lowered the attraction of ER-MP23+ macrophages to the exocrine pancreas and to the circumference of the islets (156.3 +/- 8.5 and 7.9 +/- 1, respectively). Interestingly also, the islet size was found to be larger in placebo-treated NODs (51% was larger than 10 microns2) than in age-matched BALB/c mice (9% larger than 10 microns2). Prophylactic insulin treatment of NODs reduced their islet size to sizes found in the control BALB/c strain. In conclusion, the decrease in islet size by early insulin administration, and the lower attraction of ER-MP23+ macrophages to the islets are morphological indications that prevention of diabetes development by prophylactic insulin treatment results from a down-regulation of islet metabolism and growth, with a concomitant decline in the release of islet factors attracting macrophages.

Thymus reticulum of autoimmune mice. 3. Ultrastructural study of NOD (non-obese diabetic) mouse thymus.

The non-obese diabetic (NOD) mouse develops spontaneous insulin-dependent diabetes mellitus. Converging lines of evidence indicate that the disease is of autoimmune origin and is primarily mediated by T cells. It thus appeared interesting to study the morphology of the thymic microenvironment in order to determine whether the architecture and/or the cellular components of the organ are altered. In the NOD mouse, significant aspects of involution were observed as early as the first month of life, forming a heterogeneous pattern with non-involuted areas. With time, these involuted aspects increased in surface and severity. In non-involuted zones vacuolization of epithelial cells was noted, as well as infiltration by plasma cells and the presence of numerous macrophages with high phagocytic activity. Involuted areas, forming a cellular layer as if cells had lost their limiting membranes, were crossed by a great number of cystic cavities bordered by epithelial cells and cells containing granulations. Their lumens contained lymphocytes and a few macrophages. These observations, which are reminiscent of similar reports made in other autoimmune mouse strains, may be related to the functional thymic abnormality thought to participate in the pathogenesis of autoimmune disease.