PGC nanocarrier-formulated native GLP-1 prevents diabetes in NOD mice

Formulation of peptides in a nanocarrier made up of protected-graft-copolymer (PGC) can greatly enhance pharmacokinetics and biodistribution of the peptides in vivo. Glucagon-like peptide 1 (GLP-1) is β-cell protective and decreases the severity symptoms of diabetes in Type 2 and streptozotocin models. We hypothesized that PGC-formulated GLP-1 can prevent Type 1 diabetes in NOD mice. 4-5 week old female NOD mice [n=25] were treated for eight weeks with 3mg/kg PGC-formulated GLP-1 administered s.c. either once or three times per week. After the treatment period, the mice were monitored for signs of diabetes until they reached 36 weeks of age. A group of NOD mice treated with anti-CD3 antibodies (0.5mg/kg i.p. once at treatment week 0 and once at treatment week 1) was used as a positive control for diabetes prevention. At 36 weeks of age, 48% of the mice treated with saline had developed diabetes. Anti-CD3 treatment prevented 50% of the diabetes cases in the mice with only 24% of the mice in this group having developed diabetes at 36 weeks of age. Once a week GLP-1 treatment (3mg/kg s.c.) was as effective in preventing diabetes as anti-CD3 treatment with only 28% of mice being diabetic at 36 weeks of age. Surprisingly, there was no difference between the three times per week GLP-1 treatment group (3mg/kg s.c.) and the saline control: 54.1% of the mice treated three times per week became diabetic, which was not statistically significantly different form the 48% diabetes incidence in the saline group.