Synthetic enzyme-based nanoparticles act as smart catalyst for glucose responsive release of insulin.

Background: Earlier studies have attempted to create electronic free insulin delivery systems using different glucose sensing mechanism, no successful clinical translation as hitherto been made. This study aimed to assess the faster responsiveness of the insulin release from this enzyme based nanoparticles which is a self-regulated insulin delivery system constructed by loading with insulin, enzyme glucose oxidase into hyaluronic acid and 2-nitroimidazole forming enzyme-based nanoparticles which works in accordance to the blood glucose level.

Materials And Method: Enzyme-based nanoparticles were prepared by ionic gelation method. Insulin content in the nanoparticles kept for stability study was estimated by human insulin enzyme based immunosorbent assay. In in-vitro studies; different concentrations of glucose were taken and the release study of insulin was recorded.

Results: This enzyme-based nanoparticles were having average diameter of around 193 nm and stability studies showed that nanoparticles were stable upto 30 days at 4 °C. In-vitro studies showed the release of insulin from nanoparticle conjugates which was effectively correlated with the external glucose concentration created where different concentrations of glucose taken thus facilitating the stabilization of blood glucose levels in the hyperglycemia state which was achieved within 10 min. (400 mg/dL) wherein drug release rate remarkably increased in hyperglycemia state and no specific changes or small amount of release was observed in normoglycemia state (100 mg/dL).

Conclusion: Overall, this preliminary study of this enzyme-based nanoparticles formulation showed excellent rapid responsiveness towards hyperglycemia which might act as a potential biomimetic system in triggering the release of insulin in sustained manner.