Issue 3, 2024

Uniform trehalose nanogels for glucagon stabilization

Abstract

Glucagon is a peptide hormone that acts via receptor-mediated signaling predominantly in the liver to raise glucose levels by hepatic glycogen breakdown or conversion of noncarbohydrate, 3 carbon precursors to glucose by gluconeogenesis. Glucagon is administered to reverse severe hypoglycemia, a clinical complication associated with type 1 diabetes. However, due to low stability and solubility at neutral pH, there are limitations in the current formulations of glucagon. Trehalose methacrylate-based nanoparticles were utilized as the stabilizing and solubilizing moiety in the system reported herein. Glucagon was site-selectively modified to contain a cysteine at amino acid number 24 to covalently attach to the methacrylate-based polymer containing pyridyl disulfide side chains. PEG2000 dithiol was employed as the crosslinker to form uniform nanoparticles. Glucagon nanogels were monitored in Dulbecco's phosphate-buffered saline (DPBS) pH 7.4 at various temperatures to determine its long-term stability in solution. Glucagon nanogels were stable up to at least 5 months by size uniformity when stored at −20 °C and 4 °C, up to 5 days at 25 °C, and less than 12 hours at 37 °C. When glucagon stability was studied by either HPLC or thioflavin T assays, the glucagon was intact for at least 5 months at −20 °C and 4 °C within the nanoparticles at −20 °C and 4 °C and up to 2 days at 25 °C. Additionally, the glucagon nanogels were studied for toxicity and efficacy using various assays in vitro. The findings indicate that the nanogels were nontoxic to fibroblast cells and nonhemolytic to red blood cells. The glucagon in the nanogels was as active as glucagon alone. These results demonstrate the utility of trehalose nanogels towards a glucagon formulation with improved stability and solubility in aqueous solutions, particularly useful for storage at cold temperatures.

Graphical abstract: Uniform trehalose nanogels for glucagon stabilization

Supplementary files

Article information

Article type
Paper
Submitted
01 Nov 2023
Accepted
14 Feb 2024
First published
13 Mar 2024
This article is Open Access
Creative Commons BY-NC license

RSC Appl. Polym., 2024,2, 473-482

Uniform trehalose nanogels for glucagon stabilization

E. G. Puente, R. P. Sivasankaran, D. Vinciguerra, J. Yang, H. C. Lower, A. L. Hevener and H. D. Maynard, RSC Appl. Polym., 2024, 2, 473 DOI: 10.1039/D3LP00226H

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