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A co-formulation of supramolecularly stabilized insulin and pramlintide enhances mealtime glucagon suppression in diabetic pigs.

Citation
Maikawa, C. L., et al. “A Co-Formulation Of Supramolecularly Stabilized Insulin And Pramlintide Enhances Mealtime Glucagon Suppression In Diabetic Pigs.”. Nature Biomedical Engineering, pp. 507-517.
Center Stanford University
Featured
Author Caitlin L Maikawa, Anton A A Smith, Lei Zou, Gillie A Roth, Emily C Gale, Lyndsay M Stapleton, Sam W Baker, Joseph L Mann, Anthony C Yu, Santiago Correa, Abigail K Grosskopf, Celine S Liong, Catherine M Meis, Doreen Chan, Megan Troxell, David M Maahs, Bruce A Buckingham, Matthew J Webber, Eric A Appel
Abstract

Treatment of patients with diabetes with insulin and pramlintide (an amylin analogue) is more effective than treatment with insulin only. However, because mixtures of insulin and pramlintide are unstable and have to be injected separately, amylin analogues are only used by 1.5% of people with diabetes needing rapid-acting insulin. Here, we show that the supramolecular modification of insulin and pramlintide with cucurbit[7]uril-conjugated polyethylene glycol improves the pharmacokinetics of the dual-hormone therapy and enhances postprandial glucagon suppression in diabetic pigs. The co-formulation is stable for over 100 h at 37 °C under continuous agitation, whereas commercial formulations of insulin analogues aggregate after 10 h under similar conditions. In diabetic rats, the administration of the stabilized co-formulation increased the area-of-overlap ratio of the pharmacokinetic curves of pramlintide and insulin from 0.4 ± 0.2 to 0.7 ± 0.1 (mean ± s.d.) for the separate administration of the hormones. The co-administration of supramolecularly stabilized insulin and pramlintide better mimics the endogenous kinetics of co-secreted insulin and amylin, and holds promise as a dual-hormone replacement therapy.

Year of Publication
2020
Journal
Nature biomedical engineering
Volume
4
Issue
5
Number of Pages
507-517
Date Published
05/2020
ISSN Number
2157-846X
DOI
10.1038/s41551-020-0555-4
Alternate Journal
Nat Biomed Eng
PMID
32393892
PMCID
PMC7274092
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