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| Publications [#260781] of Ashutosh Chilkoti
search scholar.google.com.Papers Published
- Amiram, M; Luginbuhl, KM; Li, X; Feinglos, MN; Chilkoti, A, Injectable protease-operated depots of glucagon-like peptide-1 provide extended and tunable glucose control.,
Proceedings of the National Academy of Sciences of the United States of America, vol. 110 no. 8
(February, 2013),
pp. 2792-2797, National Acad Sciences, ISSN 0027-8424 [23359691], [doi]
(last updated on 2024/04/24)
Abstract:
Peptide drugs are an exciting class of pharmaceuticals increasingly used for the treatment of a variety of diseases; however, their main drawback is a short half-life, which dictates multiple and frequent injections and an undesirable "peak-and-valley" pharmacokinetic profile, which can cause undesirable side-effects. Synthetic prolonged release formulations can provide extended release of biologically active native peptide, but their synthetic nature can be an obstacle to production and utilization. Motivated by these limitations, we have developed a new and entirely genetically encoded peptide delivery system--Protease Operated Depots (PODs)--to provide sustained and tunable release of a peptide drug from an injectable s.c. depot. We demonstrate proof-of-concept of PODs, by fusion of protease cleavable oligomers of glucagon-like peptide-1, a type-2 diabetes drug, and a thermally responsive, depot-forming elastin-like-polypeptide that undergoes a thermally triggered inverse phase transition below body temperature, thereby forming an injectable depot. We constructed synthetic genes for glucagon-like peptide-1 PODs and demonstrated their high-yield expression in Escherichia coli and facile purification by a nonchromatographic scheme we had previously developed. Remarkably, a single injection of glucagon-like peptide-1 PODs was able to reduce blood glucose levels in mice for up to 5 d, 120 times longer than an injection of the native peptide drug. These findings demonstrate that PODs provide the first genetically encoded alternative to synthetic peptide encapsulation schemes for sustained delivery of peptide therapeutics.
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