期刊
JOURNAL OF CONTROLLED RELEASE
卷 364, 期 -, 页码 246-260出版社
ELSEVIER
DOI: 10.1016/j.jconrel.2023.10.033
关键词
Affinity-based delivery system; Alginate sulfate; Protein engineering; Heparin-binding peptide; Matrix metalloproteinase; Myocardial infarction
Sustained drug-release systems prolong the retention of therapeutic drugs within target tissues, reducing the need for repeated drug administration. The presented system provides controlled and universal drug-release by binding therapeutic proteins to alginate sulfate through heparin-binding peptide repeats.
Sustained drug-release systems prolong the retention of therapeutic drugs within target tissues to alleviate the need for repeated drug administration. Two major caveats of the current systems are that the release rate and the timing cannot be predicted or fine-tuned because they rely on uncontrolled environmental conditions and that the system must be redesigned for each drug and treatment regime because the drug is bound via interactions that are specific to its structure and composition. We present a controlled and universal sustained drug-release system, which comprises minute spherical particles in which a therapeutic protein is affinity-bound to alginate sulfate (AlgS) through one or more short heparin-binding peptide (HBP) sequence repeats. Employing post-myocardial infarction (MI) heart remodeling as a case study, we show that the release of C9-a matrix metalloproteinase-9 (MMP-9) inhibitor protein that we easily bound to AlgS by adding one, two, or three HBP repeats to its sequence-can be directly controlled by modifying the number of HBP repeats. In an in vivo study, we directly injected AlgS particles, which were bound to C9 through three HBP repeats, into the left ventricular myocardium of mice following MI. We found that the particles substantially reduced post-MI remodeling, attesting to the sustained, local release of the drug within the tissue. As the number of HBP repeats controls the rate of drug release from the AlgS particles, and since C9 can be easily replaced with almost any protein, our tunable sustained-release system can readily accommodate a wide range of protein-based treatments.
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