Affinity-based controlled release of interleukin-4 from scaffolds via biotin-streptavidin interactions for immunomodulation

IF 10.5 1区医学 Q1 CHEMISTRY, MULTIDISCIPLINARY

Journal of Controlled Release Pub Date : 2025-06-09 DOI:10.1016/j.jconrel.2025.113943

Victoria A. Nash, Juan F. Cortes-Troncoso, Phoebe E. Chua, Kara L. Spiller

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Abstract

Immunomodulatory cytokines like interleukin-4 (IL-4) can modulate host immune cell behavior to improve tissue integration, but versatile strategies for modifying complex biomaterials to control the release of such cytokines are limited. Bioconjugation strategies using biotin-avidin interactions offer a promising approach since biotin can be conjugated to proteins, biomaterials, and even cells, without compromising their function. Although it is known that conjugation of biotin to large biomolecules reduces its binding affinity for avidin and avidin variants, the potential to control the release of biotinylated molecules by leveraging these changes in affinity interactions has not been thoroughly investigated. Moreover, the effects of biotin and avidin variants on innate immunity are poorly understood. Therefore, the goals of this study were to determine if biotin-avidin interactions could be manipulated to control the release of IL-4 from biomaterials and to investigate the subsequent effects on primary human macrophage phenotype. First, we characterized the effects of soluble biotin, avidin, and avidin variants, streptavidin and CaptAvidin, on the phenotype of primary human macrophages from 8 different donors using RNA sequencing, finding that CaptAvidin influenced macrophage gene expression much more than the other variants. Then, after evaluating how bioconjugation parameters influenced biotin density and avidin variant binding to porous gelatin scaffolds, we found that biotin-avidin affinity interactions sustained the release of biotinylated IL-4 (bIL-4) from biotinylated and desthiobiotinylated scaffolds bound with either avidin or streptavidin for up to 14 days in vitro. Finally, we measured the response of primary human macrophages from 5 donors to the bIL-4-releasing scaffolds, finding an increase in reparative macrophage phenotype gene expression when bIL-4 was released via biotin-streptavidin interactions compared to scaffolds that relied solely on desorption-based release. These results highlight how biotin-streptavidin interactions can be leveraged for controlled release to achieve an immunomodulatory drug delivery system.

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通过生物素-链亲和素相互作用从支架中控制白介素-4的亲和力释放，用于免疫调节

免疫调节细胞因子如白细胞介素-4 （IL-4）可以调节宿主免疫细胞行为以改善组织整合，但修饰复杂生物材料以控制这些细胞因子释放的通用策略是有限的。利用生物素-亲和素相互作用的生物偶联策略提供了一种很有前途的方法，因为生物素可以偶联到蛋白质、生物材料甚至细胞上，而不会损害它们的功能。虽然已知生物素与大分子的结合降低了其对亲和素和亲和素变体的结合亲和力，但通过利用亲和相互作用中的这些变化来控制生物素化分子释放的潜力尚未得到彻底的研究。此外，生物素和亲和素变异对先天免疫的影响尚不清楚。因此，本研究的目的是确定是否可以操纵生物素-亲和素相互作用来控制生物材料中IL-4的释放，并研究其对原代人巨噬细胞表型的后续影响。首先，我们利用RNA测序技术表征了可溶性生物素、亲和素以及亲和素变体链亲和素和CaptAvidin对来自8种不同供体的人原代巨噬细胞表型的影响，发现CaptAvidin比其他变体更能影响巨噬细胞基因表达。然后，在评估了生物偶联参数如何影响生物素密度和亲和素变体与多孔明胶支架的结合后，我们发现生物素-亲和素的亲和相互作用使生物素化和去硫代生物素化的支架与亲和素或链亲和素结合的生物素化IL-4 （bIL-4）在体外的释放时间长达14 天。最后，我们测量了来自5个供体的原代人巨噬细胞对释放bIL-4的支架的反应，发现当通过生物素-链亲和素相互作用释放bIL-4时，与仅依赖解吸释放的支架相比，修复性巨噬细胞表型基因表达增加。这些结果强调了如何利用生物素-链亲和素相互作用进行控制释放，以实现免疫调节药物递送系统。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Controlled Release 医学-化学综合

CiteScore

18.50

自引率

5.60%

发文量

700

审稿时长

39 days

期刊介绍： The Journal of Controlled Release (JCR) proudly serves as the Official Journal of the Controlled Release Society and the Japan Society of Drug Delivery System. Dedicated to the broad field of delivery science and technology, JCR publishes high-quality research articles covering drug delivery systems and all facets of formulations. This includes the physicochemical and biological properties of drugs, design and characterization of dosage forms, release mechanisms, in vivo testing, and formulation research and development across pharmaceutical, diagnostic, agricultural, environmental, cosmetic, and food industries. Priority is given to manuscripts that contribute to the fundamental understanding of principles or demonstrate the advantages of novel technologies in terms of safety and efficacy over current clinical standards. JCR strives to be a leading platform for advancements in delivery science and technology.