通过模拟衣康酸作为先天免疫动力源功能效应的新型聚合物实现巨噬细胞免疫调节。
Macrophage immunomodulation through new polymers that recapitulate functional effects of itaconate as a power house of innate immunity.
作者信息
Huyer L Davenport, Mandla S, Wang Y, Campbell S, Yee B, Euler C, Lai B F, Bannerman D, Lin D S Y, Montgomery M, Nemr K, Bender T, Epelman S, Mahadevan R, Radisic M
机构信息
Department of Chemical Engineering and Applied Chemistry, University of Toronto, Toronto, Ontario, Canada.
Institute of Biomedical Engineering, University of Toronto, Toronto, Ontario, Canada.
出版信息
Adv Funct Mater. 2021 Feb 3;31(6). doi: 10.1002/adfm.202003341. Epub 2020 Nov 13.
Abstract
Itaconate (ITA) is an emerging powerhouse of innate immunity with therapeutic potential that is limited in its ability to be administered in a soluble form. We developed a library of polyester materials that incorporate ITA into polymer backbones resulting in materials with inherent immunoregulatory behavior. Harnessing hydrolytic degradation release from polyester backbones, ITA polymers resulted in the mechanism specific immunoregulatory properties on macrophage polarization in vitro. In a functional assay, the polymer-released ITA inhibited bacterial growth on acetate. Translation to an model of biomaterial associated inflammation, intraperitoneal injection of ITA polymers demonstrated a rapid resolution of inflammation in comparison to a control polymer silicone, demonstrating the value of sustained biomimetic presentation of ITA.
摘要
衣康酸(ITA)是一种新兴的具有治疗潜力的固有免疫强效物质,但其以可溶形式给药的能力有限。我们开发了一个聚酯材料库,将ITA纳入聚合物主链,从而得到具有固有免疫调节行为的材料。利用聚酯主链的水解降解释放,ITA聚合物在体外对巨噬细胞极化产生了机制特异性的免疫调节特性。在功能试验中,聚合物释放的ITA抑制了醋酸盐上的细菌生长。将其转化为生物材料相关炎症模型,与对照聚合物硅酮相比,腹腔注射ITA聚合物显示炎症迅速消退,证明了持续仿生呈现ITA的价值。
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