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Enhancing immunogenicity to PLGA microparticulate systems by incorporation of alginate and RGD-modified alginate.通过将藻酸盐和 RGD 修饰的藻酸盐掺入 PLGA 微球系统来增强免疫原性。
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PLGA-chitosan/PLGA-alginate nanoparticle blends as biodegradable colloidal gels for seeding human umbilical cord mesenchymal stem cells.PLGA-壳聚糖/PLGA-海藻酸钠纳米粒子共混物作为可生物降解的胶体凝胶用于种植人脐带间充质干细胞。
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Alginate-chitosan-PLGA composite microspheres enabling single-shot hepatitis B vaccination.海藻酸钠-壳聚糖-PLGA 复合微球实现单次乙型肝炎疫苗接种。
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免疫调节肽的疫苗样控释递送治疗实验性自身免疫性脑脊髓炎。

Vaccine-like controlled-release delivery of an immunomodulating peptide to treat experimental autoimmune encephalomyelitis.

机构信息

Department of Pharmaceutical Chemistry, School of Pharmacy, University of Kansas , Lawrence, Kansas, USA.

出版信息

Mol Pharm. 2012 Apr 2;9(4):979-85. doi: 10.1021/mp200614q. Epub 2012 Mar 13.

DOI:10.1021/mp200614q
PMID:22375937
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3357633/
Abstract

The objective of this work is to use colloidal gel from alginate-chitosan-PLGA complex to deliver Ac-PLP-BPI-NH₂-2 peptide in a controlled-release manner as a vaccine-like therapeutic to suppress experimental autoimmune encephalomyelitis (EAE) in the mouse model. Oppositely charged PLGA nanoparticles were prepared by a solvent diffusion method. The carboxyl group of the alginate and the amine group of the chitosan coated the nanoparticles with negative and positive charges, respectively. The peptide (Ac-PLP-BPI-NH₂-2), designed to bind to MHC-II and ICAM-1 simultaneously, was formulated into the colloidal gel by physical mixture. Vaccine-like administration of the peptide-loaded colloidal gel (Ac-PLP-BPI-NH₂-2-NP) was achieved by subcutaneous (sc) injection to EAE mice. Disease severity was measured using clinical scoring and percent change in body weight. Cytokine production was determined using the splenocytes from Ac-PLP-BPI-NH₂-2-NP-treated mice and compared to that of controls. Ac-PLP-BPI-NH₂-2-NP suppressed and delayed the onset of EAE as well as Ac-PLP-BPI-NH₂-2 when delivered in a vaccine-like manner. IL-6 and IL-17 levels were significantly lower in the Ac-PLP-BPI-NH₂-2-NP-treated mice compared to the mouse group treated with blank colloidal gel, suggesting that the mechanism of suppression of EAE is due to a shift in the immune response away from Th17 production. The results of this study suggest that a one-time sc administration of Ac-PLP-BPI-NH₂-2 formulated in a colloidal gel can produce long-term suppression of EAE by reducing Th17 proliferation.

摘要

本研究旨在使用海藻酸钠-壳聚糖-PLGA 复合胶体凝胶以控制释放方式递呈 Ac-PLP-BPI-NH₂-2 肽,作为疫苗样治疗剂来抑制实验性自身免疫性脑脊髓炎(EAE)在小鼠模型中的发生。通过溶剂扩散法制备带相反电荷的 PLGA 纳米粒。海藻酸钠的羧基和壳聚糖的氨基分别将纳米粒带负电荷和正电荷。设计的肽(Ac-PLP-BPI-NH₂-2)可同时与 MHC-II 和 ICAM-1 结合,通过物理混合方式将其包封于胶体凝胶中。通过皮下(sc)注射将载肽胶体凝胶(Ac-PLP-BPI-NH₂-2-NP)施用于 EAE 小鼠,实现疫苗样给药。通过临床评分和体重变化百分比来测量疾病严重程度。通过 Ac-PLP-BPI-NH₂-2-NP 处理的小鼠脾细胞测定细胞因子产生,并与对照进行比较。以疫苗样方式递送 Ac-PLP-BPI-NH₂-2-NP 可抑制和延迟 EAE 的发生和 Ac-PLP-BPI-NH₂-2 的发生。与用空白胶体凝胶处理的小鼠组相比,Ac-PLP-BPI-NH₂-2-NP 处理的小鼠中 IL-6 和 IL-17 水平显著降低,表明 EAE 抑制的机制是由于免疫应答从 Th17 产生转移。本研究结果表明,一次 sc 给予 Ac-PLP-BPI-NH₂-2 胶体凝胶制剂可通过减少 Th17 增殖来长期抑制 EAE。