生物材料支架输送IL-33作为局部免疫调节剂支持脂肪组织细胞移植的评价

Jeffrey M.H. Liu , Xiaomin Zhang , Shelby Joe , Xunrong Luo , Lonnie D. Shea
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引用次数: 27

摘要

新的免疫调节策略的发展可能会减少对全身免疫抑制的需求,这将极大地促进基于细胞的治疗的应用。生物材料支架上的细胞移植提供了一个独特的机会来设计一个局部极化免疫原性抗原生成的位点。在此,我们研究了IL-33的局部递送,IL-33是一种新型细胞因子,在某些移植模型中已被证明具有有益的免疫调节作用,可介导脂肪组织的抗炎特性,以确定其作为免疫调节剂使用的可行性。结果从植入附睾脂肪的聚乳酸-羟基乙酸酯(PLG)支架中局部递送IL-33特异性地增加了空白支架植入物和同种异体胰岛植入支架中CD4+ T细胞Foxp3+群。在同种异体胰岛移植中,我们发现IL-33的递送导致移植物保护性T细胞的局部上调,其中80%的局部CD4+群体是Foxp3+,移植物破坏性CD8+ T细胞的总数减少,导致移植物存活时间延长。有趣的是,局部IL-33还通过主要诱导局部Th2细胞因子(包括IL-4和IL-5)的上调来延迟胰岛的移植,从而导致ST2+ 2型先天淋巴样细胞(ILC2s)和Siglec F+嗜酸性粒细胞的增加。结论生物材料支架的局部IL-33递送可增加脂肪组织中富集的Tregs,减少移植物破坏性T细胞群,但也可能促进先天细胞群,从而延迟细胞植入。
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Evaluation of biomaterial scaffold delivery of IL-33 as a localized immunomodulatory agent to support cell transplantation in adipose tissue

Introduction

The development of novel immunomodulatory strategies that might decrease the need for systemic immune suppression would greatly enable the utility of cell-based therapies. Cell transplantation on biomaterial scaffolds offers a unique opportunity to engineer a site to locally polarize immunogenic antigen generation. Herein, we investigated the localized delivery of IL-33, which is a novel cytokine that has been shown to have beneficial immunomodulatory effects in certain transplant models as mediating anti-inflammatory properties in the adipose tissue, to determine its feasibility for use as an immunomodulatory agent.

Results

Localized IL-33 delivery from poly(lactide-co-glycolide) (PLG) scaffolds implanted into the epididymal fat specifically increased the Foxp3+ population of CD4+ T cells in both blank scaffold implants and scaffolds seeded with allogeneic islets. In allogeneic islet transplantation, we found IL-33 delivery results in a local upregulation of graft-protective T cells where 80% of the local CD4+ population is Foxp3+ and overall numbers of graft destructive CD8+ T cells are decreased, resulting in a prolonged graft survival. Interestingly, local IL-33 also delayed islet engraftment by primarily inducing a local upregulation of Th2 cytokines, including IL-4 and IL-5, leading to increased populations of ST2+ Type 2 innate lymphoid cells (ILC2s) and Siglec F+ eosinophils.

Conclusions

These results suggest that local IL-33 delivery from biomaterial scaffolds can be used to increase Tregs enriched in adipose tissue and reduce graft-destructive T cell populations but may also promote innate cell populations that can delay cell engraftment.

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