School of Engineering and Applied Sciences, Harvard University, Cambridge, MA.
Wyss Institute, Boston, MA.
J Periodontol. 2020 Nov;91(11):1475-1485. doi: 10.1002/JPER.19-0411. Epub 2020 Apr 20.
Periodontal disease results from the pathogenic interactions between the tissue, immune system, and microbiota; however, standard therapy fails to address the cellular mechanism underlying the chronic inflammation. Dendritic cells (DC) are key regulators of T cell fate, and biomaterials that recruit and program DC locally can direct T cell effector responses. We hypothesized that a biomaterial that recruited and programmed DC toward a tolerogenic phenotype could enrich regulatory T cells within periodontal tissue, with the eventual goal of attenuating T cell mediated pathology.
The interaction of previously identified factors that could induce tolerance, granulocyte-macrophage colony stimulating factor (GM-CSF) and thymic stromal lymphopoietin (TSLP), with the periodontitis network was confirmed in silico. The effect of the cytokines on DC migration was explored in vitro using time-lapse imaging. Finally, regulatory T cell enrichment in the dermis and periodontal tissue in response to alginate hydrogels delivering TSLP and GM-CSF was examinedin vivo in mice using immunohistochemistry and live-animal imaging.
The GM-CSF and TSLP interactome connects to the periodontitis network. GM-CSF enhances DC migration in vitro. An intradermal injection of an alginate hydrogel releasing GM-CSF enhanced DC numbers and the addition of TSLP enriched FOXP3+ regulatory T cells locally. Injection of a hydrogel with GM-CSF and TSLP into the periodontal tissue in mice increased DC and FOXP3+ cell numbers in the tissue, FOXP3+ cells in the lymph node, and IL-10 in the tissue.
Local biomaterial-mediated delivery of GM-CSF and TSLP can enrich DC and FOXP3+ cells and holds promise for treating the pathologic inflammation of periodontal disease.
牙周病是由组织、免疫系统和微生物群之间的致病相互作用引起的;然而,标准疗法未能解决慢性炎症的细胞机制。树突状细胞(DC)是 T 细胞命运的关键调节剂,募集和局部编程 DC 的生物材料可以指导 T 细胞效应反应。我们假设,募集和编程 DC 向耐受性表型的生物材料可以在牙周组织内富集调节性 T 细胞,最终目标是减轻 T 细胞介导的病理学。
在计算机中证实了先前确定的可以诱导耐受的因素(粒细胞-巨噬细胞集落刺激因子(GM-CSF)和胸腺基质淋巴细胞生成素(TSLP))与牙周炎网络的相互作用。在体外使用延时成像技术研究细胞因子对 DC 迁移的影响。最后,通过免疫组织化学和活体成像检查在体内用海藻酸钠水凝胶递送 TSLP 和 GM-CSF 对真皮和牙周组织中调节性 T 细胞的富集。
GM-CSF 和 TSLP 相互作用组与牙周炎网络相连。GM-CSF 增强了体外 DC 的迁移。GM-CSF 释放的海藻酸钠水凝胶的真皮内注射增强了 DC 数量,而 TSLP 的添加则局部富集了 FOXP3+调节性 T 细胞。向小鼠牙周组织中注射 GM-CSF 和 TSLP 的水凝胶增加了组织中的 DC 和 FOXP3+细胞数量、淋巴结中的 FOXP3+细胞和组织中的 IL-10。
局部生物材料介导的 GM-CSF 和 TSLP 递送可以富集 DC 和 FOXP3+细胞,有望治疗牙周病的病理性炎症。
