Department of Biomedical Engineering, Columbia University, New York, New York.
Biomedical Graduate Studies, Perelman School of Medicine at the University of Pennsylvania, Philadelphia, Pennsylvania.
J Biomed Mater Res A. 2018 Dec;106(12):3001-3008. doi: 10.1002/jbm.a.36489. Epub 2018 Oct 10.
The immune system maintains a balance between protection and tolerance. Regulatory T cells (Tregs) function as a vital tolerance mechanism in the immune system to suppress effector immune cells. Additionally, Tregs can be utilized as a form of immunotherapy for autoimmune disorders. As T cells have previously been shown to exhibit sensitivity to the rigidity of an activating substrate upon activation via IL-2 secretion, we herein explore the previously unknown effect of substrate rigidity on the induction of Tregs from conventional naïve mouse CD4 T cells. Substrates with modulatable rigidities ranging from a hundred kilopascals to a few megapascals were fabricated via poly(dimethylsiloxane). We found that there was a significant increase in Treg induction at lower substrate rigidities (i.e., E ~ 100 kPa) compared to higher rigidity levels (i.e., E ~ 3 MPa). To confirm that this significant difference in induction rate was truly related to T-cell mechanosensing, we administered compound Y-27632 to inhibit myosin contractility. In the presence of Y-27632, the myosin-based contractility was disrupted and, as a result, the difference in Treg induction caused by the substrate rigidity was abrogated. This study demonstrates that mechanosensing is involved in Treg induction and raises questions about the underlying molecular mechanisms involved in this process. © 2018 Wiley Periodicals, Inc. J Biomed Mater Res Part A: 106A: 3001-3008, 2018.
免疫系统在保护和耐受之间维持平衡。调节性 T 细胞(Tregs)作为免疫系统中的一种重要耐受机制,可抑制效应免疫细胞。此外,Tregs 可被用作自身免疫性疾病的免疫疗法形式。由于先前已经表明 T 细胞在通过 IL-2 分泌激活时对激活底物的刚性敏感,因此我们在此探讨了先前未知的底物刚性对常规幼稚 CD4 T 细胞诱导 Tregs 的影响。通过聚二甲基硅氧烷(poly(dimethylsiloxane))制造了具有从几百千帕到几兆帕可调刚度的基质。我们发现,与较高的刚性水平(即 E ~ 3 MPa)相比,在较低的基质刚性(即 E ~ 100 kPa)下 Treg 诱导显著增加。为了确认诱导率的这种显著差异确实与 T 细胞的机械感觉有关,我们给予化合物 Y-27632 以抑制肌球蛋白收缩性。在 Y-27632 的存在下,肌球蛋白的收缩性被破坏,并且由于该刚性导致的 Treg 诱导的差异被消除。这项研究表明,机械感觉参与了 Treg 的诱导,并提出了关于该过程中涉及的潜在分子机制的问题。 © 2018 威立出版社,公司。J Biomed Mater Res 部分 A:3001-3008,2018 年。