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Merck
CN
  • Tuning the immune reaction to manipulate the cell-mediated degradation of a collagen barrier membrane.

Tuning the immune reaction to manipulate the cell-mediated degradation of a collagen barrier membrane.

Acta biomaterialia (2020-04-09)
Jinghan Fang, Runheng Liu, Shoucheng Chen, Quan Liu, Huaxiong Cai, Yixiong Lin, Zetao Chen, Zhuofan Chen
摘要

In order to elicit a desired barrier function in guided bone regeneration (GBR) or guided tissue regeneration (GTR), a barrier membrane has to maintain its integrity for a certain period of time to guarantee the regeneration of target tissue. Due to the complexity and variety of clinical conditions, the healing time required for tissue regeneration varies from one case to another, which implies the need for tailoring the barrier membranes to diverse conditions via manipulating their degradation property. As a "non-self" biomaterial, a barrier membrane will inevitably trigger host-membrane immune response after implantation, which entails the activation of phagocytic cells. In the degradation process of a barrier membrane, the cell-mediated degradation may play a more vital role than enzymatic and physicochemical dissolution; however, limited studies have been carried out on this topic. In this context, we investigated the cell-mediated degradation and illustrated the possible key cells and mediators for immunomodulation via in vivo and in vitro studies. We discovered that IL-13, a key cytokine mainly released by T helper 2 cells (Th2), induced the formation of foreign body giant cells (FBGCs), thus resulting in membrane degradation. Neutralizing IL-13 could suppress membrane degradation and formation of FBGC. The contributions of this study are (1) unveiling the immune mechanisms underlying the cell-mediated collagen membrane degradation; (2) allowing the formation of an "immunodegradation" strategy to develop an "immune-smart" barrier membrane to manipulate its degradation; (3) providing the key regulatory immune cells and cytokines for the immunomodulation target in collagen membrane degradation. STATEMENT OF SIGNIFICANCE: The significance of this research includes.

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Sigma-Aldrich
Triton X-100, laboratory grade
Sigma-Aldrich
IL13RA2 human, recombinant, expressed in E. coli, ≥85% (SDS-PAGE)