Author: Cooper, Paula O.; Haas, MaryEllen R.; Noonepalle, Satish kumar R.; Shook, Brett A.
Title: Dermal Drivers of Injury-Induced Inflammation: Contribution of Adipocytes and Fibroblasts Cord-id: tt7nksmb Document date: 2021_2_16
ID: tt7nksmb
Snippet: Irregular inflammatory responses are a major contributor to tissue dysfunction and inefficient repair. Skin has proven to be a powerful model to study mechanisms that regulate inflammation. In particular, skin wound healing is dependent on a rapid, robust immune response and subsequent dampening of inflammatory signaling. While injury-induced inflammation has historically been attributed to keratinocytes and immune cells, a vast body of evidence supports the ability of non-immune cells to coordi
Document: Irregular inflammatory responses are a major contributor to tissue dysfunction and inefficient repair. Skin has proven to be a powerful model to study mechanisms that regulate inflammation. In particular, skin wound healing is dependent on a rapid, robust immune response and subsequent dampening of inflammatory signaling. While injury-induced inflammation has historically been attributed to keratinocytes and immune cells, a vast body of evidence supports the ability of non-immune cells to coordinate inflammation in numerous tissues and diseases. In this review, we concentrate on the active participation of tissue-resident adipocytes and fibroblasts in pro-inflammatory signaling after injury, and how altered cellular communication from these cells can contribute to irregular inflammation associated with aberrant wound healing. Furthering our understanding of how tissue-resident mesenchymal cells contribute to inflammation will likely reveal new targets that can be manipulated to regulate inflammation and repair.
Search related documents:
Co phrase search for related documents- activation recruitment and adhesion molecule: 1, 2
- active role and additional insight: 1
- active role and adhesion molecule: 1
Co phrase search for related documents, hyperlinks ordered by date