Article Synopsis
- Macrophages can change their type based on environmental signals, and PPARγ drives significant changes when stimulated by IL-4 repeatedly.
- Ligand-insensitive PPARγ interacts directly with DNA to create an environment that enhances gene expression, enabling macrophages to "remember" past stimuli.
- This mechanism helps regulate genes involved in tissue repair during muscle regeneration, indicating that PPARγ plays a crucial role in macrophage function and response in healing processes.
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Article Abstract
Macrophages polarize into distinct phenotypes in response to complex environmental cues. We found that the nuclear receptor PPARγ drove robust phenotypic changes in macrophages upon repeated stimulation with interleukin (IL)-4. The functions of PPARγ on macrophage polarization in this setting were independent of ligand binding. Ligand-insensitive PPARγ bound DNA and recruited the coactivator P300 and the architectural protein RAD21. This established a permissive chromatin environment that conferred transcriptional memory by facilitating the binding of the transcriptional regulator STAT6 and RNA polymerase II, leading to robust production of enhancer and mRNAs upon IL-4 re-stimulation. Ligand-insensitive PPARγ binding controlled the expression of an extracellular matrix remodeling-related gene network in macrophages. Expression of these genes increased during muscle regeneration in a mouse model of injury, and this increase coincided with the detection of IL-4 and PPARγ in the affected tissue. Thus, a predominantly ligand-insensitive PPARγ:RXR cistrome regulates progressive and/or reinforcing macrophage polarization.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6197058 | PMC |
| http://dx.doi.org/10.1016/j.immuni.2018.09.005 | DOI Listing |
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