Macrophages Regulate the Systemic Response to DNA Damage by a Cell Nonautonomous Mechanism
2015
The DNA-damage response (DDR) is a comprehensive and complex network of phosphorylation-mediated signaling pathways that originates endogenously from the DNA lesion and activates intrinsic DNA repair mechanisms. Here we describe a macrophage-dependent mechanism that regulates the response to DNA damage. We demonstrate that human monocytes, by releasing macrophage-derived HB-EGF, enhance DDR in neighboring cells suffering from DNA damage. Consequently, HB-EGF-treated cells exhibit higher double-strand break (DSB) rejoining and display lower levels of residual DSBs. Diethylnitrosamine (DEN) injection induce DSBs along with elevation in the number of macrophages and HB-EGF expression. Significantly, macrophage depletion or blocking HB-EGF activity results in higher levels of non-repairable DSBs, suggesting that macrophages play a role in the resolution of DNA damage via HB-EGF. This study establishes that macrophages, acting through the activation of the EGFR cascade, constitute an important cell-non-autonomous physiological component of the DDR and points to a unique role played by immune cells in maintaining genome integrity.
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