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Macrophages are cells of the innate immune system and represent an important component of the first-line defense against pathogens and tumor cells. Here, their diverse functions in inflammation and tumor defense are described, and the mechanisms, tools, and activation pathways and states applied are presented. The main focus is on the role and origin of reactive oxygen species (ROS), the important signal pathways TLR/NF-κB, and the M1/M2 polarization of macrophages.
In summary, the transcriptome data demonstrated that acute RAP for 7h induces significant changes in the expression of several left atrial genes, including those reflecting ANG II-mediated oxidative stress, tissue remodeling, and energy depletion. Furthermore, the results from the dronedarone study demonstrated that this drug is capable of attenuating most of RAP-induced changes in oxidative stress-related gene expression. Accordingly, the haemodynamic parameters also showed that dronedarone reduced RAP-induced microvascular flow abnormalities. This view is supported by the observation that in the used porcine model of acute AF, dronedarone decreased RAP-dependent PKC phosphorylation, NADPH isoform expression, F2-isoprostane release and IκBα phosphorylation. Additionally, the results of the irbesartan study indicate that ET-1 contributes to AF-dependent atrial fibrosis by synergistic activity with ANG-II to stimulate SGK1 expression and enhance phosphorylation of the SGK1 protein which, in turn, induces CTGF. The latter has been consistently associated with tissue fibrosis. In support of this view, in vitro analyses using HL-1 cells verified CTGF induction after short episodes of RAP and additionally in response to exogenous addition of ET-1. Accordingly, irbesartan was shown to attenuate most of the RAP-dependent changes in atrial or ventricular gene expression.