Introduction
Resolution of acute inflammation is regulated by endogenous lipid mediators derived from polyunsaturated fatty acids such as docosahexaenoic acid (DHA), however little is known about mechanisms of resolution in vascular injury. We investigated the effects of the DHA-derived mediator Mar1 on VSMC phenotype responses.
Methods
Primary human VSMCs were obtained from saphenous vein. VSMC were pretreated with Mar1 (10-100nM) then exposed to TNF-α (10ng/ml), and inflammatory responses assessed using a monocyte adhesion (U937) assay, expression of cell adhesion molecules and pro-inflammatory molecules (qPCR, western blot, ELISA), and production of superoxide (DHE). VSMC migration was measured in a transwell assay with PDGF-AB as the agonist, and cyotskeletal changes were assessed by actin-phalloidin staining.
Results
Mar-1 (100 nM) reduced U937 adhesion to TNF-stimulated VSMC, VCAM-1, and pro-inflammatory cytokine (IL-6, IL-8) expression. Superoxide production measured by DHE fluorescence was reduced by 57% (p=0.002) and Nox4 expression was markedly attenuated (43%, p=0.01). Mar-1 (0.01-100nM) induced rapid cytoskeletal changes with increased cell area, and reduced VSMC migration (76%, p=0.004) to PDGF-AB (50ng/ml; Figure).
Conclusions
Mar-1 attenuates TNF-α inflammatory activation of VSMC, with reduction in pro-inflammatory gene expression, oxidant stress, and monocyte adhesion. Mar-1 reduces actin polymerization and inhibits VSMC chemotaxis to PDGF. Pro-resolving mediators may represent a new class of endogenous vascular therapeutics.
Actin polymerization stabilizes α4β1 integrin anchors that mediate monocyte adhesion