Summary: | This study investigated whether oxLDL and/or angiotensin (Ang) II signaling pathways mediate traffic-generated air pollution- exposure induced alterations in blood-brain barrier (BBB) integrity and permeability in a healthy wild type (C57Bl/6) mouse model; additionally, whether these outcomes are exacerbated by a high fat-diet investigated. An environmentally relevant concentration of a mixture of vehicle engine exhaust (MVE) was used. To investigate the hypotheses, 12 wk old male C57Bl/6 mice on either a high fat (HF) or low fat (LF) diet were randomly assigned to inhalational exposure of either filtered-air (FA) or 30 µg PM/m3 diesel exhaust + 70 µg PM/m3 gasoline exhaust (MVE) for 6 hr/day for 30 days. Additionally, we examined mechanisms involved in MVE-mediated alterations BBB integrity using a novel BBB co-culture in vitro model, consisting of mouse primary cerebral vascular endothelial cells on an apical transwell and astrocytes in the basal compartment, which was treated with plasma from the mice on our exposure study. Our in vivo exposure study results showed that MVE inhalation resulted in increased circulating plasma oxLDL and Ang II, compared to FA controls. Additionally, we observed increased cerebral microvascular expression of oxLDL receptors, LOX-1 and CD-36, and Ang II receptor subtype 1 (AT1) in MVE-exposed C57Bl/6 mice, which was further exacerbated with consumption of an HF diet. Increased signaling of both Ang II and oxLDL was associated with decreased BBB integrity, as evidenced by the concurrent reduction in expression of tight junction (TJ) protein claudin-5 and increased permeability of sodium fluorescein (Na-F) from the blood into the cerebral parenchyma. Our results suggest that possible mechanisms involved in oxLDL and/or Ang II-mediated alterations in BBB integrity include oxidative stress and upregulated expression and activity of matrix metalloproteinase (MMP)-9, which is associated with degradation of TJ proteins in the BBB. Our in vitro BBB co-culture results confirm our in vivo findings, as we observe increased BBB permeability (TEER) and decreased integrity (decreased expression of TJ proteins) in the endothelial (apical) layer when treated with plasma from MVE-exposed mice, which was further exacerbated when treated with plasma from MVE-exposed mice on an HF diet. Pre-treatment of the endothelial cells with the AT1 receptor antagonist, Losartan, prior to applying plasma, resulted in attenuation of the alterations observed in endothelial integrity in the BBB co-culture treated with plasma from either MVE+LF or MVE+HF animals. These results suggest Ang II – AT1 signaling mediate, at least in part, the alterations in the BBB integrity observed after exposure to MVE. Moreover, we observed that treatment of the endothelial (apical) layer with plasma from MVE-exposed animals resulted in increased production of inflammatory mediators interleukin-6 (IL-6) and transforming growth factor-β in the astrocyte media (basal compartment). Additionally, these same astrocytes also displayed increased production of angiotensin-converting enzyme (ACE) and also AT1 receptor mRNA expression, while showing decreased expression of the aryl hydrocarbon receptor (AhR) and glutathione peroxidase (GPx). Collectively, these results suggest that exposure to the ubiquitous environmental air pollutant, vehicle engine emissions, results in increased oxLDL and Ang II signaling in the cerebral microvasculature, which is associated with decreased vessel integrity and increased oxidative stress and inflammatory signaling in the CNS. The observed detrimental outcomes are even further exacerbated when coupled with the consumption of an HF diet.
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