Abstract
AbstractBackgroundCerebrovascular endothelial cells (EC) are crucial regulators of cerebral homeostasis and function through the maintenance of the blood‐brain barrier (BBB). ECs damage and/or dysfunction may result in defects in brain clearance and perfusion, microhemorrhages, inflammation, and neurodegeneration. Damage to the ECs may result from cardiovascular risk factors (CVRF) such as high levels of homocysteine (Hcy), known as hyperhomocysteinemia (HHcy). In Alzheimer’s Disease (AD) and Cerebral Amyloid Angiopathy (CAA), the presence of a CVRF may further exacerbate cerebrovascular function and neurodegeneration. EC do not rely highly on mitochondrial ATP production as they are glycolytic cells. Instead, EC mitochondria serve mostly as signaling organelles, which sense cellular damage and mediate downstream pathways such as inflammation. In this study, we aim to understand the mechanistic nature of endothelial mitochondrial dysfunction and its elicited pathways in Aβ‐ and mixed (Aβ+HHcy)‐mediated vascular pathologies. Understanding the mechanisms by which the mitochondria mediate EC inflammation, may pave the way to new roads for therapeutic advancements in the field.MethodHuman brain microvascular ECs were challenged with Aβ, Hcy, or the combination. Mitochondrial metabolic function, inflammatory cascades and signals, and EC barrier function were assessed.ResultThe presence of Aβ, but not Hcy, induced deficits in mitochondrial respiration and ATP production. In addition, there is evidence of mitochondrial fragmentation and the expression of fission proteins. Preliminary results further suggest a release of mitochondrial danger associated molecular patterns (mtDAMPs) that can promote an inflammatory cascade. The mitochondrial damage and subsequent inflammatory response are associated with an increase in EC barrier permeability and cytokine release, which is exacerbated in the presence of Hcy.ConclusionThe EC dysfunction associated with Aβ is accompanied by severe deficits in mitochondrial metabolism and the release of mtDAMPS. The presence of Hcy exacerbates some of the detrimental effects of Aβ, particularly on mtDAMPS and BBB function, but Hcy does not appear to affect mitochondrial metabolic changes. Overall, our results reveal a novel role for mtDAMPs in vascular dysfunction in the presence of Aβ and/or Hcy.
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