Abstract
Background and aimsEndothelial surface glycocalyx shedding plays a role in endothelial dysfunction and increases vessel wall permeability, which can lead to inflammation and atherogenesis. We sought to elucidate whether a high fat diet (HFD) or disturbed blood flow conditions, both of which are atherogenic risk factors, would contribute more detrimentally to pre-atherosclerotic loss of endothelial glycocalyx integrity and vascular inflammation.MethodsSix to seven week-old C57BL/6-background apolipoprotein-E-knockout (ApoE-KO) male mice were either fed a chow diet, fed a modified Western HFD, and/or subjected to a partial left carotid artery (LCA) ligation procedure to induce disturbed blood flow patterns in the LCA. Mice were sacrificed after 1 week of experimental conditions. Both LCA and right carotid artery (RCA) vessels were dissected and preserved to compare glycocalyx coverage and thickness as well as macrophage accumulation in carotid arterial walls amongst and between cohorts.ResultsGlycocalyx coverage of the endothelium was significantly reduced in the LCAs of HFD fed mice when compared to the control. More significant reduction in glycocalyx coverage occurred in the LCAs of mice exposed to disturbed flow by partial LCA ligation when compared to the control. No differences were found in glycocalyx coverage of RCAs from all cohorts. Regarding inflammation, no difference in macrophage accumulation in carotid arterial walls was observed when comparing the LCAs and RCAs of control and HFD fed mice. However, macrophage infiltration in vessel walls showed a 20-fold increase in the LCAs exposed to disturbed flow following ligation, when compared to control LCAs, while no such statistical difference was observed between the RCAs of the group.ConclusionsIn our mouse model, endothelial glycocalyx integrity was compromised more by disturbed blood flow patterns than by exposure of the carotid vessel to HFD conditions. The pathophysiological implications include endothelial dysfunction, which correlates to macrophage infiltration in vessel walls and promotes atherogenesis.
Highlights
Background and aimsEndothelial surface glycocalyx shedding plays a role in endothelial dysfunction and increases vessel wall permeability, which can lead to inflammation and atherogenesis
Their work has been corroborated and extended by others showing that local hemodynamics plays a vital role in GCX shedding and inflammation [8,9,10]
The results of this study suggest that blood flow patterns and not a high fat diet (HFD) have a greater impact on vascular GCX integrity, correlating to more prominent dysfunctionality of the endothelium, a predecessor to atherogenesis
Summary
Endothelial surface glycocalyx shedding plays a role in endothelial dysfunction and increases vessel wall permeability, which can lead to inflammation and atherogenesis. The endothelial glycocalyx (GCX) acts as a buffer between the endothelium surface and blood flow-derived shear forces and contributes to vascular barrier functionality by limiting leakage of fluid and macromolecules. In geometrically complex vasculature, vessel walls are exposed to non-uniform flow patterns with low wall shear stresses due to blood recirculation. In these vessels, endothelial cells exhibit rapid dysfunction, predisposing the vessels to endothelial-dependent atherogenesis. Their work has been corroborated and extended by others showing that local hemodynamics plays a vital role in GCX shedding and inflammation [8,9,10]
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