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Increased capillary stalling is associated with endothelial glycocalyx loss in subcortical vascular dementia

Jin‐Hui Yoon, Paul Shin, Jongyoon Joo, Gaon S. Kim, Wang‐Yuhl Oh, Yong Jeong

2022Journal of Cerebral Blood Flow & Metabolism40 citationsDOIOpen Access PDF

Abstract

Proper regulation and patency of cerebral microcirculation are crucial for maintaining a healthy brain. Capillary stalling, i.e., the brief interruption of microcirculation has been observed in the normal brain and several diseases related to microcirculation. We hypothesized that endothelial glycocalyx, which is located on the luminal side of the vascular endothelium and involved in cell-to-cell interaction regulation in peripheral organs, is also related to cerebral capillary stalling. We measured capillary stalling and the cerebral endothelial glycocalyx (cEG) in male mice using in vivo optical coherence tomography angiography (OCT-A) and two-photon microscopy. Our findings revealed that some capillary segments were prone to capillary stalling and had less cEG. In addition, we demonstrated that the enzymatic degradation of the cEG increased the capillary stalling, mainly by leukocyte plugging. Further, we noted decreased cEG along with increased capillary stalling in a mouse model of subcortical vascular dementia (SVaD) with impaired cortical microcirculation. Moreover, gene expression related to cEG production or degradation changed in the SVaD model. These results indicate that cEG mediates capillary stalling and impacts cerebral blood flow and is involved in the pathogenesis of SVaD.

Topics & Concepts

MicrocirculationGlycocalyxMedicineCerebral blood flowEndotheliumPathogenesisVascular permeabilityVascular dementiaPathologyInternal medicineCardiologyDementiaImmunologyDiseaseTraumatic Brain Injury and Neurovascular DisturbancesAcute Ischemic Stroke ManagementBarrier Structure and Function Studies
Increased capillary stalling is associated with endothelial glycocalyx loss in subcortical vascular dementia | Litcius