Elevated capillary tube hematocrit reflects degradation of endothelial cell glycocalyx by oxidized LDL

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Elevated capillary tube hematocrit reflects degradation of endothelial cell glycocalyx by oxidized LDL

Alina A. Constantinescu, Hans Vink, and Jos A. E. Spaan

Department of Medical Physics, University of Amsterdam, 1100 DE Amsterdam, The Netherlands

Proteoglycans and plasma proteins bound to the endothelial cell glycocalyx are essential for vascular function, but at thesame time, they lower capillary tube hematocrit by reducing capillaryvolume available to flowing blood. Because oxidized low-densitylipoproteins (oxLDL) reduce the effective thickness of the glycocalyx(Vink H, Constantinescu AA, and Spaan JAE. Circulation 101: 1500-1502,2000), we designed the present study to determine whether thisis caused by pathological degradation of glycocalyx constituentsor increased glycocalyx deformation by elevated shear forces offlowing blood. Capillaries from the right cremaster muscle of24 hamsters were examined by using intravital microscopy aftersystemic administration of normal LDL (n = 4), moderate oxLDL(6-h oxidation with CuSO₄, n = 7), severe oxLDL (18-h oxidation,n = 5), and moderate oxLDL plus superoxide dismutase (SOD) andcatalase (n = 8). Capillary tube hematocrit increased from 0.16± 0.03 to 0.37 ± 0.05 and from 0.15 ± 0.01 to 0.31 ± 0.03 aftermoderate oxLDL and severe oxLDL, respectively. These changes wereparalleled by increases in red blood cell flux from 8.7 ± 1.9to 13.8 ± 3 and from 10.7 ± 2.1 to 16.3 ± 3.2 cells/s after moderateoxLDL and severe oxLDL, respectively, in the absence of changesin anatomic capillary diameter. Red blood cell velocity, as ameasure for the shear forces on the glycocalyx, was not affectedby oxLDL, whereas tissue pretreatment with SOD and catalase completelyabolished the effects of oxLDL on glycocalyx thickness, capillaryhematocrit, and red blood cell flux. We conclude that elevationof capillary tube hematocrit by oxLDL reflects degradation ofthe endothelial glycocalyx by oxygen-derived freeradicals.

endothelial surface layer; oxygen radicals

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				P. M. A. van Haaren, E. VanBavel, H. Vink, and J. A. E. Spaan Charge modification of the endothelial surface layer modulates the permeability barrier of isolated rat mesenteric small arteries Am J Physiol Heart Circ Physiol, December 1, 2005; 289(6): H2503 - H2507. [Abstract] [Full Text] [PDF]

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