Exposure of cultured endothelial cells to endotoxin causes an increase in the amount of cellular heparan sulfate proteoglycan and a depletion of this molecule in the extracellular matrix. Concomitant with the decrease in the extracellular matrix is the appearance of a fraction of proteoglycan bearing altered carbohydrate moieties in the culture medium. beta-mercaptoethanol, mannitol, and dimethyl sulfoxide bring back to normal the structural properties of the proteoglycan in the medium and restore the matrix content in proteoglycan to a level comparable to that of control cells but do not affect the increase in the amount of proteoglycan on the cell. This "uncoupling" suggests that two independent chains of events underlie the synthetic and structural changes of the proteoglycan triggered by endotoxin in the endothelial cell.
HA concentrations are higher in the cover and ligament compared with the muscle in both genders and age groups, and there is a higher HA concentration in ligament compared with the muscle of young subjects of both genders. HA levels in the cover samples of younger women showed great variability that may relate to ovarian hormone levels, reflecting different phases of the menstrual cycle.
This study did not show altered biochemical characteristics in the ECM of parametrium and vaginal apex tissue of women either with or without uterine prolapse.
The capsular polysaccharide from E. Coli, strain K5 composed of ...-->4)beta-D-GlcA(1-->4)alpha-D-GlcNAc(1-->4)beta-D-GlcA (1-->..., chemically modified K5 polysaccharides, bearing sulfates at C-2 and C-6 of the hexosamine moiety and at the C-2 of the glucuronic acid residues as well as 2-O desulfated heparin were used as substrates to study the specificity of heparitinases I and II and heparinase from Flavobacterium heparinum. The natural K5 polysaccharide was susceptible only to heparitinase I forming deltaU-GlcNAc. N-deacetylated, N-sulfated K5 became susceptible to both heparitinases I and II producing deltaU-GlcNS. The K5 polysaccharides containing sulfate at the C-2 and C-6 positions of the hexosamine moiety and C-2 position of the glucuronic acid residues were susceptible only to heparitinase II producing deltaU-GlcNS,6S and deltaU,2S-GlcNS,6S respectively. These combined results led to the conclusion that the sulfate at C-6 position of the glucosamine is impeditive for the action of heparitinase I and that heparitinase II requires at least a C-2 or a C-6 sulfate in the glucosamine residues of the substrate for its activity. Iduronic acid-2-O-desulfated heparin was susceptible only to heparitinase II producing deltaU-GlcNS,6S. All the modified K5 polysaccharides as well as the desulfated heparin were not substrates for heparinase. This led to the conclusion that heparitinase II acts upon linkages containing non-sulfated iduronic acid residues and that heparinase requires C-2 sulfated iduronic acid residues for its activity.
Abdominal skin of post-bariatric women presented decreased heparan sulfate concentrations and perlecan expression and increased expression of collagen III.
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