Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.6.4 (chondroitinase)
 2,039 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In order to elucidate the cytochemical properties of rat podocyte's membranes, the authors studied the constituents and distribution of glycocalyx and membrane cholesterol. Chromic-phosphotungstic acid (Cr-PTA) stain combined with enzyme digestive tests was used for the glycocalyx analysis. A digitonin fixation method was applied for the detection of membrane cholesterol. On the whole surface of podocytes, glycocalyx showed a strongly positive reaction to Cr-PTA. In normal rats, the reactivity on the urinary surface above the slit membrane of the podocyte foot processes was decreased after treatments with neuraminidase, hyaluronidase and heparitinase. The reactivity on the basal surface below the slit membrane disappeared only after treatment with chondroitinase ABC. In Puromycin Aminonucleoside nephrosis (PAN) rats, the foot processes were effaced extensively. Though a highly positive reactivity of Cr-PTA was observed on the urinary surface of the podocytes, the basal surface reacted weakly. The positive reaction of the urinary surface was not affected by the treatments with neuraminidase, hyaluronidase and heparitinase, but the weak reaction of the basal surface disappeared completely through chondroitinase ABC treatment. The distribution of membrane cholesterol was clearly revealed by the digitonin fixation method, showing digitonin cholesterol complexes of localized trilamellar structures. In normal rat podocytes the complexes were found on the urinary surface, with only a few on the basal surface. In PAN rats the complexes were seldom noticed either on the urinary or basal surfaces. The heterogeneous distribution of glycocalyx and membrane cholesterol seen in normal rat podocytes are changed remarkably under nephrotic condition.
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PMID:A cytochemical study of glycocalyx and the membrane cholesterol of rat glomerular podocytes. 226 73

Nephrosis is characterized by glomerular epithelial cell injury and a decrease in the glomerular basement membrane (GBM) proteoglycan content. Although CsA is a useful treatment for a group of patients with this disease, its mechanism of action is unclear. We have previously shown that in experimental nephrosis there is an increase in the glomerular production of tumour necrosis factor-alpha (TNF-alpha) and platelet-activating factor (PAF). Here we have studied the effect of CsA on kidney generation of TNF-alpha and PAF in puromycin aminonucleoside (PAN) nephrosis as well as on the synthesis of proteoglycans by cultured glomerular epithelial cells. Rats receiving CsA had, on day 8 of PAN injection, a significant reduction in proteinuria, blood cholesterol levels and in interstitial mononuclear cells. A diminution in glomerular production and urinary excretion of TNF-alpha and PAF was also noted. In in vitro studies, at 24 h of incubation PAF and TNF-alpha induced in glomerular epithelial cells a significant decrease in proteoglycan synthesis. Neither PAF nor TNF-alpha had any significant effect on glomerular epithelial cell proliferation. CsA alone induced a dose-response increase in proteoglycan synthesis and a slight decrease in cell proliferation. CsA also reversed the inhibitory effect of PAF and TNF-alpha on proteoglycan synthesis. However, CsA did not alter the pattern of proteoglycan production, remaining around 50% chondroitinase ABC-, 15% heparitinase-sensitive. Our results indicate that PAF and TNF-alpha could be implicated in the pathogenesis of nephrosis through the inhibition of proteoglycan synthesis by glomerular epithelial cells. The beneficial effect of CsA in nephrosis may be due to the recovery of the GBM charge selectivity caused by the normalization of glomerular PAF and TNF-alpha synthesis and the increase in proteoglycan synthesis by glomerular epithelial cells.
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PMID:Cyclosporin A (CsA) modulates the glomerular production of inflammatory mediators and proteoglycans in experimental nephrosis. 853 80

After in vivo administration of purified antibody against cultured mesangial cell (anti-MC IgG), glomerular basement membrane (GBM) was selectively bound. The glomerular bound anti-MC IgG exhibited a monospecificity for a 109-kDa antigen extracted from cultured mesangial cells and normal GBM. The antigen was not digestible by collagenase, heparitinase, or chondroitinase and was revealed by immunoelectron microscopy of a normal glomerular component to be predominantly distributed along the lamina rara externa of GBM and to be absent in mesangium. The ample expression of the antigen in puromycin aminonucleoside nephrosis implies that it represents a significant sclerotic material in glomerulonephritis. Abnormal production of GBM components by mesangial cells may play an important role in glomerulosclerosis.
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PMID:Coexpression of a novel glomerular basement membrane matrix material in mesangial cell culture and glomerulosclerosis. 854 99