Small leucine-rich proteoglycans (SLRPs), for example, decorin, biglycan, fibromodulin, and lumican, are extracellular matrix organizers and binding partners of TGF-b. Decorin is also involved in growth control and angiogenesis. Hence, these proteoglycans are likely of importance in the pathogenesis of diabetic glomerulosclerosis. In normal kidney, SLRPs were preferentially expressed in the tubulointerstitium. Weak expression occurred in the mesangial matrix. Biglycan was expressed by glomerular endothelial cells and, together with fibromodulin, by distal tubular cells and in collecting ducts. In all stages of diabetic nephropathy, there was a marked up-regulation of the proteoglycans in tubulointerstitium and glomeruli. Decorin and lumican became expressed in tubuli. However, in glomeruli, overexpression was not mirrored by local proteoglycan accumulation except in advanced nephropathy. In severe glomerulosclerosis, increased decorin concentrations were found in plasma and urine, and urinary TGF-b/decorin complexes could be demonstrated indirectly. The failure to detect an increased glomerular proteoglycan quantity during the development of nephropathy could be explained by assuming that they are secreted into the mesangial matrix, but cleared via the vasculature or the urinary tract, in part as complexes with TGF-b. They could thereby counteract the vicious circle being characterized by increased TGF-b production and increased matrix deposition in diabetic nephropathy.
The data indicate that the different cells of the adult human kidney are characterized by a distinct expression pattern of the four small proteoglycans. It is suggested that these proteoglycans may have distinct pathophysiological roles depending upon whether they are expressed by mesangial cells, endothelial cells, epithelial cells, or cells of the tubulointerstitium.
Decorin and biglycan are characterized by a distinct expression pattern in the normal rat kidney, whereas the presence of their endocytosis receptor protein correlates with the expression of both proteoglycans. Decorin is almost completely absent in the normal mesangium. Both proteoglycans become up-regulated in various models of renal disease. The mesangial accumulation of decorin in the anti-Thy-1 glomerulonephritis that is observed in spite of the only slightly enhanced mRNA expression could result from decreased decorin turnover and/or increased mesangial retention.
A gene product of ORF24' was identified on the genome of corynephage BFK20 as a putative phage endolysin. The protein of endolysin BFK20 (gp24') has a modular structure consisting of an N-terminal amidase_2 domain (gp24CD) and a C-terminal cell wall binding domain (gp24BD). The C-terminal domain is unrelated to any of the known cell wall binding domains of phage endolysins. The whole endolysin gene and the sequences of its N-terminal and C-terminal domains were cloned; proteins were expressed in Escherichia coli and purified to homogeneity. The lytic activities of endolysin and its catalytic domain were demonstrated on corynebacteria and bacillus substrates. The binding activity of cell wall binding domain alone and in fusion with green fluorescent protein (gp24BD-GFP) were shown by specific binding assays to the cell surface of BFK20 host Brevibacterium flavum CCM 251 as well as those of other corynebacteria.
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