BALANCE BETWEEN MATRIX SYNTHESIS AND DEGRADATION - A DETERMINANT OF GLOMERULOSCLEROSIS

被引：63

作者：

SCHNAPER, HW ^{[1
]}

机构：

[1] CHILDRENS MEM HOSP,DEPT PEDIAT,DIV NEPHROL,CHICAGO,IL 60614

来源：

PEDIATRIC NEPHROLOGY | 1995年 / 9卷 / 01期

关键词：

GLOMERULOSCLEROSIS; PROTEASES; METALLOPROTEINASES; PLASMINOGEN ACTIVATORS;

D O I：

10.1007/BF00858986

中图分类号：

R72 [儿科学];

学科分类号：

100202 ;

摘要：

In glomerular health and disease, the balance between extracellular matrix (ECM) protein synthesis and degradation determines the amount of matrix that accumulates locally. While cell and whole animal regulation of ECM synthesis has been the subject of ongoing study, attention has become focused on proteases that degrade matrix components only recently. Two major ECM protease systems have been defined. The plasminogen activators (PAs) are serine proteases that have matrix-degrading capability and also activate plasminogen to plasmin. Plasmin not only degrades ECM proteins, but also may activate members of the matrix metalloproteinase (MMP) family which comprise the second major matrix-degrading system. Specific biological antagonists of both the PAs and the MMPs tightly regulate proteolysis by these enzymes. All of these enzymes and inhibitors have been detected in the kidney, and their expression may be altered to facilitate ECM accumulation in conditions associated with matrix expansion, such as glomerulosclerosis. Work is in progress to determine how these systems are regulated in the kidney and to further define their contribution to the sclerotic process.

引用

页码：104 / 111

页数：8

共 103 条

[31] Lovett D.H., Martin M., Bursten S., Szamel M., Gea D., Resch K., Interleukin 1 and the glomerular mesangium. III. IL-1-dependent stimulation of mesangial cell protein kinase activity, Kidney Int, 34, pp. 26-35, (1988)
[32] Iida H., Seifert R., Alpers C.E., Gronwald R.G.K., Phillips P.E., Pritzl P., Gordon K., Gown A.M., Ross R., Bowen-Pope D.F., Johnson R.J., Platelet-derived growth factor (PDGF) and PDGF receptor are induced in mesangial proliferative nephritis in the rat, Proc Natl Acad Sci USA, 88, pp. 6560-6564, (1991)
[33] Ruef C., Budde K., Northemann W., Baumann M., Sterzel R.B., Interleukin 6 is an autocrine growth factor for mesangial cells, Kidney Int, 38, pp. 249-257, (1990)
[34] Fogo A., Ichikawa I., Evidence for the central role of glomerular growth promoters in the development of sclerosis, Semin Nephrol, 9, pp. 329-342, (1989)
[35] Hasegawa G., Nakano K., Sawada M., Uno K., Shibayama Y., Ienaga K., Kondo M., Possible role of tumor necrosis factor and interleukin-1 in diabetic nephropathy, Kidney Int, 40, pp. 1007-1012, (1991)
[36] Oemar B.S., Foellmer H.G., Hodgdon-Anandant L., Rosenzweig S.A., Regulation of insulin-like growth factor receptors in diabetic mesangial cells, J Biol Chem, 266, pp. 2369-2372, (1991)
[37] Doi T., Striker L.J., Quaife C., Conti F.G., Palmiter R., Behringer R., Brinster R., Striker G.E., Progressive glomerulosclerosis develops in transgenic mice expressing growth hormone and growth hormone releasing factor but not in those expressing insulinlike growth factor-1, Am J Pathol, 131, pp. 398-403, (1988)
[38] Doi T., Striker L.J., Kimata K., Peten E.P., Yamada Y., Striker G.E., Glomerulosclerosis in mice transgenic for growth hormone. Increased mesangial extracellular matrix is correlated with kidney mRNA levels, J Exp Med, 173, pp. 1287-1290, (1991)
[39] Suematsu S., Matsuda T., Aozasa K., Akira S., Nakano N., Ohno S., Miyazaki J-I, Hirano T., Kishimoto T., IgG1 plasmacytosis in interleukin 6 transgenic mice, Proc Natl Acad Sci USA, 86, pp. 7547-7551, (1989)
[40] Broekelmann T.J., Limper A.H., Colby T.V., McDonald J.A., Transforming growth factor β1 is present at sites of extracellular matrix gene expression in human pulmonary fibrosis, Proc Natl Acad Sci USA, 88, pp. 6642-6646, (1991)

← 1 2 3 4 5 6 7 8 9 10 →