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Abstract

Heat-shock proteins (HSPs) are rapidly synthesized in cells in response to various cytotoxic agents. Although several stress proteins are actively involved in the gentamicin-induced renal damages, the possible role of HSP47 in this condition is not yet clear. In this study, the expression of HSP47 in the gentamicin nephrotoxicity was examined by immunohistochemistry. Twenty male Wistar rats were sacrificed at day 0, 3, 7, 14 and 28 after subcutaneous injection of gentamicin. Gentamicin treatment causes tubular necrosis at day 3, followed by tubular regenerative changes and interstitial fibrosis, which was most prominent at day 14. The renal structures returned to almost normal architectures at day 28. By immunohistochemistry, HSP47 was weakly expressed in most of the glomeruli and occasionally in interstitial cells in the control rat kidneys. In contrast, strong immunostaining for HSP47 was noted in the tubular epithelial cells and interstitial cells in gentamicin treated rat kidneys, and strongest staining was observed at day 7. The immunostaining for HSP47 then gradually decreased, and returned to the normal level at day 28. In the whole experimental period staining pattern of HSP47 in the glomeruli was not changed. In addition, phenotypically altered tubulointerstitial cells including regenerative tubular epithelial cells (immuno-positive for vimentin) and interstitial cells (immuno-positive for alpha-smooth muscle actin) were found in gentamicin nephrotoxicity. Expression of type III collagen increased in the areas of interstitial fibrosis. By double immunostaining, the regenerated and phenotypically altered tubulointerstitial cells were found to express HSP47 in and around interstitial fibrosis. It is concluded that overexpression of HSP47 by phenotypically altered renal cells might play a significant role in the development of gentamicin nephrotoxicity.

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Expression of smooth muscle cell phenotype by rat mesangial cells in immune complex nephritis. Alpha-smooth muscle actin is a marker of mesangial cell proliferation.

R J Johnson, H. Iida, C Alpers … (1991)

Mesangial cell proliferation is common in glomerulonephritis but it is unclear if proliferation is associated with any in vivo alteration in phenotype. We investigated whether mesangial of mesangial proliferative nephritis induced with antibody to the Thy-1 antigen present on mesangial cells. At day 3 glomeruli displayed de novo immunostaining for alpha-smooth muscle actin in a mesangial pattern, correlating with the onset of proliferation, and persisting until day 14. An increase in desmin and vimentin in mesangial regions was also noted. Immunoelectron microscopy confirmed that the actin-positive cells were mesangial cells, and double immunolabeling demonstrated that the smooth muscle actin-positive cells were actively proliferating. Northern analysis of isolated glomerular RNA confirmed an increase in alpha and beta/gamma actin mRNA at days 3 and 5. Complement depletion or platelet depletion prevented or reduced proliferation, respectively; these maneuvers also prevented smooth muscle actin and actin gene expression. Studies of five other experimental models of nephritis confirmed that smooth muscle actin expression is a marker for mesangial cell injury. Thus, mesangial cell proliferation in glomerulonephritis in the rat is associated with a distinct phenotypic change in which mesangial cell assume smooth muscle cell characteristics.

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A major collagen-binding protein of chick embryo fibroblasts is a novel heat shock protein

K Nagata, S. Saga, KM Yamada (1986)

Heat shock proteins of chick embryo fibroblasts were analyzed on SDS polyacrylamide gradient gels and were found to include not only three previously well-characterized proteins of 25,000, 73,000, and 89,000 D, but also a 47,000-D protein. Two-dimensional gel electrophoresis revealed that this protein was unusually basic (pI = 9.0) and corresponded to a recently characterized, major gelatin- and collagen- binding protein. The induction of synthesis of this 47,000-D membrane glycoprotein after heat stress of fibroblasts was particularly apparent in preparations isolated by gelatin-affinity chromatography. Regulation of this 47,000-D phosphoprotein was more sensitive than that of three major heat shock proteins in that a substantial stimulation of synthesis occurred at even 42 degrees C, as well as at higher temperature. Phosphorylation of the 47,000-D protein was not altered after heat shock. These studies establish this phosphorylated membrane glycoprotein as a member of the heat shock/stress protein family, and they add collagen binding to the unexpectedly diverse spectrum of biochemical activities induced by exposure of cells to stress.

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Double-blind comparison of the nephrotoxicity and auditory toxicity of gentamicin and tobramycin.

Wilson K. Smith, Matthew Hellmann, Debra L. Laskin … (1980)

Two hundred fifty-eight patients with suspected sepsis were treated with tobramycin or gentamicin in a prospective, randomized, double-blind trial. One hundred forty-six patients received nine or more doses, had serial determinations of serum creatinine, and were evaluated for nephrotoxicity; 91 were able to cooperate with audiometry and were evaluated for auditory toxicity. Auditory toxicity developed in five of 47 (10 per cent) given gentamicin and five of 44 (11 per cent) given tobramycin. Nephrotoxicity developed in 19 of 72 (26 per cent) given gentamicin and nine of 74 (12 per cent) given tobramycin (P less than 0.025). The severity of the nephrotoxicity was not different; the mean increase in creatinine was 1.3 mg per 100 ml (114.9 mumol per liter) in both groups. Both the tobramycin and gentamicin groups had a similar mean age, initial serum creatinine level, total dose, serum aminoglycoside level, and duration of therapy. We conclude that tobramycin causes nephrotoxicity less frequently than does gentamicin.