Ronald A. Seifert scite author profile

Increasing evidence supports a role of glomerular cell proliferation in the development of focal or diffuse glomerulosclerosis. This study investigates the chronology and sequence of cellular events that precede glomerulosclerosis in 5/6 nephrectomized rats. Within three days of renal ablation, a phenotypic switch occurred in which some mesangial cells expressed alpha-smooth muscle actin. This was followed by proliferation of mesangial cells, and to a lesser degree endothelial cells from day 5 to week 4 as detected by immunostaining for the proliferating cell nuclear antigen (PCNA). Glomerular cell proliferation was accompanied by increased immunohistochemical expression of PDGF B-chain. In situ hybridization showed no glomerular PDGF B-chain mRNA expression at the induction of proliferation (day 5), and a marked increase between week 1 and 4 in operated rats. In parallel, increased expression of PDGF receptor beta-subunit protein and mRNA was demonstrated by immunohistochemistry and Northern analysis of total glomerular RNA. The onset of glomerular cell proliferation was also associated with mild glomerular platelet accumulation (as defined by 111In-labelled platelet studies) as well as with fibrinogen deposition. Proteinuria, glomerular sclerotic changes, and leukocyte infiltration all followed cell proliferation. The glomerular leukocyte infiltrate consisted of monocytes/macrophages and increased markedly at week 10 in rats with renal ablation. Thus, our results suggest that in the remnant kidney model: 1) proliferation of intrinsic glomerular cells precedes glomerulosclerosis; 2) proliferation may be initiated by degranulating platelets and sustained by PDGF released from intrinsic glomerular cells; and 3) glomerular monocyte/macrophage infiltration occurs after the proliferation, and may possibly contribute to the development of glomerular sclerotic changes.

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Two Classes of PDGF Receptor Eecognize Different Isoforms of PDGF

Hart

Forstrom²,

Kelly

et al. 1988

Science

576

234

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Previous studies involving platelet-derived growth factor (PDGF) have been based on the premise that a single cell-surface receptor binds all three isoforms of PDGF (AA, BB, and AB). It is now shown that two populations of PDGF receptor exist and can be distinguished by their ligand binding specificity. The B receptor binds only the BB dimer, whereas the A/B receptor binds AA, BB, and AB dimers. Human dermal fibroblasts appear to express seven times as much B receptor as A/B receptor. The B receptor is responsible for most PDGF receptor phosphorylation.

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Matrix Metalloproteinase-9 Overexpression Enhances Vascular Smooth Muscle Cell Migration and Alters Remodeling in the Injured Rat Carotid Artery

Mason

Kenagy

Hasenstab

et al. 1999

Circulation Research

240

155

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Matrix metalloproteinase-9 (MMP-9) has been implicated in the pathogenesis of atherosclerosis as well as intimal hyperplasia after vascular injury. We used Fischer rat smooth muscle cells (SMCs) overexpressing MMP-9 to determine the role of MMP-9 in migration and proliferation as well as in vessel remodeling after balloon denudation. Fischer rat SMCs were stably transfected with a cDNA for rat MMP-9 under the control of a tetracycline-regulatable promoter. In this system, MMP-9 was overexpressed in the absence, but not in the presence, of tetracycline. In vitro SMC migration was determined using a collagen invasion assay as well as a Boyden chamber assay. In vivo migration was determined by measuring the invasion into the medial and intimal layers of transduced SMCs seeded on the outside of the artery. Transduced SMCs were also seeded on the luminal surface, and the effect of local MMP-9 overexpression on vascular structure was measured morphometrically at intervals up to 28 days. MMP-9 overexpression enhanced SMC migration in both the collagen invasion assay and Boyden chamber in vitro, increased SMC migration into an arterial matrix in vivo, and altered vessel remodeling by increasing the vessel circumference, thinning the vessel wall and decreasing intimal matrix content. These results demonstrate that MMP-9 enhances vascular SMC migration in vitro and in vivo and alters postinjury vascular remodeling.

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Platelet-derived growth factor (PDGF) and PDGF receptor are induced in mesangial proliferative nephritis in the rat.

Iida

Seifert

Alpers

et al. 1991

Proc. Natl. Acad. Sci. U.S.A.

268

143

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We investigated whether platelet-derived growth factor (PDGF), or its receptor (PDGF-R), was upregulated in a rat model of mesangial proliferative glomerulonephritis. A marked increase in both PDGF A-and B-chain mRNA could be demonstrated in glomerular RNA by Northern blot analysis 3 and 5 days after disease induction, corresponding to the time of mesangial cell proliferation. PDGF-R fl-subunit mRNA and protein were also increased in glomeruli in mesangial proliferative nephritis, being maximal at day 5. The principal cells expressing PDGF B-chain appeared by immunostaining to be a subpopulation of mesanial cells; in contrast, the majority of the mesangial cells expressed the PDGF-R P-subunit protein. Both complement depletion and platelet depletion significantly reduced cell proliferation and expression of both PDGF and PDGF-R. Thus, in mesangial proliferative nephritis there is a platelet-and complement-mediated induction of PDGF A and B chain and PDGF-R fl-subunit gene transcription and protein synthesis. The rmding that the majority of PDGF is produced by the mesangial cell supports the role of PDGF as an autocrine growth factor in glomerulonephritis.

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Ronald A. Seifert

TGF-β induces bimodal proliferation of connective tissue cells via complex control of an autocrine PDGF loop

Glomerular cell proliferation and PDGF expression precede glomerulosclerosis in the remnant kidney model

Two Classes of PDGF Receptor Eecognize Different Isoforms of PDGF

Matrix Metalloproteinase-9 Overexpression Enhances Vascular Smooth Muscle Cell Migration and Alters Remodeling in the Injured Rat Carotid Artery

Platelet-derived growth factor (PDGF) and PDGF receptor are induced in mesangial proliferative nephritis in the rat.

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