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Query: UMLS:C0033687 (
proteinuria
)
24,015
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Retrograde differentiation (or dedifferentiation) has recently been proposed as a pathogenetic mechanism involved also in various renal diseases. Here we studied whether evidence of these mechanisms can be found in the kidneys of patients with congenital nephrotic syndrome of the Finnish type (CNF). These patients show isolated massive
proteinuria
but no primary symptoms from any other organ systems. For the analysis we used antibody markers of early (fibronectin, stem cell factor,
Wilms' tumor gene
product, cytokeratin) and later (laminin, midgestation and kidney, heparin binding growth-associated molecule) stages of nephron differentiation as well as for apoptosis (acridine orange staining), rescue from apoptosis (anti-Bcl-2 antibodies) and cell proliferation (antibodies to proliferating cell nuclear antigen). In the peritubular spaces atypically organized areas were found which appeared positive with markers of low stages of differentiation, but neither abnormal cell proliferation nor activation of the apoptotic pathway could be detected. As morphologic signs of abnormal tissue organization, we found clusters of tightly compacted and large glomeruli corresponding to the size of two to three normal glomeruli. However, all individual glomerular cell compartments (mesangial, endothelial, visceral epithelial cells) appeared balanced in relative cell numbers. Together these results may indicate abnormal early mesenchymoepithelial tissue interaction leading to excessive and poorly organized formation of glomeruli. This could be causally related also to the serious functional immaturity of CNF kidneys presented as isolated
proteinuria
.
...
PMID:Morphologic changes suggesting abnormal renal differentiation in congenital nephrotic syndrome. 950 82
Serial changes in glomerular capillary loop gene expression were used to uncover mechanisms contributing to primary glomerular disease in rat models of passive Heymann nephritis and puromycin nephrosis. Before the onset of
proteinuria
, podocyte protein-tyrosine phosphatase (GLEPP1) expression was transiently decreased in the nephrosis model, whereas the immune costimulatory molecule B7.1 was stimulated in both models. To relate these changes to the development of
proteinuria
, the time of onset and intensity of
proteinuria
were altered. When the models were induced simultaneously,
proteinuria
and anasarca occurred earlier with the collapse of glomerular capillary loops. Upregulation of B7.1 with the downregulation of GLEPP1,
Wilms' tumor gene
(WT1), megalin, and vascular endothelial growth factor started early and persisted through the course of disease. In the puromycin and the combined models, changes in GLEPP1 expression were corticosteroid-sensitive, whereas B7.1, WT1, vascular endothelial growth factor, and most slit diaphragm genes involved later in the combined model, except podocin, were corticosteroid-resistant. There was a very early increase in the nuclear expression of podocyte transcription factors ZHX2 and ZHX1 that may be linked to the changes in gene expression in the combined proteinuric model. Our studies suggest that an early and persistent change in mostly steroid-resistant glomerular gene expression is the hallmark of severe and progressive glomerular disease.
...
PMID:Early changes in gene expression that influence the course of primary glomerular disease. 1745 73
Wilms' tumor gene
(WT1) abnormality leads to various disorders of differentiation as well as renal and urinary system abnormalities. Here we present a case of WT1 abnormality and steroid-resistant nephrotic syndrome in a female infant. The 3-year-old patient was initially diagnosed with
proteinuria
at an annual mass screening program for children aged three years and was referred to our hospital. She met the diagnostic criteria for nephrotic syndrome and showed normal renal function. The patient was treated with corticosteroids; however her condition showed resistance to corticosteroids. On renal biopsy, she was diagnosed with focal segmental glomerulosclerosis (FSGS). Because of the possibility of WT1 abnormality, an exon array analysis was conducted, which ruled out Denys-Drash Syndrome (DDS). The patient was then diagnosed with Frasier Syndrome (FS) on the basis of donor site mutation (IVS9+5G > A) of the splice site in the intron 9. Reports of female infants with FS are extremely rare. FS is one of the pre-mRNA splicing diseases, in which the occurrence of symptoms is associated with a decrease in the ratio of the lysine-threonine-serine (+/- KTS) isoform of the WT1 protein. A typical case exhibits 46 XY male karyotype and is characterized by male pseudohermaphroditism with cord-like gonadal structures as well as progressive nephropathy caused by FSGS. However, in female infants without such extrarenal signs, it is necessary to consider the analysis for WT1 intron 9 for conclusive diagnosis of FS, because the presence of nephropathy is the only symptom for possible detection.
...
PMID:A female infant with Frasier syndrome showing splice site mutation in Wilms' tumor gene (WT1) intron 9. 2049 63
