Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0033687 (proteinuria)
24,015 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We studied the contributions of glomerular hypertrophy in renal disease. The patients were 20 cases of IgA nephropathy with prolonged proteinuria, 13 cases of Alport syndrome and 12 cases of focal glomerular sclerosis (FGS). All patients had a normal creatinine level on renal biopsy. We determined the mean glomerular tuft area in the equatorial region of five glomeruli that showed no sclerotic change in each patient using an image analyzer and compared the value with the mean value in normal controls. Glomerular hypertrophy was defined as a value over the mean glomerular tuft area +1SD of normal controls. Glomerular hypertrophy was found in 14 IgA nephropathy cases (70.0%), 4 Alport syndrome cases (30.7%) and 8 FGS cases (66.7%). The incidence of glomerular hypertrophy was significantly higher in IgA nephropathy than in Alport syndrome and FGS showed a higher tendency compared with Alport syndrome. Of the patients with renal insufficiency, 4 of 6 IgA nephropathy cases (66.6%), 0 of 5 Alport syndrome cases (0%) and 1 of 3 FGS cases (33.3%) showed glomerular hypertrophy, IgA nephropathy patients showed the highest incidence of glomerular hypertrophy. The interval between the final biopsy and renal insufficiency showed no significant difference in this study. In IgA nephropathy, obsolescent glomeruli were significantly increased in the group in which the glomerular tuft area was over the mean +2SD compared with the group with an area less than the mean +2SD. FGS cases showed no relationship between the ratio of obsolescent glomeruli to whole glomeruli and glomerular hypertrophy. This study suggested that glomerular hypertrophy may cause declining renal function in IgA nephropathy, but not in Alport syndrome.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[A study on glomerular hypertrophy in various renal disease]. 781 44

Alport syndrome is a hereditary progressive glomerular basement membrane disorder in which juvenile-or adult-onset renal failure is often accompanied by sensorineural deafness and ocular abnormalities. Recently, mutations have been found in the type IV collagen alpha 5 chain gene in patients with X-linked Alport syndrome. This study searched for gene mutations in seven unrelated Japanese patients by the use of conventional Southern blot analysis with cDNA probes for the carboxyl-terminal noncollagenous domain that is encoded by exons 46 to 51. A deletion mutation was found in a patient who developed juvenile-onset (age 15) ESRD with typical ultrastructural glomerular basement membrane destruction and sensorineural hearing loss but no characteristic ocular abnormalities. His mother showed hematuria and proteinuria with normal renal function, suggesting that she may be the heterozygous carrier. Exon-specific polymerase chain reaction amplified the coding sequence of exon 48 but not exons 49 to 51. Analysis with pulsed-field gel electrophoresis revealed that the deletion is approximately 10 kb in length and does not involve the CpG island, which is located in the 3' distal site of the gene. Identification of this novel deletion causing juvenile-type Alport syndrome would contribute to elucidating the mechanisms of renal failure progression in the syndrome.
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PMID:A deletion mutation in the 3' end of the alpha 5(IV) collagen gene in juvenile-onset Alport syndrome. 801 73

A 27-year-old female was admitted to our hospital in order to examine proteinuria and microscopic hematuria. Light microscopic findings of her kidney showed proliferation of mesangial cells and numerous interstitial foam cells. Immunofluorescent and electron microscopic findings revealed IgA nephropathy. Immunoperoxidase studies using monoclonal antibodies disclosed that interstitial foam cells were positive for antibodies of the monocyte/macrophage lineage and also expressed adhesion molecules (CD11a, b, c, LFA-1) and MHC-class II antigens. Hereditary nephritis as Alport syndrome was negated by her familial history and electron microscopic study. We considered that it was a rare and interesting case with numerous interstitial foam cells, because the patient did not have hyperlipidemia as in nephrotic syndrome.
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PMID:[A case of IgA nephropathy with numerous interstitial foam cells--analysis of infiltrating mononuclear leucocytes in renal tissue]. 808 80

We identified a novel mutation in the COL4A5 gene of a Japanese patient with Alport syndrome. A combination of in vitro amplification of the exons with single strand conformation polymorphisms (SSCP) analysis suggested the presence of a mutation in exon 48. Sequencing of the amplified DNA revealed a single base (T) insertion which was between nucleotides T 4750 and G 4751 within the methionine 1516. This mutation caused a shift in the reading frame of nine amino acids and introduced a premature termination signal that would be expected to lack about two-thirds of the noncollagenous (NC1) domain. This mutation may interfere with type IV collagen assembly leading to increased permeability and play a causative role in the glomerular basement membrane abnormality of this patient with typical Alport syndrome. Gene tracking by restriction enzyme NlaIII digestion revealed that the patient's mother is heterozygous whereas the patient's brother and one sister are normal, albeit they have hematuria and proteinuria. Without gene analysis, they would have been misdiagnosed. We propose that the diagnosis of Alport syndrome should be made on the basis of both clinical phenotypes and molecular defects.
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PMID:Identification of a single base insertion in the COL4A5 gene in Alport syndrome. 826 40

The proband was a 14-year-old girl with hematuria and proteinuria. Many members of her maternal pedigree had hematuria and proteinuria. Her mother, younger brother (age 12 years) and younger sister (age 9 years) had microscopic hematuria and proteinuria with normal renal function. Her mother had nephrotic syndrome during pregnancy and a renal biopsy was performed. Light microscopic findings of the renal biopsy specimen revealed mild mesangial proliferation and irregularity of glomerular basement membrane. The pedigree showed no chronic renal failure and no deafness. The proband had experienced microscopic hematuria and occasionally macroscopic hematuria since 3 years of age. Proteinuria increased steadily and at the age of 14 years, she had nephrotic syndrome and renal dysfunction (creatinine clearance of 57.9 ml/min/1.48 m2). Renal biopsy was performed and light microscopic findings showed segmental mesangial cell proliferation and numerous interstitial foam cells without significant findings by immunofluorescent study. Electron microscopic examination showed splitting into many layers and thinning of the glomerular basement membrane. She had no complaint of hearing. However, audiological studies detected bilateral low-tone (from 125 Hz to 1000 Hz) sensorineural hearing difficulty, ranging from 30 to 40 dB. High scores on the short increment sensitivity index (SISI) test suggested inner ear hearing difficulty. Audiogram of her brother revealed also low-tone sensorineural hearing loss. Hereditary nephritis with the characteristic lesion of the glomerular basement membrane and sensorineural hearing difficulty has been known as Alport syndrome. Alport syndrome associated with familial low-tone hearing difficulty has not been reported previously.
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PMID:Hereditary nephritis associated with low-tone sensorineural hearing difficulty: a case report. 869 14

The effect of enalapril on urinary protein excretion and renal function was studied in six paediatric patients with various renal diseases causing nephroticrange proteinuria. In three younger children (aged 7-9 years) with steroid-resistant nephrotic syndrome, enalapril at a dose of 0.5 mg/kg per day given for 24 months yielded a temporary reduction of proteinuria in one child, a moderate and steady decrease in another and a complete disappearance of proteinuria in the third. Three adolescents, aged 17 years, took enalapril for 24 months at a dose of 20 mg/day. We observed no effect on proteiuria in one patient with Alport syndrome, a complete disappearance of urinary protein in one patient with membranoproliferative glomerulonephritis and a moderate decrease in the third patient who had idiopathic steroid-resistant nephrotic syndrome. Enalapril therapy resulted in an important reduction of proteinuria in two patients and a moderate decrease in three others. However this therapy was accompanied by a fall in glomerular filtration in all subjects, which was very marked in two patients. This fall in glomerular filtration may, however, simply reflect the natural course of the disease.
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PMID:Long-term therapy with enalapril in patients with nephrotic-range proteinuria. 889 61

Collagen IV is a major structural component of all basal laminae (BLs). Six collagen IV alpha chains are present in mammals; alpha 1 and alpha 2(IV) are broadly expressed in embryos and adults, whereas alpha 3-6(IV) are restricted to a defined subset of BLs. In the glomerular BL of the kidney, the alpha 1 and alpha 2(IV) chains are replaced by the alpha 3-5(IV) chains as development proceeds. In humans, mutation of the collagen alpha 3, alpha 4, or alpha 5(IV) chain genes results in a delayed onset renal disease called Alport syndrome. We show here that mice lacking collagen alpha 3(IV) display a renal phenotype strikingly similar to Alport syndrome: decreased glomerular filtration (leading to uremia), compromised glomerular integrity (leading to proteinuria), structural changes in glomerular BL, and glomerulonephritis. Interestingly, numerous changes in the molecular composition of glomerular BL precede the onset of renal dysfunction; these include loss of collagens alpha 4 and alpha 5(IV), retention of collagen alpha 1/2(IV), appearance of fibronectin and collagen VI, and increased levels of perlecan. We suggest that these alterations contribute, along with loss of collagen IV isoforms per se, to renal pathology.
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PMID:Molecular and functional defects in kidneys of mice lacking collagen alpha 3(IV): implications for Alport syndrome. 894 61

A mouse model for the autosomal form of Alport syndrome was produced. These mice develop a progressive glomerulonephritis with microhematuria and proteinuria, consistent with the human disease. End-stage renal disease develops at approximately 14 weeks of age. TEM analysis of the glomerular basement membranes (GBM) during development of renal pathology revealed focal multilaminated thickening and thinning beginning in the external capillary loops at 4 weeks and spreading throughout the GBM by 8 weeks. By 14 weeks, half of the glomeruli were fibrotic with collapsed capillaries. Immunofluorescence analysis of the GBM showed the absence of type IV collagen alpha-3, alpha-4, and alpha-5 chains and a persistence of alpha-1 and alpha-2 chains (these chains normally localize to the mesangial matrix). Northern blot analysis using probes specific for the collagen chains illustrate the absence of COL4A3 in the knockout, whereas mRNAs for the remaining chains are unchanged. An accumulation of fibronectin, heparan sulfate proteoglycan, laminin-1, and entactin was observed in the GBM of the affected animals. The temporal and spatial pattern of accumulation was consistent with that for thickening of the GBM as observed by TEM. Thus, expression of these basement membrane-associated proteins may be involved in the progression of Alport renal disease pathogenesis. The levels of mRNAs encoding the basement membrane-associated proteins at 7 weeks were unchanged.
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PMID:Collagen COL4A3 knockout: a mouse model for autosomal Alport syndrome. 895 99

A detailed morphometric analysis of glomerular basement membrane (GBM) thickness was carried out on biopsies from 16 patients exhibiting normal histology and unremarkable immunofluorescence. Eleven of these patients presented with proteinuria, 8 in the nephrotic syndrome range, while 5 had hematuria as well. The remaining 5 patients presented with hematuria only. Eight patients had an initial diagnosis of minimal change disease, 4 were diagnosed as thin-membrane nephropathy, 2 had Alport syndrome, and the remaining 2 had hypertensive nephropathy. Quantitative morphometric analysis of GBM identified 3 subsets of patients. The first subset consisted of 6 patients: 5 adults, with an average GBM width of 361 +/- 34 nm, and 1 child. The second subset included 8 patients with thin GBMs and a mean thickness of 253 +/- 15 nm. The last subset comprised 2 patients with Alport syndrome showing marked variability in GBM thickness. This study has confirmed the presence of thin GBMs in hematurics, but has also revealed GBM thinning in 50% of patients with a diagnosis of minimal change disease.
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PMID:Thin glomerular basement membranes in patients with hematuria and minimal change disease. 1044 81

Proteinuria is defined as urinary protein excretion exceeding 150 mg/day. It may result from nonpathological (posture, fever, exercise) or pathological (glomerular or tubular) processes. Glomerular proteinuria is an early sign of kidney disease and may also play a role in the progression of glomerular damage. Asymptomatic proteinuria is common; it may be transient or persistent. Transient proteinuria is a benign condition and requires no evaluation. Persistent proteinuria can be the first sign of kidney disease. Persistent proteinuria commonly results from disorders associated with increased glomerular permeability such as nephrotic syndrome, glomerulonephritis (e.g., post-infectious, membranous, membranoproliferative, lupus, IgA), and genetic defects (Alport syndrome, mesangial sclerosis). Tubular disorders should also be considered. Evaluation for the underlying cause is traditional. Whether the early detection and evaluation of proteinuria prevents progressive disease is unknown.
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PMID:A practical approach to proteinuria. 1050 30


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