Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0018099 (gout)
 5,192 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Significant alterations in the structure and functions of the kidney are caused by a number of metabolic disturbances and deficiencies of physiological substances. These include intercapillary glomerulosclerosis, gout, hypercalcemia, hereditary cystinuria, potassium depletion, pyrophosphates deficiency, vitamin D deficiency and liver disorders. Some of these metabolic disorders are secondary to drug ingestion.
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PMID:Renal disease secondary to metabolic disorders or physiological deficiency states. 604 89

Two observations of gout with typical articular changes but different variants of renal involvement are presented. One of the cases had typical gouty kidneys, the other had moderate changes typical of gout but with the prevalence of membranous and proliferative processes in the glomeruli with glomerulosclerosis as the end point. Examination of materials from this case in polarized light showed the presence of urate crystals not only in tubules but also in glomeruli.
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PMID:[Different variants of kidney lesions in gout]. 662 32

Deficiency of the enzyme glucose-6-phosphatase is the biochemical defect in glycogen storage disease type I (GSD I). Normally this enzyme is present in the liver, intestine and kidneys. The lack of the enzyme in the kidney makes it obvious that glycogen storage will not be restricted to the liver but that also the kidneys will be involved, possibly resulting in renal damage. Glycogen storage in the kidney is most outspoken present in the proximal tubular cells. In case of insufficient metabolic control, a Fanconi-like syndrome can develop, disappearing with improved therapy. Although renal disease has not been considered a problem in GSD I, recent findings indicate that especially in adult patients chronic renal disease is a common complication. In the past gout nephropathy and renal stones were the complications mentioned. Recently it appears that in a considerable number of patients after a period of 'silent' hyperfiltration, renal damage develops with proteinuria, hypertension and renal dysfunction later on. In biopsies of such patients focal glomerulosclerosis is found.
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PMID:Renal complications in glycogen storage disease type I. 831 28

Diabetic nephropathy can be regarded mainly as a type of microangiopathy, but is a disease that may also include aspects of macroangiopathy. This is especially true of renal disease in non-insulin dependent diabetes mellitus (NIDDM), which is characterized not only by diabetic glomerulosclerosis, but also by atherosclerosis. We performed morphological studies on the kidney, using computed tomography (CT), focusing on such points as: (1) abdominal aortic calcifications at the level of kidney, (2) calcifications in the renal artery, and (3) wedge-shaped defects on the renal surface. We noted that these findings became more prominent in NIDDM patients during end-stage renal failure than during normal renal function, and were significantly more common in those two NIDDM groups than in age-matched nondiabetic patients without hypertension, hyperlipidemia or gout. NIDDM patients exhibited these features more frequently than IDDM patients.
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PMID:[Computed tomographical evaluation of diabetic nephropathy]. 875 67

Autosomal dominant familial nephropathies with adult onset, no macroscopic cysts, and progressive deterioration include medullary cystic disease (ADMCKD) as well as other less specific entities. We studied a kindred of Jewish ancestry in which 15 members (both male and female) have suffered from chronic renal failure. The first evidence of renal involvement was observed between 18 and 38 years. It included hypertension followed by progressive renal insufficiency. No polyuria, anemia, gout, hematuria, nor proteinuria were seen. An average of 4.5 years elapsed from diagnosis to end-stage renal disease. Renal pathology at early stages of the disease showed extensive tubulointerstitial fibrosis and global glomerulosclerosis. Linkage analysis was performed at the two known loci of ADMCKD, on Chromosomes 1 and 16. Linkage to the chromosome 16 locus was excluded. However, linkage to the chromosome 1q21 locus of ADMCKD was established with a maximum two-point LOD score of 3.82 to D1S394. The disease interval could be narrowed to about 9 cM/7.4 Mb between D1S1156 and D1S2635. Multiple-point linkage analysis revealed a maximum LOD of 4.21, with a broad peak from markers D1S2858 and D1S2624. This report establishes linkage between a familial nephropathy characterized by hypertension and progressive renal failure to the locus described for ADMCKD, a disease classically associated with macroscopic corticomedullary cysts, salt-losing tubulointerstitial nephropathy, and anemia. This finding broadens the clinical spectrum of ADMCKD positioned on chromosome 1q21 locus.
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PMID:Clinical and genetic characterization of an autosomal dominant nephropathy. 1124 91

Serum uric acid is commonly elevated in subjects with chronic kidney disease (CKD), but was historically viewed as an issue of limited interest. Recently, uric acid has been resurrected as a potential contributory risk factor in the development and progression of CKD. Most studies documented that an elevated serum uric acid level independently predicts the development of CKD. Raising the uric acid level in rats can induce glomerular hypertension and renal disease as noted by the development of arteriolosclerosis, glomerular injury and tubulointerstitial fibrosis. Pilot studies suggest that lowering plasma uric acid concentrations may slow the progression of renal disease in subjects with CKD. While further clinical trials are necessary, uric acid is emerging as a potentially modifiable risk factor for CKD. Gout was considered a cause of CKD in the mid-nineteenth century, and, prior to the availability of therapies to lower the uric acid level, the development of end-stage renal disease was common in gouty patients. In their large series of gouty subjects Talbott and Terplan found that nearly 100% had variable degrees of CKD at autopsy (arteriolosclerosis, glomerulosclerosis and interstitial fibrosis). Additional studies showed that during life impaired renal function occurred in half of these subjects. As many of these subjects had urate crystals in their tubules and interstitium, especially in the outer renal medulla, the disease became known as gouty nephropathy. The identity of this condition fell in question as the presence of these crystals may occur in subjects without renal disease; furthermore, the focal location of the crystals could not explain the diffuse renal scarring present. In addition, many subjects with gout also had coexistent conditions such as hypertension and vascular disease, leading some experts to suggest that the renal injury in gout was secondary to these latter conditions rather than to uric acid per se. Indeed, gout was removed from the textbooks as a cause of CKD, and the common association of hyperuricemia with CKD was solely attributed to the retention of serum uric acid that is known to occur as the glomerular filtration rate falls. Renewed interest in uric acid as a cause of CKD occurred when it was realized that invalid assumptions had been made in the arguments to dismiss uric acid as a risk factor for CKD. The greatest assumption was that the mechanism by which uric acid would cause kidney disease would be via the precipitation as crystals in the kidney, similar to the way it causes gout. However, when laboratory animals with CKD were made hyperuricemic, the renal disease progressed rapidly despite an absence of crystals in the kidney. Since this seminal study, there has been a renewed interest in the potential role uric acid may have in both acute and CKD. We briefly review some of the major advances that have occurred in this field in the last 15 years.
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PMID:Uric acid and chronic kidney disease: which is chasing which? 2354 94

Familial juvenile hyperuricemic nephropathy (FJHN; OMIM 162000) is an autosomal dominant disorder characterized by hyperuricemia and gouty arthritis due to reduced kidney excretion of uric acid and progressive renal failure. Gradual progressive interstitial renal disease, with basement membrane thickening and glomerulosclerosis resulting from fibrosis, starts in early life. In most cases of FJHN, uromodulin gene (UMOD) is responsible for the disease; however, there has been only one report of a genetically confirmed FJHN family in Korea. Here we report another Korean family with FJHN, in which three male members. a father and 2 sons.developed gout and progressive renal insufficiency. The clinical, laboratory, and radiological findings were consistent with FJHN, and renal biopsy showed chronic parenchymal damage, which can be found in FJHN but is not specific to this disease. In order to confirm the diagnosis, sequence analysis of the UMOD was performed, and a novel heterozygous missense variant (c.187T>C; p.Cys63Arg) in exon 3 was identified. We assume that this variant is likely to be the causative mutation in this family, as the variant segregated with the disease. In addition, approximately two-thirds of the known mutations lead to a cysteine amino acid change in uromodulin, and all such variants have been shown to cause UMOD-associated kidney disease. In summary, we report a Korean FJHN family with three affected members by genetic analysis of the UMOD, and provide the first report of a novel heterozygous missense mutation.
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PMID:A novel UMOD mutation (c.187T>C) in a Korean family with juvenile hyperuricemic nephropathy. 2382 68

Uromodulin-related autosomal-dominant tubulointerstitial kidney disease (ADTKD-UMOD) is a rare monogenic disorder that is characterized by tubulointerstitial fibrosis and progression of kidney function loss, and may progress to end-stage renal disease. It is usually accompanied by hyperuricaemia and gout. Mutations in the uromodulin gene (UMOD) resulting in malfunctioning of UMOD are known to be the cause of ADTKD-UMOD, which is assumed to be an endoplasmatic reticulum (ER) storage disease. As a case vignette, we report a 29-year-old female with a suspicious family history of chronic kidney disease presenting with progressive loss of renal function, hyperuricaemia and frequent urinary tract infections. Urinary tract infections and pyelonephritides may represent a clinical feature of uromodulin malfunction as it plays a protective role against urinary tract infections despite only sporadic data on this topic. ADTKD-UMOD was diagnosed after genetic testing revealing a missense mutation in the UMOD gene. Light microscopy showed excessive tubular interstitial fibrosis and tubular atrophy together with signs of glomerular sclerosis. Electron microscopic findings could identify electron dense storage deposits in the ER of tubular epithelial cells of the thick ascending loop. Immunohistological staining with KDEL (lysine, aspartic acid, glutamic acid, leucine) showed positivity in the tubular cells, which likely represents ER expansion upon accumulation of misfolded UMOD which could trigger the unfolded protein response and ER stress. This review highlights pathophysiological mechanisms that are subject to ADTKD-UMOD.
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PMID:Uromodulin-related autosomal-dominant tubulointerstitial kidney disease-pathogenetic insights based on a case. 3097 93