Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0035078 (renal failure)
31,970 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Among all inherited cystic kidney diseases, the commonest are polycystic kidney diseases, which include 2 diseases characterized by their pathological characteristics and their mode of inheritance, namely autosomal dominant or recessive. Autosomal dominant polycystic kidney disease is usually diagnosed in adulthood and is related at least to 2 different genes; PKD1 gene on chromosome 16 accounts for 85% of cases. This frequent disease (1 in 1,000 people) leads to end-stage renal failure in most patients at a mean age of 55 years. Renal ultrasonography allows its detection at an early stage, during childhood or adolescence, and even in utero in some cases. Autosomal recessive polycystic kidney disease, related to a single gene mapped to chromosome 6, is a rare disease, usually diagnosed during infancy because of enlarged kidneys and hypertension. The early occurrence of advanced renal failure is uncommon and only 1/3 of patients require renal replacement therapy during childhood. The term "polycystic kidney disease" should be limited to these 2 diseases; however there are many other inherited conditions including renal cysts like tuberous sclerosis or Hippel-Lindau's disease in adults, and several malformative syndromes in children.
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PMID:[Cystic kidney diseases]. 936 10

Inherited kidney diseases are frequently encountered in adults; the diagnosis is often made and they usually progress to renal failure at this age. Autosomal dominant polycystic kidney disease is the most prevalent. It is one of the most common inherited diseases, involving 1 in 400 to 1,000 individuals. Renal cysts growth is responsible for hypertension and renal failure; polycystic kidney disease represents 6 to 7% of the causes of end-stage renal failure in adults. The disease also encompasses extra-renal localisations, i.e. liver cysts and intra-cranial aneurysms. Multiple renal cysts may be found in other inherited disorders, such as tuberons sclerosis and von Hippel-Lindau disease. Alport syndrome is the second most prevalent inherited kidney disease, characterized by various abnormalities of type IV collagen molecules. Molecular diagnosis is possible in some families, which makes genetic counselling more reliable. Finally renal involvement is frequent in a great variety of inherited metabolic (Fabry's disease, glycogen storage disease type 1, hyperuricemic nephropathy) or non-metabolic (nail-patella or Bardet-Biedl syndrome) diseases.
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PMID:[Hereditary kidney diseases in adults]. 936 16

Autosomal dominant polycystic kidney disease (ADPKD) progresses to end-stage renal insufficiency before the age of 73 in approximately 48% of affected individuals. Why the disease, characterized by innumerable cysts arising in proximal and distal tubules, eliminates functioning non-cystic parenchyma in some patients and spares other is a mystery. The cysts initiate in early childhood in fewer than 1% of renal tubules as a consequence of the focal expression of mutated DNA. Tubule cells proliferate, causing segmental dilation, in association with the abnormal deposition of extracellular matrix proteins. Most of the cysts separate from the parent tubules and fill with fluid by cAMP-mediated chloride secretion. Risk factors associated with accelerated loss of renal function include: genotype (PKD Type 1 progresses more rapidly than PKD Type 2); gender (males progress more rapidly than females); race (black patients progress more rapidly than whites); hypertension; proteinuria. The relation between kidney size and progression to renal failure is debated. Progressive PKD is associated with the cellular expression of proto-oncogenes (fos, myc, ras, erb), growth factors (EGF, HGF, acid and basic FGF), chemokines (MCP-1. osteopontin), metalloproteinases, and apoptotic markers, and the interstitial accumulation of Types I and IV collagen, laminin, fibronectin, macrophages and fibroblasts, the magnitudes of which increase with age. Cyst activating factor (CAF), a neutral lipid identified in cyst fluid that stimulates fluid secretion and proliferation of renal epithelial cells and monocyte chemotaxis, has recently been identified as a potential progression factor. In those patients destined to develop renal failure there is loss of non-cystic parenchyma in association with mass replacement by fluid-filled cysts in a network of interstitial fibrosis. The decline in renal function is probably the consequence of processes leading to interstitial fibrosis, as in other nephropathies, rather than due to simple mechanical displacement of parenchyma by cysts.
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PMID:Mechanisms of progression in autosomal dominant polycystic kidney disease. 940 32

This study was performed to evaluate prognostic factors in ADPKD progression to ERSF. Previously reported negative factors (male gender, age, hypertension, palpable kidneys and UTI) as well as the extra-renal presence of cysts and proteinuria, were analysed in a group of 45 ADPKD patients (Male/Female, 25/20; Age = 40.1 +/- 19.7 yrs, range 21-69). Palpable kidneys were associated with higher serum creatinine values (955 +/- 689 vs 743 +/- 504 umol/l, p < 0.001) but not with a greater prevalence of renal failure. Renal failure (100% vs 60%), higher creatinine values (981 +/- 495 vs 778 +/- 654 umol/l) and hypertension (50% vs 18%) were related to a higher prevalence of extra-renal cysts (p < 0.05). Older patients (> 40 years) had a greater prevalence of renal failure (96% vs 32%, p < 0.001). Also, subjects with palpable kidneys, and those with extra-renal cysts, were significantly older (52.8 +/- 10.3 vs 30.5 +/- 20.6 yrs, p < 0.025; and 42.1 +/- 21.9 vs 38.1 +/- 18.2 yrs, p < 0.025). Patients with renal failure and those with extra-renal cysts had a greater prevalence of proteinuria (65% vs 0%, p < 0.001; and 100% vs 24%, p < 0.001). No correlation was seen for male gender, hypertension or UTI with any known complications of ADPKD. The extrarenal presence of cysts, older age, proteinuria and palpable kidneys were associated with a worse renal outcome, but for this Romanian population we can't confirm previous reports suggesting a role for male gender and early onset of disease.
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PMID:[The progression factors in autosomal dominant polycystic disease]. 945 2

Autosomal dominant polycystic kidney disease (ADPKD), Type I is a common genetic disorder and an important cause of renal failure. The disease is characterized by progressive cyst formation in a variety of organs including the kidney, liver and pancreas. We have previously shown that in the case of PKD1, renal cyst development is likely to require somatic inactivation of the normal allele coupled to a germline PKD1 mutation. In this report, we have used unique reagents to show that intragenic, somatic mutations are common in hepatic cysts. All pathogenic mutations were shown to have altered the previously normal copy of the gene. These data extend the "two-hit" model of cystogenesis to include a second focal manifestation of the disease.
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PMID:Somatic mutation in individual liver cysts supports a two-hit model of cystogenesis in autosomal dominant polycystic kidney disease. 973 62

Inherited polycystic kidney disease (PKD) in children is a disorder characterized by diffuse cystic involvement of both kidneys, without evidence of dysplasia. Both forms, autosomal recessive (ARPKD) and autosomal dominant (ADPKD) have considerable overlap in clinical presentation and radiographic features in the pediatric population. At present, a prenatal diagnosis is possible with ultrasound examination. A brief review of the literature is here reported. The knowledge of pathophysiological and clinical data is requested, since PKD represents a major cause of renal failure in pediatrics.
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PMID:[Renal polycystosis in pediatrics]. 986 50

Autosomal dominant polycystic kidney disease (AD-PKD) has a variable clinical course. Clinical parameters associated with a worse prognosis are hypertension and proteinuria or microalbuminuria (MA). Because chronic stimulation of the renin-angiotensin system is likely to be present in ADPKD patients, the effect of the angiotensin-converting enzyme insertion/deletion (ACE I/D) genotype on the variability of these clinical parameters was examined in untreated ADPKD patients. Proteinuria and MA were determined in 24-h urine collections. BP measurements were performed with an ambulatory monitor, over 24 h. With analysis of covariance, the ACE genotype was found to be significantly associated with MA, corrected for age, gender, GFR, mean arterial pressure, body surface area, and urinary Na+ excretion (P < 0.05). The patients homozygous for the deletion (DD) had the highest rate of MA (P < 0.05) compared to the patients homozygous for the insertion (II). There was no relationship between the ACE genotype and BP or renal function. A significant positive correlation was found between MA and mean arterial pressure (r = 0.31, P < 0.05), whereas a significant negative correlation was found between MA and renal function (r = -0.28, P < 0.05). In conclusion, in ADPKD patients, MA is partly determined by the ACE I/D polymorphism. Because MA is associated with an enhanced progression toward renal failure, the ACE genotype could help in identifying patients at risk for a worse prognosis.
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PMID:The angiotensin-converting enzyme genotype and microalbuminuria in autosomal dominant polycystic kidney disease. 1047 43

Autosomal Dominant Polycystic Kidney Disease (ADPKD), a common inherited disease leading to progressive renal failure, can be caused by a mutation in either the PKD1 or PKD2 gene. Both genes encode for putative transmembrane proteins, polycystin-1 and polycystin-2, which show significant homology to each other and are believed to interact at their carboxy termini. To identify genes that code for related proteins we searched for homologous sequences in several databases and identified one partial cDNA and two genomic sequences with significant homology to both polycystin-1 and - 2. Further analysis revealed one novel gene, PKD2L2, located on chromosome band 5q31, and two recently described genes, PKD2L and PKDREJ, located on chromosome bands 10q31 and 22q13.3, respectively. PKD2L2 and PKD2L, which encode proteins of 613 and 805 amino acids, are approximately 65% similar to polycystin-2. The third gene, PKDREJ, encodes a putative 2253 amino acid protein and shows about 35% similarity to both polycystin-1 and polycystin-2. For all the genes expression was found in testis. Additional expression of PKD2L was observed in retina, brain, liver and spleen by RT-PCR. Analyses of five ADPKD families without clear linkage to either the PKD1 or PKD2 locus showed no linkage to any of the novel loci, excluding these genes as the cause of ADPKD in these families. Although these genes may not be involved in renal cystic diseases, their striking homology to PKD2 and PKD1 implies similar roles and may contribute to elucidating the function of both polycystin-1 and polycystin-2.
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PMID:Genes homologous to the autosomal dominant polycystic kidney disease genes (PKD1 and PKD2). 1060 61

Autosomal dominant polycystic kidney disease (ADPKD) is a serious cause of renal failure. In many renal-disease models, surgical renal mass reduction accelerates disease progression. We explored whether surgical renal mass reduction and the method of renal mass reduction accelerate the course of ADPKD. Studies were conducted in male heterozygous cystic Han:SPRD rats and unaffected littermate controls. Control and cystic rats were subjected to 50% renal mass reduction by uninephrectomy, 50% renal mass reduction by infarction of half of each kidney, or sham operation. Most groups were followed up to the age of 20 weeks, with serial measurements of blood pressure and proteinuria. At 20 weeks, glomerular filtration rate (GFR) and renal plasma flow (RPF) rate were measured. Similar studies to 12 weeks of age were performed in additional groups of control and cystic rats with either sham operation or 50% renal infarction. In noncystic rats, uninephrectomy led to minimal effects on blood pressure and proteinuria and to substantial compensatory renal hypertrophy, hyperfiltration, and hyperperfusion. Similar renal mass reduction by segmental infarction led to greater values for blood pressure and proteinuria and significant compensatory hyperfiltration. In contrast, the cystic rats showed a significant reduction in baseline renal blood flow, more profound increases in blood pressure and proteinuria, and no compensatory increases in GFR and RPF after reduction of renal mass. These studies suggest that the ability of cystic kidneys to respond to acquired loss of nephrons is impaired and that these kidneys are at greater risk when additional renal injury is superimposed.
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PMID:Impaired adaptation to renal mass reduction in the polycystic rat. 1079 28

Autosomal dominant polycystic kidney disease is the most frequent genetic renal disease in our population. The variability of the evolution to renal failure, sometimes in the same family has lead to suspect a role for environment factors. In spite of active research, no factor has been identified so far.
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PMID:[Clinical case of the month. Autosomal dominant polycystic kidney: factors in progression of renal insufficiency]. 1105 72


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