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:C0035078 (renal failure)
31,970 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Autosomal-dominant polycystic kidney disease (ADPKD) is a common genetic disorder that frequently leads to renal failure. Mutations in polycystin-1 (PC1) underlie most cases of ADPKD, but the function of PC1 has remained poorly understood. No preventive treatment for this disease is available. Here, we show that the cytoplasmic tail of PC1 interacts with tuberin, and the mTOR pathway is inappropriately activated in cyst-lining epithelial cells in human ADPKD patients and mouse models. Rapamycin, an inhibitor of mTOR, is highly effective in reducing renal cystogenesis in two independent mouse models of PKD. Treatment of human ADPKD transplant-recipient patients with rapamycin results in a significant reduction in native polycystic kidney size. These results indicate that PC1 has an important function in the regulation of the mTOR pathway and that this pathway provides a target for medical therapy of ADPKD.
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PMID:The mTOR pathway is regulated by polycystin-1, and its inhibition reverses renal cystogenesis in polycystic kidney disease. 1656 52

Tuberous sclerosis complex (TSC) was instrumented for identification of the gene causing autosomal dominant polycystic kidney disease type 1 (PKD1) because a patient showing both diseases gave rise to the suggestion that the TSC2 gene is located in close vicinity on chromosome 16p13. However, distinct molecular genetic characterization of such patients is sparse in the literature. A 41-year-old woman was admitted because of chylous ascites and pleural effusions. She was on hemodialysis therapy for 6 years because of end-stage renal failure from PKD. Both kidneys had been removed at ages 35 and 36 years. Histologically, both specimens also showed multiple angioleiomyolipoma. Mild, but classic, lesions of the TSC complex were present on her face and hands and in the central nervous system. The genetic defect was identified by using quantitative real-time polymerase chain reaction (qPCR), long-range PCR (LR-PCR), and sequencing. qPCR confirmed the existence of a TSC2-PKD1 contiguous gene deletion spanning the entire TSC2 and PKD1 genes. Additional analysis showed expansion of the deletion affecting the adjacent downstream-located genes RAB26 and TRAF7, as well as the great majority of CASKIN1. LR-PCR and sequencing identified flanking simple tandem repeats. A nonhomologous misalignment mechanism has driven the recombination, most likely by replication slippage between a 3-bp homology (ATG) at the breakpoint regions. Our results confirm that patients with both TSC and PKD have a genetically contiguous gene syndrome with hemizygous deletion of the TSC2 and PKD1 genes. Despite this maximal genetic defect, the typical signs of TSC, mental retardation and seizures, can be absent.
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PMID:Gross genomic rearrangement involving the TSC2-PKD1 contiguous deletion syndrome: characterization of the deletion event by quantitative polymerase chain reaction deletion assay. 1718 37

Autosomal dominant polycystic kidney disease (ADPKD) is an inherited systemic disease characterized by a prolonged subclinical course of gradual renal cyst expansion, resulting in massively enlarged kidneys and renal failure by the fifth to sixth decade. Renal cyst expansion results in intrarenal ischemia and activation of the renin-angiotensin-aldosterone system (RAAS) and relates to the development and maintenance of hypertension in ADPKD. Hypertension relates to disease progression in ADPKD with regard to renal volume, proteinuria, cardiovascular complications, and progression to end-stage renal disease. Novel magnetic resonance imaging methods developed in the Consortium for Radiologic Imaging for the Study of Polycystic Kidney Disease (CRISP) provide accurate estimates of change in renal volume over a short period of time in ADPKD patients with intact renal function. In CRISP an increase in renal volume of 63.4 ml/yr was found. PKD1 status, male gender, hypertension, reduced renal blood flow, and proteinuria are associated with increased renal volume and change in renal volume over time. HALT-Polycystic Kidney Disease (HALT-PKD) is designed to test whether blockade of RAAS and/or rigorous blood pressure control play a role in slowing renal progression during early (using magnetic resonance imaging methods developed in CRISP) and during late (using measures, including composite of time to doubling of serum creatinine, onset of end-stage renal disease, or death) phases in ADPKD. Findings from CRISP and the rationale for interventions in ADPKD are described, and the design of the HALT-PKD clinical trial is outlined.
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PMID:Approaches to testing new treatments in autosomal dominant polycystic kidney disease: insights from the CRISP and HALT-PKD studies. 1857 74

Autosomal dominant polycystic kidney disease (ADPKD) is a common hereditary disease associated with progressive renal failure. Although cyst growth and compression of surrounding tissue may account for some loss of renal tissue, the other factors contributing to the progressive renal failure in patients with ADPKD are incompletely understood. Here, we report that secreted frizzled-related protein 4 (sFRP4) is upregulated in human ADPKD and in four different animal models of PKD, suggesting that sFRP4 expression is triggered by a common mechanism that underlies cyst formation. Cyst fluid from ADPKD kidneys activated the sFRP4 promoter and induced production of sFRP4 protein in renal tubular epithelial cell lines. Antagonism of the vasopressin 2 receptor blocked both promoter activity and tubular sFRP4 expression. In addition, sFRP4 selectively influenced members of the canonical Wnt signaling cascade and promoted cystogenesis of the zebrafish pronephros. sFRP4 was detected in the urine of both patients and animals with PKD, suggesting that sFRP4 may be a potential biomarker for monitoring the progression of ADPKD. Taken together, these observations suggest a potential role for SFRP4 in the pathogenesis of ADPKD.
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PMID:Increased expression of secreted frizzled-related protein 4 in polycystic kidneys. 1894 44

Autosomal dominant polycystic kiney disease is a hereditary systemic disorder, characterized by the developement of cysts, mainly in the kidney and liver, also with gastrointestinal and cardiovascular abnormalities. It affects 4 to 6 million people wordwide and accounts for end-stage renal disease in 7-10% of dialysis patients. The genetic penetrance is 100%, all affected individuals develop renal cysts until 70 years of age, and because of a great renal function reserve only about 50% of patients develop some degree of renal failure until the age of 60. Autosomal dominant polycystic kiney disease is a heterogeneous disorder, from a clinical as well as from a genetic point of view. There are at least three genes responsible for the disease: PKD-1 gene localized on chromosome 16p in the 16p13.3 segment which encodes Polycystin 1 protein similar to membrane receptor, PKD-2 gene localized on chromosome 4q in 4q13-23 segment which encodes Polycystin 2 protein wery similar to voltage L type Ca++ channel as well as Na+ channel and PKD-3 gene of unknown localization. Specific proteins participate in regulation od cell proliferation, apoptosis, secretion, polarity, cell-matrix interactions as cell-cell interactions and lead to the developement of cystic kidney disease. Renal manifestations of disease include structural (cyst development), functional (concentration alility falls), endocrine (renin erythropoietin) abnormalities and extra- renal manifestations. A routine diagnostic methods are good case-history about cystic kidney disease in family, ultrasonographic examination of kidneys and computerized tomography. In therapy of autosomal dominant polycystic kiney disease, low protein diets may help, treatment of arterial hypertension with ACE inhibitors and angiotensin II receptor blockers, the vasopressin V2 antagonists (VSR), rapamycin and long-acting somatostatin analogue may have some benefit.
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PMID:[Autosomal dominant polycystic kidney disease]. 2080 5

Autosomal dominant polycystic kidney disease (ADPKD) caused by mutations in either the PKD1 or PKD2 gene is a major cause of end-stage renal failure. A number of compounds targeting specific signaling pathways were able to inhibit cystogenesis in rodent models and are currently being tested in clinical trials. However, given the complex signaling in ADPKD, an ideal therapy would likely have to comprise several pathways at once. Therefore, multitarget compounds may provide promising therapeutic interventions for the treatment of ADPKD. To test this hypothesis, we treated Pkd1-deletion mice with diferuloylmethane (curcumin), a compound without appreciable side effects and known to modulate several pathways that are also altered in ADPKD, e.g., mammalian target of rapamycin (mTOR) and Wnt signaling. After conditional inactivation of Pkd1, mTOR signaling was indeed elevated in cystic kidneys. Interestingly, also activation of signal transducers and activator of transcription 3 (STAT3) strongly correlated with cyst progression. Both pathways were effectively inhibited in vitro by curcumin. Importantly, Pkd1-deletion mice that were treated with curcumin and killed at an early stage of PKD displayed improved renal histology and reduced STAT3 activation, proliferation index, cystic index, and kidney weight/body weight ratios. In addition, renal failure was significantly postponed in mice with severe PKD. These data suggest that multitarget compounds hold promising potential for safe and effective treatment of ADPKD.
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PMID:Curcumin inhibits cystogenesis by simultaneous interference of multiple signaling pathways: in vivo evidence from a Pkd1-deletion model. 2134 77

In autosomal dominant polycystic kidney disease, cysts arise focally and disrupt normal renal tissue leading to renal failure. In the present study, we show that cyst-lining cells express the stem cell marker CD133. CD133+ progenitor cells isolated from polycystic kidney, carrying mutations of PKD genes, showed a dedifferentiated phenotype similar to CD133+ progenitor cells from normal kidney. However, these cells were more proliferative and presented a defective epithelial differentiation phenotype with respect to normal renal CD133+ cells as they were not able to express all tubular epithelial cell markers when cultured in epithelial differentiation medium. Polycystic CD133+ cells, in contrast to normal renal CD133+ cells, formed cysts in vitro in a three-dimensional culture system and in vivo when injected subcutaneously within Matrigel in SCID mice. Rapamycin treatment reduced in vitro proliferation of polycystic CD133+ cells and decreased cystogenesis both in vitro and in vivo. The in vitro epithelial differentiation was only partially improved by rapamycin. These results indicate that polycystic CD133+ cells retain a dedifferentiated phenotype and the ability to generate cysts.
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PMID:Cystogenic potential of CD133+ progenitor cells of human polycystic kidneys. 2170 82

Autosomal dominant polycystic kidney disease (ADPKD) is a commonly inherited disorder mostly caused by mutations in PKD1, encoding polycystin-1 (PC1). The disease is characterized by development and growth of epithelium-lined cyst in both kidneys, often leading to renal failure. There is no specific treatment for this disease. Here, we report a sustained activation of the transcription factor signal transducer and activator of transcription 3 (STAT3) in ischemic injured and uninjured Pkd1 knockout polycystic kidneys and in human ADPKD kidneys. Through a chemical library screen, we identified the anti-parasitic compound pyrimethamine as an inhibitor of STAT3 function. Treatment with pyrimethamine decreases cell proliferation in human ADPKD cells and blocks renal cyst formation in an adult and a neonatal PKD mouse model. Moreover, we demonstrated that a specific STAT3 inhibitor, S3I-201, reduces cyst formation and growth in a neonatal PKD mouse model. Our results suggest that PC1 acts as a negative regulator of STAT3 and that blocking STAT3 signaling with pyrimethamine or similar drugs may be an attractive therapy for human ADPKD.
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PMID:Pyrimethamine inhibits adult polycystic kidney disease by modulating STAT signaling pathways. 2182 71

Autosomal dominant polycystic kidney disease (ADPKD) is the most common genetic cause of kidney failure in the world. Currently there are no treatments to prevent kidney due to ADPKD. Vitamin D is traditionally known for its role in maintaining calcium balance and normal bone health, but it is being increasingly being recognised for a number of other important physiological functions, including reducing blood pressure and proteinuria as well as kidney inflammation andfibrosis. Vitamin D deficiency is associated with proteinuria, increased mortality and may mediate the progression to kidney failure. Recent data from an Australian cohort study (AusDiab) reveals that vitamin D deficiency and insufficiency are common conditions, affecting 26.6% and 42.1% of the Australian community respectively. Preclinical studies from our laboratory have identified that vitamin D deficiency exacerbates proteinuria and hypertension in experimental PKD, and that this is reversed by treatment with vitamin D receptor agonist. In this manuscript, we report the rational and design of an open-label observational study of humans with ADPKD (eGFR>30 ml/min/1.73m2). All subjects will undergo screening for vitamin D levels at the beginning of study, and those that are found to be either deficient (<50 nmol/L) or insufficient (<75 nmol/L) will be repleted with oral cholecalciferol for 6 months. We predict that cholecalciferol will attenuate hypertension, proteinuria and reduce the urinary excretion of a biomarker, monocyte chemoattractant protein-1 (MCP-1, a surrogate inflammatory marker of progression in ADPKD). This study will provide evidence as to whether a simple intervention such as vitamin D repletion, in either deficient or insufficient states, is a treatment to prevent kidney failure in ADPKD.
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PMID:Rationale and design of an observational study to determine the effects of cholecalciferol on hypertension, proteinuria and urinary MCP-1 in ADPKD. 2397 93

Polycystin-1 (PC1) mutations result in proliferative renal cyst growth and progression to renal failure in autosomal dominant polycystic kidney disease (ADPKD). The transcription factor STAT3 (signal transducer and activator of transcription 3) was shown to be activated in cyst-lining cells in ADPKD and PKD mouse models and may drive renal cyst growth, but the mechanisms leading to persistent STAT3 activation are unknown. A proteolytic fragment of PC1 corresponding to the cytoplasmic tail, PC1-p30, is overexpressed in ADPKD. Here, we show that PC1-p30 interacts with the nonreceptor tyrosine kinase Src, resulting in Src-dependent activation of STAT3 by tyrosine phosphorylation. The PC1-p30-mediated activation of Src/STAT3 was independent of JAK family kinases and insensitive to the STAT3 inhibitor suppressor of cytokine signaling 3. Signaling by the EGF receptor (EGFR) or cAMP amplified the activation of Src/STAT3 by PC1-p30. Expression of PC1-p30 changed the cellular response to cAMP signaling. In the absence of PC1-p30, cAMP dampened EGFR- or IL-6-dependent activation of STAT3; in the presence of PC1-p30, cAMP amplified Src-dependent activation of STAT3. In the polycystic kidney (PCK) rat model, activation of STAT3 in renal cystic cells depended on vasopressin receptor 2 (V2R) signaling, which increased cAMP levels. Genetic inhibition of vasopressin expression or treatment with a pharmacologic V2R inhibitor strongly suppressed STAT3 activation and reduced renal cyst growth. These results suggest that PC1, via its cleaved cytoplasmic tail, integrates signaling inputs from EGFR and cAMP, resulting in Src-dependent activation of STAT3 and a proliferative response.
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PMID:The cleaved cytoplasmic tail of polycystin-1 regulates Src-dependent STAT3 activation. 2457 26


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