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)

Thrombotic microangiopathy, which includes thrombotic thrombocytopenic purpura (TTP), shiga-toxin-associated hemolytic uremic syndrome (Stx-HUS) and atypical HUS, is characterized by the development of hyaline thrombi in the microvasculature resulting in thrombocytopenia, microangiopathic hemolysis, and organ dysfunction. Renal failure is a predominant complication of both Stx-HUS and atypical HUS, whereas neurological complications are more prominent in TTP. Other disorders such as lupus or bone marrow transplantations may occasionally present with features of thrombotic microangiopathy. Recent studies have found autoimmune inhibitors or genetic mutations of a von Willebrand factor (VWF) cleaving metalloprotease ADAMTS13 in patients with TTP. In approximately 30-50% of patients with atypical HUS, mutations have been detected in complement factor H, membrane cofactor protein (CD46), or factor I. All three proteins are involved in the regulation of complement activation. Additionally, autoantibodies of factor H have been described in patients without genetic mutations. These advances illustrate that dysregulation of VWF homeostasis or complement activation owing to genetic or autoimmune mechanisms may lead to the syndrome of thrombotic microangiopathy.
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PMID:The molecular biology of thrombotic microangiopathy. 1676 Sep 11

Hemolytic uremic syndrome (HUS) is characterized by the triad of thrombocytopenia, microangiopathic hemolytic anemia, and acute renal failure. The non-Shiga toxin-associated HUS (atypical HUS [aHUS]) has been shown to be a disease of complement dysregulation. Mutations in the plasma complement regulators factor H and factor I and the widely expressed membrane cofactor protein (MCP; CD46) have been described recently. This study looked for MCP mutations in a panel of 120 patients with aHUS. In this cohort, approximately 10% of patients with aHUS (11 patients; nine pedigrees) have mutations in MCP. The onset typically was in early childhood. Unlike patients with factor I or factor H mutations, most of the patients do not develop end-stage renal failure after aHUS. The majority of patients have a mutation that causes reduced MCP surface expression. A small proportion expressed normal levels of a dysfunctional protein. As in other studies, incomplete penetrance is shown, suggesting that MCP is a predisposing factor rather than a direct causal factor. The low level of recurrence of aHUS in transplantation in patients with MCP mutations is confirmed, and the first MCP null individuals are described. This study confirms the association between MCP deficiency and aHUS and further establishes that a deficiency in complement regulation, specifically cofactor activity, predisposes to severe thrombotic microangiopathy in the renal vasculature.
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PMID:Genetic and functional analyses of membrane cofactor protein (CD46) mutations in atypical hemolytic uremic syndrome. 1679 May 5

We report a patient with homozygous factor H deficiency leading to permanent alternate complement activation and early onset of the hemolytic uremic syndrome. He was successfully treated with weekly infusions of fresh frozen plasma over 4 years, displaying normal blood pressure while only treated with an angiotensin converting enzyme (ACE) inhibitor, a steady level of haptoglobin, low-range proteinuria and normal creatinine clearance. By the end of the fourth year of treatment, he dramatically developed a relapse of hemolytic and uremic syndrome, displaying undetectable haptoglobin, nephrotic range proteinuria and progressive renal failure. Despite a ten-fold increase in the dosage of plasma infusion through daily plasma exchange, haptoglobin remained undetectable while circulating antigenic factor H levels reached 22-24% (normal values 65-140%). Three months following the biological onset of the relapse, a bilateral nephrectomy was performed owing to uncontrolled hypertension and rapidly progressive renal failure. The molecular mechanism of plasma resistance remained unclear while antifactor H antibodies were not detected in the plasma. We suggest that protracted administration of exogenous factor H might not be a long-term strategy in homozygous factor H deficiency.
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PMID:Secondary failure of plasma therapy in factor H deficiency. 1690 42

We encountered the case of a 4-year-old boy with thrombotic microangiopathy (TMA) of unknown etiology. Verotoxin-induced hemolytic uremic syndrome (HUS), Streptococcus-pneumoniae-related HUS, factor H deficiency, drug-induced thrombotic thrombocytopenic purpura (TTP), and ADAMTS13 (von Willebrand factor-cleaving protease; a disintegrin-like and metalloprotease with thrombospondin type 1 repeats)-related TTP were excluded. His condition was refractory to anticoagulants and plasma exchange, and his clinical course was catastrophic, with central nervous system symptoms and progressive renal failure. However, factual treatment of intravenous gamma globulin (IVIG) ended the hemolysis and resulted in a rise in platelet count. He fully recovered except for end-stage renal failure, but he underwent a successful renal transplant after peritoneal dialysis. He has not suffered a relapse of TMA or an allograft rejection for 4 years. IVIG might be an option for some patients with TMA of unknown etiology refractory to conventional treatment.
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PMID:Intravenous gamma globulin for thrombotic microangiopathy of unknown etiology. 1729 29

Atypical hemolytic-uremic syndrome (aHUS; OMIM 235400) is genetically and clinically heterogeneous. Mutations in membrane cofactor protein (MCP; CD46), a widely expressed complement regulator, predispose to recurrent forms of the disease. Patients carrying MCP mutations have a favorable clinical outcome in comparison to those with factor H (CFH) or factor I (IF) mutations, which lead in most cases to end-stage renal failure. We identified 1 patient who presented at 1 year of age with a first episode of aHUS requiring dialysis therapy. After 2 recurrences of the disease, the patient developed end-stage renal failure. No mutation in the CFH and IF genes was found. A novel homozygous mutation (IVS10+2 T-->C) in the splice-donor of exon 10 encoding the transmembrane region of the MCP gene was associated with dramatically decreased cell-surface expression of MCP. Because the nucleotide substitution was inherited from the patient's father, but not her mother, a large deletion or uniparental disomy was suspected. Both karyotyping and cytogenetic analysis of chromosome 1q32 were performed, for which MCP maps showed no abnormalities. Subsequent genotype analysis using microsatellite markers spanning chromosome 1 showed that the affected child was homozygous for the entire series of markers tested and that all alleles originated from the father. Complete paternal uniparental isodisomy of chromosome 1 is a novel mechanism resulting in severe deficiency of MCP expression. The outcome of the disease reported here indicates that MCP mutation and complete paternal uniparental disomy of chromosome 1 could have an additive effect in determining the severity of the HUS phenotype.
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PMID:Unusual clinical severity of complement membrane cofactor protein-associated hemolytic-uremic syndrome and uniparental isodisomy. 1726 36

Hemolytic uremic syndrome (HUS) consists of the association of hemolytic anemia, thrombocytopenia and renal failure. Most cases are related to toxins (verotoxins) produced by Escherichia coli 0157:H7 and generally have good renal prognosis. Atypical forms can occur, with a less favorable prognosis, and can be due to mutations in the gene codifying factor H, a protein that regulates activation of the alternative complement pathway, among other causes. Factor H deficiency produces continuous complement activation, causing injury to capillary endothelial cells. We report a case of incomplete (absence of thrombocytopenia and uremia), atypical HUS in which hypocomplementemia secondary to partial factor H deficiency was detected, with favorable outcome. Prior to symptom onset, the patient had a Campylobacter infection, precipitating the symptoms. Genetic analysis showed a heterozygous mutation (C846T) located in the SCR4 domain, generating an amino acid change in the factor H molecule (Pro240Leu). This mutation may have been the cause of the partial factor H deficiency and the patient's symptoms on admission.
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PMID:[Incomplete hemolytic uremic syndrome associated with partial factor H deficiency]. 1730 7

Atypical hemolytic uremic syndrome (aHUS) frequently results in end-stage renal failure and can be lethal. Several studies have established an association between quantitative or qualitative abnormalities in complement factor H and aHUS. Although plasma infusion and exchange are often advocated, guidelines have yet to be established. Long-term outcome for patients under treatment is still unknown. We describe a patient who, at 7 months of age, presented with aHUS associated with combined de novo complement factor H mutations (S1191L and V1197A) on the same allele. Laboratory investigations showed normal levels of complements C4, C3 and factor H. Plasma exchanges and large-dose infusion therapy resulted in a resolution of hemolysis and recovery of renal function. Three recurrences were successfully treated by intensification of the plasma infusion treatment to intervals of 2 or 3 days. This patient showed good response to large doses of plasma infusions and her condition remained stable for 30 months with weekly plasma infusions (30 ml/kg). Long-term tolerance and efficacy of such intensive plasma therapy are still unknown. Reported secondary failure of plasma therapy in factor H deficiency warrants the search for alternative therapeutic approaches.
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PMID:Efficacy of plasma therapy in atypical hemolytic uremic syndrome with complement factor H mutations. 1842 37

The term thrombotic microangiopathy (TMA) encompasses different disturbances that are usually classified as thrombotic thrombocytopenic purpura (TTP) or haemolytic-uraemic syndrome (HUS). These syndromes are characterized by thrombocytopenia, microangipathic haemolytic anaemia, neurological deficits and renal failure. Etiology of TMA include exotoxins, drug toxicity (cyclosporin, tacrolimus, ticlopidine, clopidogrel, mitomycin), but also familiar forms associated with deficiency of factor H (HUS) or vWF protease activity (TTP). TMA in renal transplant recipients may evolve de novo or may recur in patients who were diagnosed with TMA as the primary renal disease. We present a case of renal transplant recipient with ESRD of unknown etiology, who was diagnosed with TMA 3 years after transplantation. After discontinuation of cyclosporine, she was treated with therapeutic plasma exchange (TPE). Cytomegalovirus reactivation demanded discontinuation of the chronic program of TPE, what was followed by worsening of graft function and demand for dialysis one year after the diagnosis of TMA. Patients with TMA should be carefully followed-up after renal transplantation for the signs of disease recurrence. Withdrawal of precipitating factors is of outstanding importance. TPE is used to limit the endothelial damage and to limit the microangiopathic process. However, its efficacy is unclear. Our case demonstrates that TPE may improve graft survival, with the possibility of inducing opportunistic infections. International registries are needed to establish the guidelines for follow-up and treatment of renal transplant recipients with TMA.
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PMID:[Thrombotic microangiopathy after kidney transplantation]. 1857 40

Haemolytic uraemic syndrome (HUS) is characterized by microangiopathic haemolytic anaemia, thrombocytopenia and renal failure because of thrombotic microangiopathy (TMA). It may be caused by infection with Shiga toxin-producing enteropathic bacteria (Stx-associated HUS) or with genetic defects in complement alternative pathway (CAP) regulation (atypical HUS). We hypothesized that defective complement regulation could increase host susceptibility to Stx-associated HUS. Hence, we studied the response of mice with heterozygous deficiency of the major CAP regulator, factor H, to purified Stx-2. Stx-2 was administered together with lipopolysaccharide to wild-type and Cfh(+/-) C57BL/6 animals. Forty-eight hours after administration of the first Stx-2 injection all animals developed significant uraemia. Renal histology demonstrated significant tubular apoptosis in the cortical and medullary areas which did not differ between wild-type or Cfh(+/-) Stx-2-treated mice. Uraemia and renal tubular apoptosis did not develop in wild-type or Cfh(+/-) animals treated with lipopolysaccharide alone. No light microscopic evidence of TMA or abnormal glomerular C3 staining was demonstrable in the Stx-2 treated animals. In summary, Stx-2 administration did not result in TMA in either Cfh(+/-) or wild-type C57BL/6 mice. Furthermore, haploinsufficiency of factor H did not alter the development of Stx-2-induced renal tubular injury.
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PMID:Shiga toxin-2 results in renal tubular injury but not thrombotic microangiopathy in heterozygous factor H-deficient mice. 1904 Jun 6

Atypical hemolytic uremic syndrome is often associated with mutations in genes encoding complement regulatory proteins and secondary disorders of complement regulation. Progression to kidney failure and recurrence with graft loss after kidney transplantation are frequent. The most common mutation is in the gene encoding complement factor H. Combined liver-kidney transplantation may correct this complement abnormality and prevent recurrence when the defect involves genes encoding circulating proteins that are synthesized in the liver, such as factor H or I. Good outcomes have been reported when surgery is associated with intensified plasma therapy. A consensus conference to establish treatment guidelines for atypical hemolytic uremic syndrome was held in Bergamo in December 2007. The recommendations in this article are the result of combined clinical experience, shared research expertise, and a review of the literature and registry information. This statement defines groups in which isolated kidney transplantation is extremely unlikely to be successful and a combined liver-kidney transplant is recommended and also defines those for whom kidney transplant remains a viable option. Although combined liver-kidney or isolated liver transplantation is the preferred therapeutic option in many cases, the gravity of risk associated with the procedure has not been eliminated completely, and assessment of risk and benefit requires careful and individual attention.
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PMID:Liver-kidney transplantation to cure atypical hemolytic uremic syndrome. 1909 17


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