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Query: EC:3.4.25.1 (
proteasome
)
28,817
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
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.
...
PMID:Genetic and functional analyses of membrane cofactor protein (CD46) mutations in atypical hemolytic uremic syndrome. 1679 May 5
The hemolytic uremic syndrome is characterized by the triad of microangiopathic hemolytic anemia, thrombocytopenia and acute renal failure. There are two general types. One occurs in epidemic form and is diarrheal associated (D+HUS). It has a good prognosis. The second is a rare form known as atypical (
aHUS
), which may be familial or sporadic, and has a poor prognosis.
aHUS
is increasingly recognized to be a disease of defective complement regulation, particularly cofactor activity. Mutations in membrane cofactor protein (
MCP
; CD46) that predispose to the development of
aHUS
were first identified in 2003.
MCP
is a membrane-bound complement regulator that acts as a cofactor for the factor I-mediated cleavage of C3b and C4b deposited on host cells. More than 20 different mutations in
MCP
have now been identified in patients with
aHUS
. Many of these mutants have been functionally characterized and have helped to define the pathogenic mechanisms leading to
aHUS
development. Over 75% of the reported mutations cause a reduction in
MCP
expression, due to homozygous, compound heterozygous or heterozygous mutations. This deficiency of
MCP
leads to inadequate control of complement activation on endothelial cells after an initiating injury. The remaining
MCP
mutants are expressed, but demonstrate reduced ligand (C3b/C4b) binding capacity and cofactor activity of
MCP
.
MCP
mutations in
aHUS
demonstrate incomplete penetrance, indicating that additional genetic and environmental factors are required to manifest disease.
MCP
mutants as a cause of
aHUS
have a favorable clinical outcome in comparison to patients with factor H (CFH) or factor I (IF) mutations. In 90% of the renal transplants performed in patients with
MCP
-HUS, there has been no recurrence of the primary disease, whilst >50% of factor I or factor H deficient patients have had a prompt recurrence. This highlights the importance of defining and characterizing the underlying genetic defects in patients with
aHUS
.
...
PMID:Implications of the initial mutations in membrane cofactor protein (MCP; CD46) leading to atypical hemolytic uremic syndrome. 1688 52
The haemolytic uraemic syndrome (HUS) is characterized by the triad of thrombocytopenia, microangiopathic haemolytic anaemia and acute renal failure. HUS may be classified as either diarrhoeal-associated or non-diarrhoeal/atypical (
aHUS
).
aHUS
has recently been shown to be a disease of complement dysregulation, with 50% of cases involving the complement regulatory genes, factor H (CFH), membrane cofactor protein (
MCP
; CD46), and factor I (IF). However, incomplete penetrance of mutations in each of these genes is reported. This suggests that a precipitating event or trigger is required to unmask the complement regulatory deficiency. The reported precipitating events predominantly cause endothelial injury. Discovery of these mutations has revealed important genotype-phenotype correlations.
MCP
-HUS has a better prognosis and a better outcome after transplantation than either CFH-HUS or IF-HUS.
...
PMID:Atypical haemolytic uraemic syndrome. 1696 92
Mutations in complement regulatory proteins predispose to the development of
aHUS
. Approximately 50% of patients bear a mutation in one of three complement control proteins, factor H, factor I, or membrane cofactor protein (
MCP
; CD46). Another membrane regulator that is closely related to
MCP
, decay accelerating factor (DAF; CD55) thus far has shown no association with
aHUS
and continues to be investigated. The goal of this study was to compare the regulatory profile of
MCP
and DAF and to assess how alterations in
MCP
predispose to complement dysregulation. We employed a model system of complement activation on Chinese hamster ovary (CHO) cell transfectants. The four regularly expressed isoforms of
MCP
and DAF inhibited C3b deposition by the alternative pathway. DAF, but not
MCP
, inhibited the classical pathway. Most patients with
MCP
-
aHUS
are heterozygous and express only 25-50% of the wild-type protein. We, therefore, analyzed the effect of reduced levels of wild-type
MCP
and found that cells with lowered expression levels were less efficient in inhibiting alternative pathway activation. Further, a dysfunctional
MCP
mutant, expressed at normal levels and identified in five patients with
aHUS
(S206P), failed to protect against C3b amplification on CHO cells, even if expression levels were increased 10-fold. Our results add new information relative to the necessity for appropriate expression levels of
MCP
and further implicate the alternative pathway in disease processes such as
aHUS
.
...
PMID:Modeling how CD46 deficiency predisposes to atypical hemolytic uremic syndrome. 1702 83
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.
...
PMID:Unusual clinical severity of complement membrane cofactor protein-associated hemolytic-uremic syndrome and uniparental isodisomy. 1726 36
About 60% of non-Stx-associated
aHUS
are due to the defect of protection of endothelial cells from complement activation, secondary to mutations in the genes of CFH,
MCP
, IF, BF, or C3. In addition, 10% of patients have anti-CFH antibodies. While the risk of post-transplant recurrence is less than 1% in Stx-HUS patients, it is approximately 80% in CFH or IF-mutated patients, 20% in
MCP
-mutated patients, and 30% in patients with no mutation. Patients with anti-CFH antibodies probably also are at risk of recurrence. While
MCP
-mutated patients can reasonably go to transplantation, recent reports suggest that plasmatherapy started before surgery and maintained life-long may prevent recurrence in CFH-mutated patients. Four successful liver-kidney transplantation utilizing plasmatherapy in CFH-mutated children have been reported recently. In summary, the risk of post-transplant recurrence can now be approached according to genotype. Therefore,
aHUS
patients should undergo complement determination, screening for anti-CFH antibodies, and genotyping before transplantation. Kidney or kidney + liver transplantation with concomitant plasmatherapy need to be evaluated by prospective trials in patients with hereditary complement abnormalities.
...
PMID:Hemolytic uremic syndrome recurrence after renal transplantation. 1848 12
Hemolytic uremic syndrome (HUS) is a disease of microangiopathic hemolytic anemia, thrombocytopenia and acute renal failure. About 90% of cases are secondary to infections by Escherichia coli strains producing Shiga-like toxins (STEC-HUS), while 10% are associated with mutations in genes encoding proteins of complement system (
aHUS
). We describe two patients with a clinical history of STEC-HUS, who developed end-stage renal disease (ESRD) soon after disease onset. They received a kidney transplant but lost the graft for HUS recurrence, a complication more commonly observed in
aHUS
. Before planning a second renal transplantation, the two patients underwent genetic screening for
aHUS
-associated mutations that revealed the presence of a heterozygous CFI mutation in patient #1 and a heterozygous
MCP
mutation in patient #2, and also in her mother who donated the kidney. This finding argues that the two cases originally diagnosed as STEC-HUS had indeed
aHUS
triggered by STEC infection on a genetic background of impaired complement regulation. Complement gene sequencing should be performed before kidney transplantation in patients who developed ESRD following STEC-HUS since they may be undiagnosed cases of
aHUS
, at risk of posttransplant recurrence. Furthermore, genetic analysis of donors is mandatory before living-related transplantation to exclude carriers of HUS-predisposing mutations.
...
PMID:Two patients with history of STEC-HUS, posttransplant recurrence and complement gene mutations. 2373 45
aHUS
(atypical haemolytic uraemic syndrome), AMD (age-related macular degeneration) and other diseases are associated with defective AP (alternative pathway) regulation. CFH (complement factor H), CFI (complement factor I),
MCP
(membrane cofactor protein) and C3 exhibited the most disease-associated genetic alterations in the AP. Our interactive structural database for these was updated with a total of 324 genetic alterations. A consensus structure for the SCR (short complement regulator) domain showed that the majority (37%) of SCR mutations occurred at its hypervariable loop and its four conserved Cys residues. Mapping 113 missense mutations onto the CFH structure showed that over half occurred in the C-terminal domains SCR-15 to -20. In particular, SCR-20 with the highest total of affected residues is associated with binding to C3d and heparin-like oligosaccharides. No clustering of 49 missense mutations in CFI was seen. In
MCP
, SCR-3 was the most affected by 23 missense mutations. In C3, the neighbouring thioester and MG (macroglobulin) domains exhibited most of 47 missense mutations. The mutations in the regulators CFH, CFI and
MCP
involve loss-of-function, whereas those for C3 involve gain-of-function. This combined update emphasizes the importance of the complement AP in inflammatory disease, clarifies the functionally important regions in these proteins, and will facilitate diagnosis and therapy.
...
PMID:New functional and structural insights from updated mutational databases for complement factor H, Factor I, membrane cofactor protein and C3. 2518 23
Pregnancy-associated thrombotic microangiopathy (TMA) is a rare condition, but it is burdened by a significant perinatal and maternal morbidity as well as mortality. We describe the case of a 33-year-old woman, who developed a TMA at the 36th week of gestation characterized by increased LDH, haptoglobin consumption, schistocytes, thrombocytopenia and acute renal failure requiring dialysis. There were not gestational hypertension nor proteinuria until the day of hospitalization. ADAMTS 13 deficiency was ruled out and the patient did not have diarrhea. She was initially treated with caesarean section, plasma infusion and plasmapheresis with no benefit. Five days after the onset of TMA, a temptative diagnosis of atypical uremic syndrome (
aHUS
) was made and the patient was switched to eculizumab. Antibiotic prophylaxis and anti-meningococcal A,B, C, W135 and Y vaccination was performed. TMA rapidly resolved and renal function completely recovered. The newborn had a normal perinatal course. A complement dysregulation was ruled out by testing for mutations on CFH, CFHR3-R1, CFI,
MCP
, CFB, C3 and for anti CFH antibodies. In conclusion the differential diagnosis of
aHUS
with HELLP syndrome is often not straightforward. The severity and persistence of TMA, the high mortality associated to peripartum TMA and the risk for irreversible kidney failure require an early therapeutic decision as to the use of eculizumab.
...
PMID:[Efficacy of eculizumab in a case of pregnancy-associated aHUS]. 2754 39
In the last two years we admitted in our Hospital 38 children with acute renal failure (ARF). Six of them were affected by hemolytic uremic syndrome (HUS) atypical. The
aHUS
is diagnosed in the presence of thrombotic microangiopathy (MAT), renal insufficiency (GFR 5%). The clinical presentation of our children has been varied and so also its evolution. Patients observed were all male, aged 2 to 12 years, and no one had a family history of kidney disease. In four patients we documented alterations of complement factors (
MCP
deficiency and factor H and presence of anti factor H). Repeated blood transfusions were required in 4 patients and in 3 patients the platelet count was slightly reduced. In 5 patients we did plasmapheresis and in 3 patients dialysis (hemodialysis and peritoneal dialysis). In three patients in whom the diagnosis was not clear, renal biopsy was performed to confirm the diagnosis. Eculizumab was administered in 3 patients resistant to plasma exchange. We obtain a rapid response on MAT with normalization of platelet count. The effect on renal function was variable (complete remission in a patient, partial improvement in another, and unresponsiveness in the last). The last had on Kidney biopsy signs of severe impairment and we documented the presence of antibodies to eculizumab. HUS is a rare condition, but probably much more common than reported. In children with ARF and microangiopathic anemia is necessary evaluated complement factors as early to obtain an improved clinical response to treatment with eculizumab.
...
PMID:[Atypical Hemolytic Uremic Syndrome: experience of a pediatric center]. 2971 Apr 40
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