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Enzyme
Compound
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Query: UNIPROT:Q00604 (
X-linked
)
16,883
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Twelve different mutations in the WASP gene were found in twelve unrelated families with
Wiskott-Aldrich syndrome
(
WAS
) or
X-linked
thrombocytopenia (XLT). Four frameshift, one splice, one nonsense mutation, and one 18-base-pair deletion were detected in seven patients with
WAS
. Only missense mutations were found in five patients diagnosed as having XLT. One of the nucleotide substitutions in exon 2 (codon 86) results in an Arg to Cys replacement. Two other nucleotide substitutions in this codon, R86L and R86H, have been reported previously, both giving rise to typical
WAS
symptoms, indicating a mutational hot spot in this codon. The finding of mutations in the WASP gene in both
WAS
and XLT gives further evidence of these syndromes being allelic. The relatively small size of the WASP gene facilitates the detection of mutations and a reliable diagnosis of both carriers and affected fetuses in families with
WAS
or XLT.
...
PMID:Mutation spectrum in patients with Wiskott-Aldrich syndrome and X-linked thrombocytopenia: identification of twelve different mutations in the WASP gene. 874 75
Wiskott-Aldrich syndrome
is an
X-linked
combined immunodeficiency affecting cells of several different hemopoietic lineages. The Wiskott-Aldrich syndrome protein (WASP), which has no homology with any other known protein families, is rich in proline motifs known to contribute to Src homology 3 binding sites. However, its function has not been determined. The Tec family of cytoplasmic tyrosine kinases, which include Btk (the X-linked agammaglobulinemia gene), Itk, and Tec, is thought to be involved in lymphoid cell signaling pathways. In this work, we show binding of WASP to the Src homology 3 domains of Btk, Itk, Tec, Grb2, and phospholipase C-gamma, which suggests a function for WASP in lymphoid cell signaling.
...
PMID:Evidence that the Wiskott-Aldrich syndrome protein may be involved in lymphoid cell signaling pathways. 889 7
Cell surface CD8 molecules exist as either alpha/alpha homodimers or alpha/beta heterodimers, and most CD8+ T cells that undergo differentiation in the thymus express alpha/beta heterodimers. CD8 molecules on peripheral blood lymphocytes of patients with
Wiskott-Aldrich syndrome
(
WAS
), an
X-linked
immunodeficiency disease, have now been shown to be composed mostly of alpha/alpha homodimers, while the total number of lymphocytes was maintained. This observation may indicate aberrant differentiation of CD8+ T cells in the thymus of
WAS
. Decreased CD8alpha/beta heterodimer expression, and the relative increase of CD8+ T cells expressing CD8alpha/alpha homodimer, may explain a part of the defective lymphocyte functions in
WAS
patients.
...
PMID:Decreased alpha/beta heterodimer among CD8 molecules of peripheral blood T cells in Wiskott-Aldrich syndrome. 890 43
The
Wiskott-Aldrich syndrome
(
WAS
), an
X-linked
immunodeficiency disease caused by mutation in the recently isolated gene encoding WAS protein (WASP), is known to be associated with extensive clinical heterogeneity. Cumulative mutation data have revealed that WASP genotypes are also highly variable among
WAS
patients, but the relationship of phenotype with genotype in this disease remains unclear. To address this issue we characterized WASP mutations in 24 unrelated
WAS
patients, including 18 boys with severe classical
WAS
and 6 boys expressing mild forms of the disease, and then examined the degree of correlation of these as well as all previously published WASP mutations with disease severity. By analysis of these compiled mutation data, we demonstrated clustering of WASP mutations within the four most N-terminal exons of the gene and also identified several sites within this region as hotspots for WASP mutation. These characteristics were observed, however, in both severe and mild cases of the disease. Similarly, while the cumulative data revealed a predominance of missense mutations among the WASP gene lesions observed in boys with isolated thrombocytopenia, missense mutations were not exclusively associated with milder
WAS
phenotypes, but also comprised a substantial portion (38%) of the WASP gene defects found in patients with severe disease. These findings, as well as the detection of identical WASP mutations in patients with disparate phenotypes, reveal a lack of phenotype concordance with genotype in
WAS
and thus imply that phenotypic outcome in this disease cannot be reliably predicted solely on the basis of WASP genotypes.
...
PMID:Identification of WASP mutations, mutation hotspots and genotype-phenotype disparities in 24 patients with the Wiskott-Aldrich syndrome. 893 1
There is a paradoxical relationship between immunodeficiency diseases and autoimmunity. While not all individuals with immunodeficiency develop autoimmunity, nor are all individuals with autoimmunity immunodeficient, defects within certain components of the immune system carry a high risk for the development of autoimmune disease. Inherited deficiencies of the complement system have a high incidence of systemic lupus erythematosus (SLE), glomerulonephritis, and vasculitis. Carrier mothers of children with chronic granulomatous disease, an
X-linked
defect of phagocytosis, often develop discoid lupus. Several antibody deficiencies are associated with autoimmune disease. Autoimmune cytopenias are commonly observed in individuals with selective IgA deficiency and common variable immune deficiency. Polyarticular arthritis can be seen in children with X-linked agammaglobulinemia. Combined cellular and antibody deficiencies, such as
Wiskott-Aldrich syndrome
, carry an increased risk for juvenile rheumatoid arthritis and autoimmune hemolytic anemia. Several hypothetical mechanisms have been proposed to explain the associations between autoimmunity and immunodeficiency. Immunologic defects may result in a failure to exclude microbial antigens, resulting in chronic immunologic activation and autoimmune symptoms. There may be shared genetic factors, such as common HLA alleles, which predispose an individual to both autoimmunity and immunodeficiency. Defects within one component of the immune system may alter the way a pathogen induces an immune response and lead to an inflammatory response directed at self-antigens. An understanding of the immunologic defects that contribute to the development of autoimmunity will provide an insight into the pathogenesis of the autoimmune process.
...
PMID:The association between immunodeficiency and the development of autoimmune disease. 893 26
Over the past 2 years, progress in medical genetics has brought about major advances in the field of primary immunodeficiencies. The genes underlying four
X-linked
defects in humans (X-linked agammaglobulinemia-XLA, X-linked severe combined immunodeficiency-XSCID, hyper IgM syndrome-HIGM1, and
Wiskott-Aldrich syndrome
-
WAS
), have recently been identified. These syndromes are all associated with increased susceptibility to infections due to defects of cell mediated and/or humoral immunity. The
X-linked
disorders described here are due to mutations in genes whose products are involved in fundamental steps in the development and maturation of lymphoid cells. XLA results from a defect in a non-receptor tyrosine kinase that is likely to be involved in a lineage-specific pathway of growth signal transduction. XSCID is due to a defect of the subunit gamma, common to a family of multichain lymphokine receptors (i.e., IL-2R; IL-4R). HIGM1 results from a partial failure of the interaction between T helper cells and B cells owing to mutation of the ligand (CD40L) expressed on T cells which normally interacts with B cell receptor CD40. The WAS protein has recently been identified as the mutated protein in the
WAS
, although it has not yet been fully characterized. Analysis of X-inactivation in different hematopoietic cell lineages of carrier females has been done to identify the lineage affected by the genetic defect: non random X-inactivation is observed in cell lines where the mutated protein plays a fundamental role. Moreover, X-inactivation analysis serves as a test to identify obligate carriers and to perform prenatal diagnosis. These results have enabled better understanding of the pathogenetic mechanisms underlying some immunodeficiencies and have laid the foundation for future therapeutic possibilities.
...
PMID:[Molecular genetics of X-linked primary immunodeficiencies: advances in diagnosis and prevention]. 899 63
This report reviews the clinicopathologic, immunologic, and molecular biological features of the congenital immunodeficiencies and their associated lymphoproliferative disorders (LPD) including cases presented at the Third Slide Workshop of the Society of Hematopathology, held in Duarte California, in October 1995. The congenital immunodeficiencies most commonly associated with LPD include
Wiskott-Aldrich syndrome
(
WAS
), common variable immunodeficiency (CVID), ataxia telangiectasia (AT), severe combined immunodeficiency (SCID),
X-linked
lymphoproliferative disorder (XLP), and hyper-IgM syndrome. Each form of immunodeficiency disorder is associated with its own risk factors, which affect the pattern of LPD encountered. AT is characterized by a defect in DNA repair. The lymphomas and leukemias in this syndrome resemble those seen in sporadic LPD, but tend to occur at an earlier age. Epstein-Barr virus (EBV) plays an important role in the LPD associated with many immunodeficiency disorders including
WAS
, CVID, SCID, and XLP. One should use a combination of clinical, histopathologic and molecular data in the evaluation of lymphoproliferative lesions in this group of patients. Immunophenotypic and molecular evidence of clonality does not necessarily imply an aggressive clinical course, an exemplified by some LPD in
WAS
, which may show evidence of monoclonality in serum and lymph nodes, and yet still behave in a benign or indolent fashion.
...
PMID:Lymphoproliferative disorders associated with congenital immunodeficiencies. 904 8
Wiskott-Aldrich syndrome
(
WAS
) and
X-linked
thrombocytopenia (XLT), caused by mutations of the WAS protein (WASP) gene, represent different phenotypes of the same disease. To demonstrate a phenotype/genotype correlation, we determined WASP gene mutations in 48 unrelated
WAS
families. Mutations included missense (20 families) and nonsense (eight) mutations located mostly in exons 1 to 4, and splice-site mutations (seven) and deletions and insertions (13) located preferentially in exons 7 to 11. Both genomic DNA and cDNA were sequenced and WASP expression was measured in cell lysates using peptide-specific rabbit anti-WASP antibodies. WASP was expressed in hematopoietic cell lines including bone marrow-derived CD34+ cells. Missense mutations located in exons 1 to 3 caused mild disease in all but one family and permitted WASP expression, although frequently at decreased concentration. Missense mutations affecting exon 4 were associated with classic
WAS
and, with one exception, barely detectable WASP. Nonsense mutations caused classic
WAS
and lack of protein. Insertions, deletions, and splice-site mutations resulted in classic
WAS
and absent, unstable, truncated, or multiply spliced protein. Using affinity precipitation, WASP was found to bind to Src SH3-containing proteins Fyn, Lck, PLC-gamma, and Grb2, and mutated WASP, if expressed, was able to bind to Fyn-glutathione S-transferase (GST) fusion protein. We conclude that missense mutations affecting the PH domain (exons 1 to 3) of WASP inhibit less important functions of the protein and result in a mild phenotype, and that missense mutations affecting exon 4 and complex mutations affecting the 3' portion of WASP interfere with crucial functions of the protein and cause classic
WAS
.
...
PMID:Wiskott-Aldrich syndrome/X-linked thrombocytopenia: WASP gene mutations, protein expression, and phenotype. 932 35
The
Wiskott-Aldrich syndrome
(
WAS
), X-linked severe combined immunodeficiency (SCIDX1), and X-linked agammaglobulinemia (XLA) are severe congenital immunodeficiencies with
X-linked
inheritance. Although rare, they are all associated with severe infections from early in life, and high morbidity and mortality. Female carriers of these diseases can be identified by a non-random pattern of X-chromosomal inactivation in cell lineages targeted by each gene defect. For patients with
WAS
, SCIDX1 or XLA, the demonstration of non random X-Chromosome inactivation in their mothers can be used to confirm clinical diagnosis. Furthermore, analysis of X-Chromosome inactivation in at risk females allows preconceptional carrier detection, thus representing an important aid in genetic counseling. For each disease we established a PCR-based, non radioactive assay at the human androgen receptor (HUMARA) locus, that allows analysis of X-Chromosome inactivation in the affected cell types and in tissue specific controls to exclude the issue of skewed X-chromosomal inactivation. In our study, 50 females with a known family history of XLA [19],
WAS
[18], and SCIDX1 [13],were examined. A carrier status was established in 19 females (7 XLA, 6
WAS
, 6 SCIDX1) and excluded in 29 ( 11 XLA, 11
WAS
, 7 SCIDX1). Only in 2 cases (4%) the assay was not informative.
...
PMID:A PCR-based non-radioactive X-chromosome inactivation assay for genetic counseling in X-linked primary immunodeficiencies. 933 30
Immunodeficiencies form a distinct group of human hereditary diseases with several rare disorders. During recent years, information has been collected concerning immunodeficiency patients and mutations causing disorders. The large European (ESID) registry contains clinical data for some 7,000 patients. At present, international mutation databases have information for > 1,000 immunodeficiency patients, including
X-linked
chronic granulomatous disease (XCGD),
Wiskott-Aldrich syndrome
(
WAS
), and
X-linked
thrombocytopenia (XLT), X-linked hyper-IgM syndrome (XHIM), X-linked agammaglobulinemia (XLA), and X-linked severe combined immunodeficiency (XSCID). The databases are available on Internet. The mutation spectra of patients in these registries were compared. Mutational hotspots were found in CpG dinucleotides with a preference for selected flanking bases.
...
PMID:Registries of immunodeficiency patients and mutations. 933 79
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