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: UNIPROT:Q00604 (X-linked)
16,883 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mutation in the gene encoding the recently isolated WASP protein has now been identified as the genetic defect responsible for the X-linked Wiskott-Aldrich syndrome (WAS), a primary immunodeficiency disease associated with extensive phenotypic variability. To elucidate the range of WASP mutations responsible for WAS, we used PCR-SSCP analysis to screen for WASP gene mutation in 19 unrelated boys with the diagnosis of classical or attenuated WAS or isolated thrombocytopenia. All 19 patients had WASP mutations, each of which localized to the initial three or terminal three exons of the gene, and the majority of which were unique in each case. However, a missense mutation which results in substitution of the arginine at WAS codon 86 was identified in three boys with severe WAS as well as in one boy presenting with thrombocytopenia alone. While the three mutations found in the isolated thrombocytopenia patients leave the reading frame intact, about one-half of the gene alterations detected in both severe and attenuated WAS patients result in frameshifted transcript and premature translation termination. These findings therefore confirm the association of WAS with WASP mutation and identify WASP mutation as a cause for isolated congenital thrombocytopenia in males. While the WASP gene defects responsible for isolated thrombocytopenia and other mild presentations of WAS do not appear distinct from those resulting in severe WAS, these data indicate that analysis of WASP gene mutation provides a valuable tool for distinguishing the spectrum of WAS patients and the subset of males with isolated thrombocytopenia who represent mild cases of WAS.
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PMID:Identification of WASP mutations in patients with Wiskott-Aldrich syndrome and isolated thrombocytopenia reveals allelic heterogeneity at the WAS locus. 852 98

The WASP gene has been recently cloned from Xp11.23 and shown to be mutated in three patients with the Wiskott-Aldrich syndrome (WAS). We have developed a screening protocol for identifying WASP gene alterations in genomic DNA and have identified a spectrum of novel mutations in 12 additional unrelated families. These missense, nonsense and frameshift mutations involve eight of the 12 exons of the gene. Two mutations creating premature termination codons were associated with lack of detectable mRNA on Northern blots. Four amino acid substitutions, Leu27Phe, Thr48Ile, Val75Met and Arg477Lys, were found in patients with congenital thrombocytopenia and no clinically evident immune defect indicating that the WASP gene is the site for mutations in X-linked thrombocytopenia as well as in WAS. A T-cell line from a WAS patient contained two independent DNA alterations, a constitutional frameshift mutation, also present in peripheral blood leukocytes from the patient, and compensatory splice site mutation unique to the cell line. The distribution of eight missense mutations provides valuable information on amino acids which are essential for normal protein function, and suggests that sites in the first two exons are hot-spots for mutation.
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PMID:WASP gene mutations in Wiskott-Aldrich syndrome and X-linked thrombocytopenia. 852 99

The Wiskott-Aldrich syndrome (WAS) is an X-linked recessive disorder originally described as a clinical triad of thrombocytopenia with small platelets, eczema, and immunodeficiency. Impaired CD43 glycoprotein expression on lymphocytes is a typical hallmark of this disorder. The CD43 gene is located on chromosome 16, and the WAS gene, WASP, was recently isolated from the chromosome X p11.22-p11.23. This gene, mutated in WAS patients, encodes a protein that is likely to play a role in controlling the expression of CD43. However, the molecular mechanism(s) causing WAS are not yet known. Herein, we describe a three-generation family in which clinical and laboratory WAS features were expressed in six of nine subjects available for study. At variance with classic X-linked WAS, this disorder was characterized by the presence of thrombocytopenia with a broad spectrum of platelet size, including giant platelets, and was inherited as an autosomal dominant trait. This last finding led us to hypothesize a mutation of the CD43 gene. However, Southern blot analysis failed to detect structural abnormalities of this gene, and genotype analysis ruled out the possibility that a CD43 allele might be shared by the affected individuals. These findings indicate that an alteration(s) of an autosomal gene distinct from the CD43 gene is responsible for the disease. Thus, results from this family, providing the first observation of an autosomally transmitted WAS variant, indicate that genetic mechanism(s) leading to WAS are more complex than previously recognized.
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PMID:Wiskott-Aldrich syndrome: report of an autosomal dominant variant. 863 21

The Wiskott-Aldrich syndrome (WAS) is an X-linked disorder characterized by thrombocytopenia, eczema, disorders in cell-mediated and humoral immunity, and a proclivity to lymphoproliferative disease. The gene responsible encodes a 53-kD proline-rich protein of unknown function (WASP). We produced a FLAG-WASP fusion protein that was used to immunize mice and produce mAbs against WASP. Using monoclonal anti-WASP in Western immunoblots, we have determined that WASP is present in the cytoplasmic but not nuclear fraction of normal human peripheral blood mononuclear cells, in normal human platelets, in T lymphocytes, non-T lymphocytes, and monocytes. The protein is produced in the B cell immunoblastic cell line DS-1, in normal EBV-transformed B cell lines, and in HEL92.1.7, but is barely detectable in MOLT-4 and not detectable in K562. WASP was present in two of four EBV-transformed cell lines from WAS patients. Splenic tissue immunostaining was performed in two patients, and the results correlated with the results of the Western blots. Sequence analysis of WASP cDNA from two patients who produce WASP show mutations causing amino acid substitutions. These studies establish a foundation for further studies aimed at understanding the function of WASP.
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PMID:Studies of the expression of the Wiskott-Aldrich syndrome protein. 864 31

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.
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PMID:Mutation spectrum in patients with Wiskott-Aldrich syndrome and X-linked thrombocytopenia: identification of twelve different mutations in the WASP gene. 874 75

The Wiskott-Aldrich syndrome (WAS) is a human X-linked immunodeficiency resulting from mutations in a gene (WASP) encoding a cytoplasmic protein implicated in regulating the actin cytoskeleton. To elucidate WASP function, we disrupted the WASP gene in mice by gene-targeted mutation. WASP-deficient mice showed apparently normal lymphocyte development, normal serum immunoglobulin levels, and the capacity to respond to both T-dependent and T-independent type II antigens. However, these mice did have decreased peripheral blood lymphocyte and platelet numbers and developed chronic colitis. Moreover, purified WASP-deficient T cells showed markedly impaired proliferation and antigen receptor cap formation in response to anti-CD3epsilon stimulation. Yet, purified WASP-deficient B cells showed normal responses to anti-Ig stimulation. We discuss the implications of our findings regarding WASP function in receptor signaling and cytoskeletal reorganization in T and B cells and compare the effects of WASP deficiency in mice and humans.
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PMID:Wiskott-Aldrich syndrome protein-deficient mice reveal a role for WASP in T but not B cell activation. 969 38

Wiskott-Aldrich syndrome (WAS) is an X-linked immunodeficiency disorder associated with lymphocytes and platelet abnormalities. The gene that encodes the Wiskott-Aldrich protein (WASP) was recently isolated, and shown to be defective in WAS patients. WASP contains multiple domains that interact with various signalling proteins, including the guanine triphosphatase (GTPase) Cdc42Hs and SH3 domain-containing proteins. Biochemical and genetic evidence strongly suggests that WASP is an important protein in the regulation of cell morphology. Recent progress in the identification of molecular partners for WASP suggests a molecular mechanism for the cellular abnormalities of WAS.
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PMID:Understanding the molecular basis of Wiskott-Aldrich syndrome. 981 92

The Wiskott-Aldrich syndrome (WAS) is an X-linked disorder characterized by immunodeficiency, eczema and thrombocytopenia. The gene responsible for WAS was identified through positional cloning, and the function of the encoded protein (WASP) is still the subject of much speculation. WASP is currently thought to be involved in the regulation of actin polymerization in hematopoietic cells. To study the elements that regulate the WASP gene, we have identified the sites for transcription initiation. We found that two promoters were responsible for controlling WASP expression. Multiple transcription initiation sites were found immediately adjacent to the translation start site, however an alternate exon with a second promoter region was identified 6 kb upstream. Examination of the 5' sequence adjacent to the initiation sites in both promoters failed to reveal a TATA or CCAAT box, but numerous putative transcription factor binding sites including Sp1, Ets, c-Myb and PU.1 were apparent. Reporter constructs generated from each promoter showed functional activity in the Jurkat T-cell and HEL erythro-megakaryocytic cell lines. Although the alternate exon sequence was extremely GC rich and contained several potential binding elements, the primary promoter was stronger than the upstream promoter in the cell lines assayed. The transcription factor binding site profiles within each promoter suggested that they may play different roles in regulating WASP expression depending on the stage of differentiation and development, and the cell lineage. In this study we have also reported the complete nucleotide sequence of the coding and intervening sequences for the WASP gene. A comprehensive knowledge of the genomic structure and the further characterization of WASP gene expression will facilitate the continued investigation of mutations in WAS patients, and the eventual prospect of gene therapy.
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PMID:The identification and characterization of two promoters and the complete genomic sequence for the Wiskott-Aldrich syndrome gene. 1006 31

The Wiskott-Aldrich Syndrome (WAS) is a rare X-linked primary immunodeficiency that is characterized by recurrent infections, hematopoietic malignancies, eczema, and thrombocytopenia. A variety of hematopoietic cells are affected by the genetic defect, including lymphocytes, neutrophils, monocytes, and platelets. Early studies noted both signaling and cytoskeletal abnormalities in lymphocytes from WAS patients. Following the identification of WASP, the gene mutated in patients with this syndrome, and the more generally expressed WASP homologue N-WASP, studies have demonstrated that WASP-family molecules associate with numerous signaling molecules known to alter the actin cytoskeleton. WASP/N-WASP may depolymerize actin directly and/or serve as an adaptor or scaffold for these signaling molecules in a complex cascade that regulates the cytoskeleton.
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PMID:The Wiskott-Aldrich syndrome protein (WASP): roles in signaling and cytoskeletal organization. 1035 77

The Wiskott-Aldrich syndrome (WAS) is a severe X-linked platelet/immunological disorder arising from mutations of the gene WASP. At the clinical level, the major platelet abnormalities are small size and low number, both partially correctable by splenectomy. To identify underlying pathological events, we examined WAS platelets at various stages of their lifetime. In spleen sections from WAS patients, fluorescence microscopy showed dramatic co-localization of markers of platelets (CD41) and macrophages (CD68) compared to non-thrombocytopenic controls, suggesting that WAS splenic macrophages are involved in platelet removal. Study of isolated WAS blood platelets by flow cytometry showed substantial enhancement of surface exposure of phosphatidylserine (PS), a signal for engulfment by macrophages. Isolated resting WAS platelets were also aberrantly susceptible to microparticle release, and plasma samples of WAS patients contained > 5 times normal numbers of platelet-derived microparticles which may explain the small size of circulating platelets. Measurements with the Ca2+ sensitive dye fluo-3 revealed significantly increased Ca2+ levels, 310 +/- 13 nmol/l for WAS platelets versus 106 +/- 12 nmol/l for normal platelets, and also prolongation of agonist-induced Ca2+ flux. Cumulatively, these studies identify abnormal events occurring in WAS platelets: increased Ca2+ levels and enhancement of two Ca2+ dependent processes, PS exposure and microparticle release; these abnormal events may contribute to the in vivo decrease of platelet number and reduction of platelet size in this disease.
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PMID:Pathological events in platelets of Wiskott-Aldrich syndrome patients. 1088 26


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