UMLS:C0021051 - FACTA Search

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Query: UMLS:C0021051 (immunodeficiency)
71,517 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The Wiskott-Aldrich syndrome (WAS) is an X-linked disease characterized by eczema, thrombocytopenia, and profound immunodeficiency in affected males. While the etiology of the syndrome is currently unknown, abnormalities of CD43 have been described as a biochemical marker of the disease. Several investigators have demonstrated alterations in the expression of the CD43 surface antigen on WAS hematopoietic cells, noting either absence, decreased levels or changes in the characteristic molecular weight of the protein on the lymphocytes of affected patients. Biochemical studies have further indicated that glycosylating activity of specific enzymes which may post-translationally modify CD43 is altered in both T cells and Epstein-Barr-virus (EBV)-transformed B cells in WAS patients when compared to unaffected controls. Here we present data on cells derived from two males with a clinical diagnosis of WAS. Analysis of genomic DNA from the mothers of each of these patients (obligate carriers) showed a nonrandom X-chromosome inactivation pattern of nucleated blood cells, confirming the diagnosis of the X-linked syndrome. CD43 was characterized on peripheral blood lymphocytes and long-term EBV-transformed B cell lines, both to further analyze the molecular defects of WAS, as well as to attempt to generate a reproducible method for disease detection. Surprisingly, surface expression, molecular weight and two-dimensional gel analysis failed to demonstrated any reproducible differences in the CD43 expression, whether from disease or normal lymphocytes. Such results suggest possible heterogeneity of this syndrome.
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PMID:CD43 is expressed normally on Wiskott-Aldrich-derived lymphocytes. 133 89

THE protein CD43 (also known as sialophorin, leukosialin, large sialoglycoprotein or gp115) is expressed on the surface of T lymphocytes, monocytes, neutrophils, platelets and some B lymphocytes. Expression of CD43 is deficient and/or defective in the X-chromosome-linked immunodeficiency disorder Wiscott-Aldrich syndrome, suggesting that CD43 might have a role in T-cell activation. We have shown that expression of human CD43 in an HLA-DR-specific murine T-cell hybridoma enhances the antigen-specific response to stimulation by the human lymphoblastoid cell line Daudi, and that Daudi cells bind specifically to purified immobilized CD43. These data indicate that the specific interaction of CD43 with a ligand on the surface of Daudi cells might contribute to T-cell activation. Here we report evidence that intercellular adhesion molecule-1 (ICAM-1, or CD54), is a ligand for CD43.
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PMID:CD43, a molecule defective in Wiskott-Aldrich syndrome, binds ICAM-1. 168 85

In the last fifteen years, therapeutic use of intravenous immunoglobulin on one hand, and of bone marrow transplantation on the other, have largely modified survival rate and prognosis for many primary immunodeficiency diseases. At the same time, major advances in molecular genetics have allowed mapping of several immunodeficiency genes and made prenatal diagnosis feasible. Furthermore, for many X-linked immunodeficiencies, carrier detection can be also accomplished by means of analysis of the pattern of X-chromosome inactivation. As a whole, these techniques have substantially contributed to a more accurate genetic counseling in the families.
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PMID:[Primary immunodeficiency 1991: new uses and prospects of genetic counseling]. 189 77

The gene for the Wiskott-Aldrich syndrome, an X-linked immunodeficiency disease, has been mapped between the RFLP markers DXS7 and DXS14 on the short arm of the X-chromosome. Close linkage to these markers permits accurate carrier detection and prenatal diagnosis. In one family with WAS patients in two generations, RFLP analysis was applied to three women at risk. It could be determined with more than 98.5% accuracy that these women were not carriers.
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PMID:[Genetic carrier detection for the Wiskott-Aldrich syndrome using restriction fragment length polymorphism analysis]. 197 11

Human leukosialin is among the most abundant sialoglycoproteins found on the surface of cells of the lympho-hematopoietic system. Leukosialin, also known as sialophorin, is involved in T cell proliferation, and its molecular isoform changes upon cellular activation. We show that human leukosialin is identical to the antigens described by the monoclonal antibodies (mAb) G10-2, G19-1 (CD43) and B1B6 (large sialoglycoprotein). This identity was suggested by immunoblot analysis of transformed cell lysates. Further, fibroblasts transfected with the human leukosialin cDNA gain reactivity to these mAb, showing conclusively that molecules recognized by these mAb are determined by the same cDNA. Expression of the leukosialin gene is readily detected on the surface of transfected human and mouse fibroblasts. Immunoblot analysis of the transfectants indicates that processing of the human protein occurs in both species. Alterations of leukosialin expression have been reported in patients with the Wiskott-Aldrich Syndrome (WAS), an X-chromosome-linked immunodeficiency disease. While essentially all of the transfected tumor and primary fibroblasts from normal individuals express the transfected gene on the cell surface, only half of the transfected Wiskott-Aldrich fibroblasts express CD43. Nonetheless, the antigenic pattern by immunoblot analysis of both normal and WAS-transfected fibroblasts appears identical. These results indicate that WAS-derived cells can express leukosialin and that the product of WAS X-chromosome mutation may not be expressed in fibroblasts.
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PMID:CD43 (leukosialin, sialophorin, large sialoglycoprotein) can be expressed in both normal and Wiskott-Aldrich fibroblasts via transfection of a leukosialin cDNA. 214 24

Carrier detection of three of the X-linked primary immunodeficiency diseases (X-linked agammaglobulinemia, X-linked severe combined immunodeficiency disease, and the Wiskott-Aldrich syndrome) is possible by analyzing patterns of X-chromosome inactivation in those cells affected by the disorder. Normal women have balanced patterns of X-chromosome inactivation; that is, in a given population of cells, approximately half of their active X chromosomes are of paternal origin and half of their active X chromosomes are of maternal origin. In contrast, female carriers of these X-linked immunodeficiency disorders have an unbalanced pattern of X-chromosome inactivation in those cell lineages that are affected by the disorder; that is, all the active X chromosomes in affected cell lineages are the X chromosomes that carry the normal allele. Two techniques are available for X-chromosome inactivation analysis. One technique depends on methylation differences between the active and inactive X chromosome, and the other technique uses somatic cell hybrids that selectively retain the active X chromosome. In either case, carrier detection can be performed in individuals from families in which only one member of the family has been affected, since neither of these methods depends on linkage analysis.
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PMID:Carrier detection of the X-linked primary immunodeficiency diseases using X-chromosome inactivation analysis. 219 94

Recently developed techniques for the direct analysis of DNA have made possible the determination of patterns of cellular X-chromosome inactivation. These techniques provide a potential method for carrier detection for several X-linked human disorders in which obligate carriers show nonrandom X inactivation. By using restriction fragment length polymorphic (RFLP) gene-specific probes in conjunction with methylation-sensitive enzymes, we have characterized the patterns of X-chromosome inactivation in cell subsets from females belonging to 10 kindreds segregating for the X-linked immune deficiency disorder Wiskott-Aldrich syndrome (WAS). We show that selective inactivation of the X chromosome distinguishes obligate WAS carriers from noncarrier females and constitutes a valuable marker of the WAS carrier state. Selective inactivation phenomena were observed in the monocytes and T and B lymphocytes of obligate carriers, implying that the WAS gene defect is expressed in each of these cellular lineages. In conjunction with the use of linked DNA markers, RFLP-methylation analysis should render carrier detection feasible for the majority of females from WAS families. The results of such analyses also provide an initial step toward identifying the cellular level and molecular basis for WAS.
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PMID:X-chromosome inactivation in the Wiskott-Aldrich syndrome: a marker for detection of the carrier state and identification of cell lineages expressing the gene defect. 256 52

Nonionic block polymer surfactants (NBPs) were tested for the capacity to stimulate the antibody response against hexasaccharide (HS), derived from Streptococcus pneumoniae type 3 capsular polysaccharide (S3PS), which was conjugated to proteins. The immune response was evaluated in the (CBA/N x BALB/c)F1 progeny, in which female mice are phenotypically normal whereas male mice carry an X-chromosome-linked immunodeficiency. NBPs L101, L121, 1101, and 1501 were able to increase anti-HS immunoglobulin M (IgM) and IgG levels in both normal and X-chromosome-linked immunodeficient mice (with up to 74-fold stimulation of antibody titers). Distribution of S3PS-specific antibodies over the various IgG isotypes was restricted after immunization with either HS-bovine serum albumin or HS-keyhole limpet hemocyanin (HS-KLH). Addition of NBPs (in particular 1501) resulted in a more diverse immune response with either antigen as judged by isotype distribution. Isoelectric focusing of individual sera and subsequent detection of S3PS-binding antibodies in these sera by immunochemical staining revealed a restricted number of different spectrotypes in the course of the immune response. Upon immunization of mice with HS-KLH, spectra of secreted antibodies were slightly more complex and more densely stained than after immunization with HS-bovine serum albumin. Furthermore, NBPs 1101 and 1501 appeared to be able to stimulate the secretion of antibodies, which were secreted only in small amounts without the use of NBPs. Different explanations for increased spectrotype diversity after immunization with KLH as the carrier and after administration of NBPs as the adjuvant are discussed.
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PMID:Nonionic block polymer surfactants modulate the humoral immune response against Streptococcus pneumoniae-derived hexasaccharide-protein conjugates. 275 7

Non-ionic block polymers (NBPs) have proved to be potent adjuvants for the humoral immune response against liposomes haptenated with tripeptide-enlarged dinitrophenyl groups (hapten J). Since both reversed triblocks and normal octablocks displayed adjuvant activity, reversed octablocks, in which structural properties of both groups are combined, were also tested for their adjuvant activity. The latter compounds displayed very strong adjuvant activity for J-haptenated liposomes, not only in normal BALB/c but also in (CBA/N x BALB/c)F1 progeny. To test the applicability of NBPs as adjuvants in semi-synthetic vaccines, the capacity of NBPs to stimulate the immune response against liposomes haptenated with Streptococcus pneumoniae type 3 capsular polysaccharide-derived oligosaccharides was analysed. In these studies, again NBPs proved potent adjuvants, stimulating antibody production to a large extent. In male (CBA/N x BALB/c)F1 mice, which carry a X-chromosome-linked immunodeficiency (Xid), antibody levels were stimulated to the largest extent by a normal octablock. Stimulation of antibody titres, however, did not result in increased protection in these Xid mice.
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PMID:Stimulation of liposome-induced humoral immune responses by non-ionic block polymer surfactants in Xid mice. 305 25

The Wiskott-Aldrich syndrome (WAS) is an X-linked recessive disease characterized by immunodeficiency and severe thrombocytopenia in affected males, but no demonstrable clinical abnormalities in carrier females. Through analysis of the methylation patterns of X-linked genes that display restriction fragment length polymorphisms (RFLPs), we studied the pattern of X-chromosome inactivation in various cell populations from female relatives of patients with WAS. The peripheral blood T cells, granulocytes, and B cells of eight obligate WAS carriers were found to display specific patterns of X-chromosome inactivation clearly different from these of normal controls. Thus, carriers of WAS could be accurately identified using this analysis.
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PMID:Carrier detection in the Wiskott Aldrich syndrome. 326 54

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