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

The CD2-subset of the immunoglobulin superfamily of cell surface receptors is an emerging family of proteins involved in cellular activation. Members of this family are CD2, CD48, CD58, CD84, signaling lymphocytic activation molecule (SLAM), 2B4 and Ly-9. These proteins are expressed on different leukocyte populations and the receptors of this family, specifically CD2, 2B4 and SLAM, contribute to the activation of T cells and natural killer cells. 2B4 and SLAM associate with a protein termed SLAM-associated protein that is the genetic defect in the immunodeficiency X-linked lymphoproliferative syndrome. Impaired signaling via these receptors may contribute to this often-fatal immunodeficiency.
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PMID:The CD2-subset of the Ig superfamily of cell surface molecules: receptor-ligand pairs expressed by NK cells and other immune cells. 1076 23

Tables 1 and 2 highlight the enormous advances that have been made in the definition of the molecular defects underlying primary immunodeficiencies in the past decade. The identification of SAP as the gene defective in XLP now completes the molecular bases of all the recognised X linked syndromes. Of the autosomally inherited syndromes, only the genes for DiGeorge syndrome, hyper-IgE, and perhaps most importantly, common variable immunodeficiency remain to be elucidated. The major clinical benefits of this information have primarily been in offering more accurate and rapid molecular diagnoses. The ability to make a molecular diagnosis also increases the options for earlier definitive treatments such as bone marrow transplantation and somatic gene therapy. Finally, as illustrated by the studies on the functions of WASP and the gamma c/JAK-3 pathway, identification of the gene defect is the first step to understanding the molecular pathogenesis of the immunological abnormalities.
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PMID:Immunogenetics: changing the face of immunodeficiency. 1076 59

The X-linked lymphoproliferative disease (XLP) is an inherited immunodeficiency characterized by an abnormal responses to infection with Epstein-Barr virus (EBV), resulting in fatal infectious mononucleosis, hypogammaglobulinemia, virus-associated hemophagocytic syndrome, and malignant lymphoma. Mutations in the gene coding for a T cell-specific SLAM-associated protein (SAP) have been recently identified in XLP patients. We report on a 1-year-old boy representing fulminant hemophagocytic syndrome. He developed high fever, lymphadenopathy, hepatosplenomegaly with liver dysfunction, and pancytopenia with marrow hemophagocytosis. EBV DNA was abnormally increased in the blood. Polymerase chain reaction failed to amplify SAP mRNA and genomic DNA products from the patient' As peripheral blood. A large deletion of the SAP gene was confirmed by fluorescence in situ hybridization (FISH). FISH analysis also disclosed that the patient's mother was a carrier. We conclude that FISH can be useful in the diagnosis of XLP with large deletions of the SAP gene and its carrier state.
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PMID:Large deletion of the X-linked lymphoproliferative disease gene detected by fluorescence in situ hybridization. 1081 94

X-linked lymphoproliferative disease (XLP) is an inherited immunodeficiency in which affected boys show abnormal responses to Epstein-Barr virus infection. The gene defective in XLP has been identified and designated SH2D1A and encodes a protein termed SLAM-associated protein (SAP). Mutation analysis in individuals with typical XLP presentations and family histories has only detected abnormalities in approximately 60% of patients. Thus, genetic analysis alone cannot confirm a diagnosis of XLP We have developed a SAP expression assay that can be used as a diagnostic indicator of XLP We show that SAP is constitutively expressed in normal individuals, in patients with severe sepsis and in patients with other primary immunodeficiencies. In six XLP patients, four with classical and two with atypical presentations, SAP expression was absent. In the latter two, who were previously assigned as having common variable immunodeficiency (CVID), the diagnosis of XLP was initially made using the protein expression assay. In two further patients in whom no mutation could be detected by genetic analysis, lack of SAP expression strongly suggests that these individuals have XLP. We therefore suggest that XLP should be suspected in certain boys previously diagnosed as having CVID and recommend that patients are investigated both by genetic analysis of SH2D1A and by expression of SAP protein.
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PMID:Diagnosis of X-linked lymphoproliferative disease by analysis of SLAM-associated protein expression. 1089 6

X-linked lymphoproliferative syndrome (XLP) is an immunodeficiency characterized by life-threatening infectious mononucleosis and EBV-induced B cell lymphoma. The gene mutated in XLP encodes SLAM (signaling lymphocytic activation molecule-associated protein)-associated protein (SAP), a small SH2 domain-containing protein. SAP associates with 2B4 and SLAM, activating receptors expressed by NK and T cells, and prevents recruitment of SH2 domain-containing protein tyrosine phosphatase-2 SHP-2) to the cytoplasmic domains of these receptors. The phenotype of XLP may therefore result from perturbed signaling through SAP-associating receptors. We have addressed the functional consequence of SAP deficiency on 2B4-mediated NK cell activation. Ligating 2B4 on normal human NK cells with anti-2B4 mAb or interaction with transfectants bearing the 2B4 ligand CD48 induced NK cell cytotoxicity. In contrast, ligation of 2B4 on NK cells from a SAP-deficient XLP patient failed to initiate cytotoxicity. Despite this, CD2 or CD16-induced cytotoxicity of SAP-deficient NK cells was similar to that of normal NK cells. Thus, selective impairment of 2B4-mediated NK cell activation may contribute to the immunopathology of XLP.
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PMID:Functional requirement for SAP in 2B4-mediated activation of human natural killer cells as revealed by the X-linked lymphoproliferative syndrome. 1097 98

X-linked lymphoproliferative syndrome (XLP, also known as Duncan's disease) is characterised by an extreme sensitivity to Epstein Barr virus (EBV), resulting in a complex phenotype manifested by severe or fatal mononucleosis, acquired hyogammaglobulinemia and malignant lymphoma. The gene responsible for XLP has recently been identified by a positional cloning and a functional cloning approach and encodes a small cytoplasmic protein involved in signal transduction of T and NK cells. The identification of the XLP gene will permit direct diagnosis of XLP in families with a single affected male. Recent progress in immunobiology and genetics of this primary immunodeficiency disease are presented.
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PMID:[X-linked lymphoproliferative syndrome (XLP syndrome): from clinic to gene]. 1110 49

Primary immunodeficiencies comprise a broad group of disorders due to germline mutations in genes regulating lymphocyte development and function. One of these genes, DSHP (also known as SH2D1A, SAP), is mutated in X-linked lymphoproliferative syndrome (XLP), an inherited immunodeficiency characterized by increased susceptibility to primary Epstein-Barr virus (EBV) infection, hypogammaglobulinenia, and lymphoma. Expressed primarily in T and NK cells, DSHP consists of a single SH2 domain and short carboxyl-terminal tail. The presence of a single SH2 domain, without other functional motifs, suggests that DSHP may be a physiologic competitor of other SH2 domain-containing proteins whose binding to phosphotyrosine controls lymphocyte activation and/or function. DSHP binds to the cytoplasmic domains of CDw150 (Signaling Lymphocyte Activation Molecule, SLAM) and 2B4, and may regulate signals transmitted by these receptors in T and NK cells, respectively. Unlike other SH2 domain-containing proteins, DSHP associates with both phosphorylated and non-phosphorylated tyrosine residues, and crystallography studies have revealed novel properties of the DSHP SH2 domain. Future studies exploring the function of DSHP during lymphocyte proliferation and activation should improve our ability to diagnose and treat XLP and possibly other human diseases associated with EBV.
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PMID:X-linked lymphoproliferative disease: genetics and biochemistry. 1125 22

X-linked lymphoproliferative syndrome (XLP; Duncan's disease) is a primary immunodeficiency disease that manifests as an inability to regulate the immune response to Epstein-Barr virus (EBV) infection. Here we examine the ability of the product of the gene defective in XLP, SAP (DSHP/SH2D1A), to associate with the cytoplasmic domains of several members of the CD2 subfamily of cell surface receptors, including SLAM, 2B4, and CD84. While recruitment of SAP to SLAM occurred in a phosphorylation-independent manner, SAP was found to bind preferentially to tyrosine-phosphorylated cytoplasmic domains within 2B4 and CD84. Missense or nonsense mutations in the SAP open reading frame were identified in five of seven clinically diagnosed XLP patients from different kindreds. Four of these variants retained the ability to bind to the cytoplasmic tails of SLAM and CD84. While ectopic expression of wild-type SAP was observed to block the binding of SHP-2 to SLAM, mutant SAP derivatives that retained the ability to bind SLAM did not inhibit recruitment of SHP-2 to SLAM. In contrast, SAP binding to CD84 had no effect on the ability of CD84 to recruit SHP-2, but instead displaced SHP-1 from the cytoplasmic tail of CD84. These results suggest that mutations in the gene encoding the XLP protein SAP lead to functional defects in the protein that include receptor binding and SHP-1 and SHP-2 displacement and that SAP utilizes different mechanisms to regulate signaling through the CD2 family of receptors.
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PMID:Distinct interactions of the X-linked lymphoproliferative syndrome gene product SAP with cytoplasmic domains of members of the CD2 receptor family. 1141 39

Griscelli syndrome is characterized by partial albinism with variable immunodeficiency. Two different gene loci are responsible for this rare, autosomal recessive disease: the myosin Va gene and the RAB27A gene. As recently reported, only patients with mutations of the RAB27A gene suffer from immunodeficiency and hemophagocytic lymphohistiocytosis. Thus, only patients who suffer from the Griscelli syndrome with mutations of the RAB27A gene should receive BMT/PBSCT, which is the only curative therapy. Due to the risk of early relapse or severe infections, BMT/PBSCT should be carried out as soon as possible; if patients do not have HLA-identical family members, valuable time may be lost by searching for an HLA-identical unrelated donor. We report the first peripheral blood stem cell transplant (PBSCT) with T cell depletion in a 6-month-old girl with Griscelli syndrome, and a deletion of the RAB27A gene. The donor was her phenotypically HLA-identical mother. Conditioning included busulfan, VP16 and cyclophosphamide. The patient was transfused with 15.4 x 10(6)CD34-positive cells/kg and 17.6 x 10(3) CD3-positive cells/kg recipient weight. Three months after the transplant, a curable lymphoproliferative syndrome occurred. 26 months after the transplant, the patient is doing well with stable mixed chimerism (52% donor cells).
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PMID:Griscelli syndrome: report of the first peripheral blood stem cell transplant and the role of mutations in the RAB27A gene as an indication for BMT. 1157 16

X-linked lymphoproliferative disease (XLP) is an inherited immunodeficiency characterized by extreme vulnerability to Epstein-Barr virus (EBV) infection, resulting in fatal infectious mononucleosis, dysgammaglobulinemia and malignant lymphoma. Recently, mutations in the SH2D1A gene, which encodes SLAM-associated protein (SAP), have been found to cause XLP. Although the molecular events behind XLP are largely unknown, there is evidence that affected males exhibited some immunohematological abnormalities, such as hypogammaglobulinemia or lymphoma, even prior to EBV infection. Because of the poor prognosis in XLP, an early diagnosis to patients and families is clinically of great importance. A glutathione-S-transferase-SAP fusion protein was used to immunize rats and generate mAb against human SAP to investigate its pathogenic role in XLP and develop a flow cytometric assay for detection of XLP. By flow cytometric and Western immunoblot analyses using an established anti-SAP mAb, termed KST-3, we determined that SAP was expressed intensely in thymocytes, but at lower levels in peripheral T cells and NK cells. In contrast, expression of SAP was negligible in B cells, monocytes or granulocytes. We found that SAP expression in T cells increased upon in vivo as well as in vitro activation. In two XLP survivors with SH2D1A mutations, a flow cytometric evaluation of activated T cells using KST-3 could demonstrate SAP deficiency as a diagnostic indicator of XLP. Through this approach, we identified three novel XLP families with SH2D1A mutations in Japan. A flow cytometric assessment of SAP expressed in activated T cells would lead to easy detection of XLP patients.
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PMID:Activation-dependent T cell expression of the X-linked lymphoproliferative disease gene product SLAM-associated protein and its assessment for patient detection. 1235 86

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