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)

X-linked lymphoproliferative disease (XLP) is a rare inherited immunodeficiency to Epstein-Barr virus (EBV). The gene responsible for XLP has recently been identified as the four-exon SH2D1A gene encoding a 128-amino-acid protein that contains an SH2-domain. Functional studies indicate the SH2D1A protein acts as a regulator of at least two signal transduction pathways initiated by the cell surface molecules SLAM and 2B4, respectively, and possibly related to the host immune response to EBV infection. We have carried out a systematic mutation study of the SH2D1A gene in our series of 19 typical and 8 atypical XLP patients by polymerase chain reaction (PCR), reverse transcription/PCR, and sequencing, and have reconstructed the haplotypes of the patients. Four out of the 13 mutations detected are previously unreported. The identification of SH2D1A mutations in carriers from all three XLP families screened and the detection of mutations in two out of eight atypical patients indicates the usefulness of a DNA-based diagnosis for XLP disease.
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PMID:SH2D1A mutation analysis for diagnosis of XLP in typical and atypical patients. 1059 19

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 disease (XLP) is an inherited immunodeficiency, involving primarily T and natural killer (NK) cells, which in the majority of cases exacerbates following exposure to Epstein-Barr virus (EBV). Prior to EBV infection, most boys with the defective XLP gene appear to be clinically healthy EBV infection in males with the defective XLP gene leads to three main phenotypes: severe and mostly fatal infectious mononucleosis (58%), lymphoproliferative disorders mostly of B-cell origin (30%) and/or dysgammaglobulinemia (31%). Later in life, dysgammaglobulinemia and malignant lymphoma may also develop in about 53% and 56% of EBV-negative XLP males, respectively This fact suggests that EBV may only act as a potent trigger of the earliest and most serious clinical phenotype of XLP, i.e. fatal infectious mononucleosis. XLP has an unfavorable prognosis. Successful transplanta tion of hematopoietic stem cells can cure this immunodeficiency In the future, gene therapy may eventually become an additional option to prevent XLP. The gene responsible for XLP, SH2-domain containing gene 1A (SH2D1A) has recently been identified and sequenced. SH2D1A encodes a polypeptide of 128 amino acids containing a single SH2 domain. Until now, 45 different SH2D1A gene mutations have been identified in patients with XLP SH2D1A is thought to play an important role in signal transduction in T and NK cells. In vitro, SH2D1A has been shown to interact as an adaptor protein with the signaling pathways through SLAM, a T-cell co-stimulatory molecule, and 2B4, an NK-cell-activating receptor. Further functional studies of the SH2D1A protein will probably provide new insights into the pathogenesis of severe infectious mononucleosis, malignant lymphomas and immunodeficiency in patients with XLP.
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PMID:X-linked lymphoproliferative disease is caused by deficiency of a novel SH2 domain-containing signal transduction adaptor protein. 1121 3

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

X-linked lymphoproliferative disease (XLP) is a primary immunodeficiency characterized by extreme susceptibility to Epstein-Barr virus. The XLP disease gene product SH2D1A (SAP) interacts via its SH2 domain with a motif (TIYXXV) present in the cytoplasmic tail of the cell-surface receptors CD150/SLAM, CD84, CD229/Ly-9, and CD244/2B4. Characteristically, the SH2D1A three-pronged interaction with Tyr(281) of CD150 can occur in absence of phosphorylation. Here we analyze the effect of SH2D1A protein missense mutations identified in 10 XLP families. Two sets of mutants were found: (i) mutants with a marked decreased protein half-life (e.g. Y7C, S28R, Q99P, P101L, V102G, and X129R) and (ii) mutants with structural changes that differently affect the interaction with the four receptors. In the second group, mutations that disrupt the interaction between the SH2D1A hydrophobic cleft and Val +3 of its binding motif (e.g. T68I) and mutations that interfere with the SH2D1A phosphotyrosine-binding pocket (e.g. C42W) abrogated SH2D1A binding to all four receptors. Surprisingly, a mutation in SH2D1A able to interfere with Thr -2 of the CD150 binding motif (mutant T53I) severely impaired non-phosphotyrosine interactions while preserving unaffected the binding of SH2D1A to phosphorylated CD150. Mutant T53I, however, did not bind to CD229 and CD224, suggesting that SH2D1A controls several critical signaling pathways in T and natural killer cells. Because no correlation is present between identified types of mutations and XLP patient clinical presentation, additional unidentified genetic or environmental factors must play a strong role in XLP disease manifestations.
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PMID:Characterization of SH2D1A missense mutations identified in X-linked lymphoproliferative disease patients. 1147 68

The T and natural killer (NK) cell-specific gene SAP (SH2D1A) encodes a 'free SH2 domain' that binds a specific tyrosine motif in the cytoplasmic tail of SLAM (CD150) and related cell surface proteins. Mutations in SH2D1A cause the X-linked lymphoproliferative disease, a primary immunodeficiency. Here we report that a second gene encoding a free SH2 domain, EAT-2, is expressed in macrophages and B lympho cytes. The EAT-2 structure in complex with a phosphotyrosine peptide containing a sequence motif with Tyr281 of the cytoplasmic tail of CD150 is very similar to the structure of SH2D1A complexed with the same peptide. This explains the high affinity of EAT-2 for the pTyr motif in the cytoplasmic tail of CD150 but, unlike SH2D1A, EAT-2 does not bind to non-phosphorylated CD150. EAT-2 binds to the phosphorylated receptors CD84, CD150, CD229 and CD244, and acts as a natural inhibitor, which interferes with the recruitment of the tyrosine phosphatase SHP-2. We conclude that EAT-2 plays a role in controlling signal transduction through at least four receptors expressed on the surface of professional antigen-presenting cells.
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PMID:Structural basis for the interaction of the free SH2 domain EAT-2 with SLAM receptors in hematopoietic cells. 1168 25

The SH2 domain containing SH2D1A protein has been characterized in relation to the X-linked lymphoproliferative disease (XLP), a primary immunodeficiency that leads to serious clinical conditions after Epstein-Barr virus (EBV) infection. The SH2D1A gene is mutated in the majority of XLP patients. We previously detected SH2D1A in activated T and NK cells, but not in B lymphocytes. We have found SH2D1A protein in Burkitt lymphoma (BL) lines, but only in those that carried EBV and had a Group I (germinal center) phenotype. All the EBV-carrying Group III (immunoblastic) and the EBV-negative BL lines tested were SH2D1A-negative. Motivated by these differences, we studied the impact of EBV and the cellular phenotype on SH2D1A expression. We approached the former question with BL sublines after both the loss of the virus and subsequent reinfection. We also tested original EBV-negative BL lines carrying transfected EBV genes, such as EBNA1, EBNA2, EBNA6, EBER1, 2 and LMP1, respectively. In our experiments, no direct relationship could be seen between EBV and SH2D1A expression. We modified the phenotype of the Group I BL cells by LMP1 transfection or CD40 ligation. The phenotypic changes, indicated by expression of immunoblastic markers, e.g., SLAM, were accompanied by downregulation of SH2D1A. It seems, therefore, that the presence of EBV and the phenotype of the cell together regulate SH2D1A expression in the BL cells. It is possible that SH2D1A is expressed in a narrow window of B cell development represented by germinal center cells.
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PMID:SH2D1A expression in Burkitt lymphoma cells is restricted to EBV positive group I lines and is downregulated in parallel with immunoblastic transformation. 1211 26

Mutations in SH2D1A, a gene that codifies for the regulatory protein SAP, result in uncontrolled activation of the SLAM (signaling lymphocyte-activation molecule) pathway. This X-linked immunodeficiency becomes evident when the patients are infected with Epstein Barr virus (EBV) and develop a fulminant form of infectious mononucleosis leading to a lymphoproliferative syndrome that is often fatal (X-linked lymphoproliferative syndrome, XLP). In those who survive, hypogammaglobulinemia and oncohematologic diseases are frequently observed. In this revision, the immuno-regulatory mechanisms involved in XLP immunopathology and the role of different effector cells (CD8 T lymphocytes, NK cells) are discussed.
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PMID:[X-linked lymphoproliferative syndrome, EBV virus infection and defects in cytotoxicity lymphocyte regulation]. 1267 66

Deficiency of SAP (SLAM (signaling lymphocyte activation molecule)-associated protein) protein is associated with a severe immunodeficiency, the X-linked lymphoproliferative disease (XLP) characterized by an inappropriate immune reaction against Epstein-Barr virus infection often resulting in a fatal clinical course. Several studies demonstrated altered NK and T cell function in XLP patients; however, the mechanisms underlying XLP disease are still largely unknown. Here, we show that non-transformed T cell lines obtained from XLP patients were defective in several activation events such as IL-2 production, CD25 expression, and homotypic cell aggregation when cells were stimulated via T cell antigen receptor (TCR).CD3 but not when early TCR-dependent events were bypassed by stimulation with phorbol 12-myristate 13-acetate/ionomycin. Analysis of proximal T cell signaling revealed imbalanced TCR.CD3-induced signaling in SAP-deficient T cells. Although phospholipase C gamma 1 phosphorylation and calcium response were both enhanced in T cells from XLP patients, phosphorylation of VAV and downstream signal transduction events such as mitogen-activated protein kinase phosphorylation and IL-2 production were diminished. Importantly, reconstitution of SAP expression by retroviral-mediated gene transfer completely restored abnormal signaling events in T cell lines derived from XLP patients. In conclusion, SAP mutation or deletion in XLP patients causes profound defects in T cell activation, resulting in immune deficiency. Moreover, these data provide evidence that SAP functions as an essential integrator in early TCR signal transduction.
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PMID:SLAM-associated protein deficiency causes imbalanced early signal transduction and blocks downstream activation in T cells from X-linked lymphoproliferative disease patients. 1276 68

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