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)

Patients with B-cell chronic lymphocytic leukemia (CLL) acquire an immunodeficiency with many characteristics similar to those of persons with inherited defects in the gene encoding the CD40-ligand (CD154). We found that the blood and splenic CD4+ T cells of patients with CLL failed to express surface CD154 after CD3 ligation. However, using an enzyme-linked immunosorbent assay (ELISA)-based quantitative competitive polymerase chain reaction (PCR), we noted that CD3 ligation could induce such T cells to express CD154 messenger RNA at levels similar to that of CD3-activated T cells from normal donors. Moreover, addition of increasing numbers of CLL B cells to activated normal donor T cells rapidly resulted in progressively greater down-modulation of CD154. Such down-modulation of CD154 could be blocked by addition of CD40 monoclonal antibody to cultures in vitro. We propose that leukemia cell-mediated down-modulation of CD154 on activated T cells accounts for some of the acquired immune defects of patients with CLL.
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PMID:Acquired CD40-ligand deficiency in chronic lymphocytic leukemia. 928 24

The molecular basis for X-linked agammaglobulinemia, hyper-IgM syndrome, and severe combined immunodeficiency was recently identified. In X-linked agammaglobulinemia the molecular defect was found to reside in the gene encoding a novel cytoplasmic tyrosine kinase (bpk, atk, or btk) expressed by B and myeloid cells. This kinase belongs to a new subfamily of tyrosine kinases that contains SH1, SH2, and SH3 domains. A defect in the murine homologue of this kinase has been shown to be responsible for X-linked immunodeficiency in mice. Currently, the role of btk in B- and myeloid cell signaling is unknown. The molecular defect in X-linked hyper-IgM syndrome has been shown to reside in the gene encoding the T-cell activation protein gp39 (CD40L, TRAP). This protein binds to its counter receptor, CD40, on B cells and has been shown to participate in T-cell-dependent B-cell help leading to B-cell proliferation and isotype switching. X-linked severe combined immunodeficiency patients were found to have defects in the gene encoding the gamma-chain of the interleukin-2 receptor. This chain of the interleukin-2 receptor is constitutively expressed by T cells and is involved in the formation of high and intermediate affinity interleukin-2 receptor complexes. These two interleukin-2 receptor complexes are responsible for mediating interleukin-2-dependent signals.
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PMID:The molecular basis of X-linked agammaglobulinemia, hyper-IgM syndrome, and severe combined immunodeficiency in humans. 937 Dec 54

In genetically susceptible C57BL/6 mice the LP-BM5 isolate of murine retroviruses causes profound splenomegaly, lymphadenopathy, hypergammaglobulinemia, and an immunodeficiency syndrome bearing many similarities to the pathologies seen in AIDS. Because of these similarities, which also include terminal B cell lymphoma formation, this syndrome has been called murine AIDS or MAIDS. Prompted by previous reports showing that the onset of MAIDS is dependent on the presence of both CD4+ T and B cells, we have previously shown that anti-gp39/CD40 ligand mAb (anti-CD40L mAb) treatment of LP-BM5-infected mice is effective in inhibiting the induction of MAIDS when a short course of anti-CD40L mAb treatment was started on the same day as LP-BM5 administration. The success of anti-CD40L mAb therapy, as indicated by a much reduced degree of splenomegaly, hypergammaglobulinemia, and mitogen and allogeneic CTL unresponsiveness, demonstrated that CD40L/CD40 interactions were critical to the establishment of MAIDS. Here we extend these findings through the use of delayed anti-CD40L mAb treatment of mice, beginning 3-4 weeks after LP-BM5 infection, by showing that interruption of CD40L/CD40 interactions also interferes with the progression of MAIDS. About 60% of LP-BM5-preinfected mice were affected by delayed anti-CD40L mAb treatment, with substantially reduced spleen weights and serum hypergammaglobulinemia and normal or greatly restored proliferative responses to Con A stimulation and CTL responses to allogeneic stimulation. The other LP-BM5-infected mice that did not respond to anti-CD40L therapy were found to have made antibodies to the anti-CD40L mAb. Thus, in a majority of mice anti-CD40L mAb therapy was very effective in interfering with MAIDS pathogenesis well after the establishment of the virus infection and MAIDS symptomatology, indicating that CD40L/CD40 interactions are crucial to the maintenance and progression of the disease, as well as its initiation.
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PMID:Evidence for a continued requirement for CD40/CD40 ligand (CD154) interactions in the progression of LP-BM5 retrovirus-induced murine AIDS. 949

The cell surface molecule CD40 is a member of the tumor necrosis factor receptor (TNFR) family and plays a pivotal role in the immune system due in part to its wide tissue distribution. Early studies focused on CD40 in B cell biology, but recent work demonstrates a broader role for CD40 in the immune system contributing to cell-mediated as well as humoral immune responses. Disruption of CD40 and its ligand, CD154 leads to immunodeficiency as in the case of hyper IgM syndrome. Likewise, blockade of CD40-CD154 interactions can be exploited to control misguided autoimmune responses. This article provides a brief overview of CD40 with a focus on its involvement in disease and its usefulness as a therapeutic target.
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PMID:CD40 and its crucial role as a member of the TNFR family. 982 76

Over the past year, progress has been made in understanding of the physiology and disease associations of CD5+ (B1) B cells, although their exact role in pathogenesis remains unclear. Earlier studies on the negative function of CD5 within the B-cell receptor complex have been substantiated, and it seems likely that soon the signaling pathways used by this coreceptor will be elucidated. Progress in diagnosis, physiology, and etiopathogenesis of CD5+ malignancies has been made, particularly in B-cell chronic lymphocytic leukemia. The low-level expression of surface immunoglobulin has been explained by the mutations that occur in the associated CD79b. Two new potential tumor-suppressor genes have been identified in the hot spot of chromosome 13q, which provides an exciting step forward in understanding of the etiopathogenesis of some B-cell chronic lymphocytic leukemia. Activated signal transducers for activation of transcription factors molecules have been shown to be phosphorylated on different amino acids in B1 and chronic lymphocytic leukemia tumors, although the significance of this is, as yet, unclear. Finally, aberrant expression of CD40L by chronic lymphocytic leukemia T cells may contribute to the immunodeficiency that develops in these patients.
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PMID:CD5 B cells and B-cell malignancies. 991 51

Cell-to-cell signals between T lymphocytes and antigen-presenting cells strictly regulate the development of the immune response. It has clearly emerged that among these signals few cell surface receptor-ligand pairs, such as CD40 and its ligand, CD154, are mandatory for the induction of lymphocyte activation. The early observation that mutations of CD154 gene are responsible for a human severe immunodeficiency primed an impressive number of studies aimed to functionally characterize this receptorial system in view of therapeutically exploiting its properties. Indeed, various approaches aimed to disrupt natural CD40-CD154 interaction were highly effective in the prevention and treatment of several experimental models of autoimmune disease and transplant rejection. In parallel, abnormalities of this pathway were constantly found in several immunologically-mediated human diseases. Furthermore, a number of studies have dissected the role of CD40 and its ligand in the immune response against various microbial and viral pathogens. Since these molecules are often expressed by tumor cells, it is not surprising that great efforts have been made to address their function also in the development of cancer. Most recent data strongly suggest an involvement of endothelial CD40 in the vascular processes that lead to atherogenesis. This review focuses on the most significant advances in the understanding of the molecular regulatory events involving CD40 and its ligand in experimental and human disease.
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PMID:CD40-CD154 interaction in experimental and human disease (review). 1008 5

Human immunodeficiency virus-associated Hodgkin's disease (HIV-HD) displays several peculiarities when compared with HD of the general population. These include overrepresentation of clinically aggressive histologic types and frequent infection of Reed-Sternberg (RS) cells by Epstein-Barr virus (EBV). Recently, we have reported that the histogenesis of HD of the general population may be assessed by monitoring the expression pattern of BCL-6, a transcription factor expressed in germinal center (GC) B cells, and of CD138/syndecan-1 (syn-1), a proteoglycan associated with post-GC, terminal B-cell differentiation. In this study, we have applied these two markers to the study of HIV-HD histogenesis and correlated their expression status to the virologic features of this disease. We have found that RS cells of all histologic categories of HIV-HD consistently display the BCL-6(-)/syn-1(+) phenotype and thus reflect post-GC B cells. Although BCL-6(-)/syn-1(+) RS cells of HIV-HD express CD40, they are not surrounded by CD40 ligand-positive (CD40L+) reactive T lymphocytes, which, in HD of the general population, are thought to regulate the disease phenotype through CD40/CD40L interactions. Conversely, RS cells of virtually all HIV-HD express the EBV-encoded latent membrane protein 1 (LMP1), which, being functionally homologous to CD40, may contribute, at least in part, to the modulation of the HIV-HD phenotype.
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PMID:Human immunodeficiency virus-associated Hodgkin's disease derives from post-germinal center B cells. 1009 Sep 42

Hyper-IgM syndrome (HIM) is a rare immunodeficiency disorder that has been associated with the development of symptoms and clinical features characteristic of rheumatoid arthritis (RA). We describe a patient with HIM and severe erosive arthritis with prominent nodules in the absence of detectable serum rheumatoid factor. Because HIM results from defects in either T cell CD154 (CD40 ligand) expression or abnormal CD40 signaling, the molecular basis of the patient's disease was analyzed. Activated CD4+ T cells failed to express surface CD154 protein, and molecular analysis of CD154 complementary DNA revealed a nucleotide transversion resulting in the nonconservative amino acid substitution G-D at amino acid 257. This case indicates that defective CD154-dependent CD40 signaling can be associated with susceptibility to a severe inflammatory arthritis that has both similarities to and differences from idiopathic RA.
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PMID:An aggressive form of polyarticular arthritis in a man with CD154 mutation (X-linked hyper-IgM syndrome). 1036 25

The recognition of antigens by specific T- and B-lymphocytic receptors underlies an immune response. However, the formation of a potential signal for the activation of lymphocytes requires an additional their stimulation (costimulation). The main source of costimulation signals is the interaction of the surface molecules of lymphocytes and accessory cells. The interaction between the T-cell surface molecules CD28 and costimulatory molecules of antigen-presenting cells (CD80 or CD86) is the most important point of the T-helper cell activation. The interaction between B-cell molecule CD40 and T-helper surface molecule CD154 is the key event of B-cell (and other antigen-presenting cell) activation. When costimulation is absent, antigen recognition induces specific lymphocytic anergy or apoptosis. Defects of costimulatory molecular expression or function can cause immunodeficiency. For example, hereditary defect of CD154 expression causes the hyper-IgM syndrome. The soluble forms of some costimulatory molecules are considered to be potential immunomodulators.
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PMID:[Cell interaction in immune response]. 1037 80

Mouse retrovirus-induced lymphoma/leukemia and immunodeficiency are useful models for analogous human diseases. Both ecotropic (mouse tropic) and recombinant retroviruses, including the polytropic mink cytopathic focus-inducing type, have been studied for disease pathogenesis and as targets for humoral and cellular immunity, particularly cytotoxic T-lymphocyte (CTL) responses. For AKR/Gross murine leukemia viruses (MuLV) we have defined an immunodominant CTL epitope in the p 15E transmembrane anchor envelope protein and three minor/subdominant epitopes. Evidence is presented for retroviral escape from CTL by selection following genetic recombination and point mutation both within and outside CTL epitope sequences, and via endogenous retrovirus-infected cell downregulation of the generation of anti-AKR/Gross MuLV CTL. As demonstrated in vivo in naturally occurring non-responder strains by adoptive transfer, and in vitro by cell-mixing experiments, a central non-responsiveness mechanism appears to be peripheral inhibition mediated by infected cells expressing MHC-presented viral peptides. Such inhibition requires Fas expression by antiviral T cells; occurs upon TCR-mediated recognition of virus-infected, Fas ligand-expressing "veto" cells; and apparently leads to an antigen-specific form of activation-induced cell death of T cells. In the LP-BM5 MuLV isolate that causes murine AIDS (MAIDS) retroviral variation also leads to CTL escape--the BM5-helper virus has altered forms of the immunodominant and two minor/subdominant epitopes. In contrast, a novel immunodominant CTL epitope is recognized by MAIDS resistant, but not MAIDS-susceptible, strains. This epitope is uniquely encoded in an alternative translational reading frame of the viral gag gene. It also appears that the LP-BM5 MuLV have co-opted the cells of the immune system for retroviral pathogenesis--CD40/CD40L (CD154) interactions are required both for the initiation and progression of MAIDS.
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PMID:Cytotoxic T lymphocytes to endogenous mouse retroviruses and mechanisms of retroviral escape. 1039 80

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