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

The characteristics of T and B lymphocyte profile and B lymphocyte specificity repertoire were compared in patients with Waldenstrom's macroglobulinemia (WM), IgM monoclonal gammopathy of undetermined significance (IgM MGUS), multiple myeloma (MM), and age-matched normal subjects. Patients with MM had both significantly reduced frequency and number of sIg+ (surface Ig) B cells, whereas patients with WM and IgM MGUS had a reduced frequency but normal numbers of sIg+ B cells in circulation as detected in a capping assay. WM was distinguished by the large numbers of cells in the peripheral blood lymphocyte (PBL) pool that expressed CD9 (BA-2) and CD24 (BA-1) and were monoclonal, based on light chain analysis using flow cytometry. The profile of T lineage cells showed that the ratio of CD4:CD8 was significantly reduced in both MM and WM due to a reduction in the CD4 set. The CD4+ cells were qualitatively abnormal as well, with an enriched proportion of the 4B4+ (CDw29) subset and decreased proportion of the Lp220+ (CD45R) subset. This appeared to be an effect of the disease process on the relatively immature Lp220+ set. From clonal analysis, those patients with WM or IgM MGUS (unlike MM patients) did not exhibit enhanced reactivity with auto-Ig determinants, and most WM patients (7/8) and half of the IgM MGUS patients (3/6) did not have enriched proportions of B cells reactive to tetanus toxoid (TT). The TT-specific B cells in both WM and IgM MGUS, in contrast to MM, appeared fully functional in secretion of anti-TT IgM in vivo. We speculate that the more severe immunodeficiency in MM may be controlled or exacerbated by the presence of an anti-Ig network. The absence of this network in WM allows a relatively more effective immune response, but the immunodeficiency that is observed in these patients involves some abnormality in normal lymphocyte differentiation (is also present in MM).
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PMID:Abnormalities in lymphocyte profile and specificity repertoire of patients with Waldenstrom's macroglobulinemia, multiple myeloma, and IgM monoclonal gammopathy of undetermined significance. 253 15

The phenotypic analysis of human umbilical cord blood (CB) mononuclear cells is important to study their maturity and differentiation regarding their transplantable capacity. In this work we have studied differential expression of B cell antigens on CD5-/HLA-DR+ B cells (B1b, B2) and CD5+/HLA-DR+ cells (Bla) from the CB (n=6) and adult peripheral blood (PB) (N=6). CD5-PE, HLA-DR-PerCP and FITC labelled anti-B cell MoAb panel of the 6th International Workshop on Human Differentiation Antigens were used for detection of B cell subpopulations. FacsCalibur (B-D) flow cytometer was used for evaluation of samples. CB Bla (CD5/HLA-DR++) cells proved to be positive with CD9, CD19, CD20, CD21, CD22, CD23, CD24, CD32, CD39, CD45RA, CD76, CD79, MHC-II, IgM and anti Ig light chains MoAbs. CB B1b (CD5-/HLA-DR+) cells reacted with CD9, CD19, CD20, CD21, CD22, CD23, CD24, CD32, CD39, CD45RA, CD79, MHC-II, and IgM MoAbs. PB B cells (B2) expressed CD19, CD20, CD21, CD22, CD24, CD32, CD37, CD39, MHC-II and CD79 Ags. Unlike to the PB the CB B lymphocytes proved to be predominantly B1 cells representing a new-born B cell repertoire. Besides expressing many B cell antigens both the CB Bla and B1b cells showed CD9+, CD45RA+, IgM+ immature, "naive" B cell phenotype. Functionally, B1 cells are capable producing polyreactive IgM and natural autoantibodies but not IgG. This antibody profile might be insufficient regarding the recipient humoral immune defense result in more severe immunodeficiency after CB transplantation.
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PMID:Immunophenotypic characterisation of cord blood B-lymphocytes. 991 47

Immunodeficiency-related B-cell disorders are seen after organ transplantation and in congenital and acquired immunodeficiency states. Post-transplant lymphoproliferative disorders (PTLD) comprise a histologic spectrum ranging from hyper-plastic appearing lesions to frank non-Hodgkin's lymphoma or multiple myeloma histology. Multiple clones may co-exist, representing a uniquely different mechanism for lymphomagenesis. The incidence varies from 1% in renal recipients to 8% in lung recipients, but can be markedly increased by the use of anti-T-cell therapies, or by T-cell depletion in bone marrow transplantation. Pre-transplant EBV seronegativity increases risk to as high as 30%-50%. More than 90% of tumors are EBV-associated. Mechanisms for viral lymphomagenesis remain incompletely defined; LMP-1 may function as an oncogene and coprecipitates with TRAF, BCL-2 overexpression has also been identified. A possible direct tumorigenic effect has recently been suggested for cyclosporine. PTLD has a highly variable clinical picture, certain patterns are however seen. Reversibility of PTLD with reduction in immunosuppressives has long been recognized. Predicting reversibility has been difficult. The presence or absence of BCL-6 mutations has recently been identified as being of predictive value. Surgical resection can be curative. Cytotoxics, although problematic, can also be curative. Long term remission has been achieved with anti CD21 and CD24 antibodies; efficacy has been reported anecdotally for interferon alpha and for rituximab. In vitro expanded EBV-specific T cells have been effective as treatment and as prophylaxis in the setting of bone marrow transplantation. EBV viral load measured in blood appears to correlate with the emergence of PTLD and may facilitate prophylactic studies. PTLD is a model of immunodeficiency related EBV lymphomagenesis. Pathogenetic, therapeutic, and prophylactic insights gained from the study of PTLD are likely to be applicable to other immunodeficiency states and to EBV-related lymphoid neoplasia in general.
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PMID:Diagnosis and treatment of transplant-related lymphoma. 1070 78

Post-transplant lymphoproliferative disorders (PTLD) share many of the features of human immunodeficiency virus (HIV)-related lymphomas, although important differences exist. PTLD ranges from hyperplastic lesions to aggressive lymphoma or multiple myeloma histology. The coexistence of multiple clones, and the strong association with the Epstein-Barr virus (EBV), represent a uniquely different mechanism for lymphomagenesis when compared with de novo lymphoma. The risk of PTLD increases as the duration of immunodeficiency lengthens, with unusual, newly described entities arising after prolonged immunosuppression. The risk is also strongly influenced by the specific anti-T-cell therapies used to prevent graft rejection, providing insight into the nature of immune surveillance. The presence or absence of bcl-6 mutations may be predictive of the reversibility of the PTLD with reduction in immunosuppressive therapy. The use of cytotoxic agents has been complicated by problems similar to those encountered with HIV-related lymphomas, but can nonetheless be very effective. Long-term remission has been achieved with anti-CD21 and anti-CD24 antibodies, although these have not been equally effective for all categories of PTLD. In vitro-expanded EBV-specific T cells have been effective both as treatment and as prophylaxis in the setting of PTLD occurring after marrow transplantation. EBV viral load measurement correlates with the emergence of PTLD, and may make clinical trials of screening, prophylaxis, or early intervention possible.
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PMID:Transplantation-related lymphoproliferative disorder: a model for human immunodeficiency virus-related lymphomas. 1095 Mar 66

Post-transplant lymphoproliferative disorders (PTLDs) comprise a histologic spectrum, ranging from hyperplastic-appearing lesions to frank non-Hodgkin's lymphoma or multiple myeloma histology. Multiple clones may coexist, each representing a discrete lymphomagenic event, a situation that is unique to immunodeficiency states. The incidence varies from 1% in renal recipients to 5% in heart recipients, but can be markedly increased by the use of anti-T-cell therapies or by T-cell depletion in bone marrow transplantation. PTLD continues to arise, even many years after transplantation, and late T-cell lymphomas have recently been recognized. Pretransplant Epstein-Barr virus (EBV) seronegativity increases risk to as high as 30%-50%. PTLD has a highly variable clinical picture; certain patterns are, however, seen. Reversibility of PTLD with reduction in immunosuppressives has long been recognized. Predicting reversibility has been difficult. The presence or absence of bcl-6 mutations has recently been identified as being of predictive value. Surgical resection can be curative. Cytotoxics, although problematic, can also be curative. Long-term remission has been achieved with anti CD21 and CD24 antibodies; efficacy has been reported for interferon alfa and for rituximab. In vitro expanded EBV-specific T cells have been effective as treatment and as prophylaxis in the setting of bone marrow transplantation. EBV viral load measured in blood appears to associate with the emergence of PTLD and may facilitate prophylactic studies. PTLD is a model of immunodeficiency-related EBV lymphomagenesis. Pathogenetic, therapeutic, and prophylactic insights gained from the study of PTLD are likely to be applicable to the acquired immunodeficiency syndrome setting.
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PMID:Post-transplant lymphoproliferative disorders: implications for acquired immunodeficiency syndrome-associated malignancies. 1115 5

The amount of excess polymerase and RNase H activity in human immunodeficiency virus type 1 virions was measured by using vectors that undergo a single round of replication. Vectors containing wild-type reverse transcriptase (RT), vectors encoding the D110E mutation to inactivate polymerase, and vectors encoding mutations D443A and E478Q to inactivate RNase H were constructed. 293 cells were cotransfected with different proportions of plasmids encoding these vectors to generate phenotypically mixed virions. The resulting viruses were used to infect human osteosarcoma cells, and the relative infectivity of the viruses was determined by measuring transduction of the murine cell surface marker CD24, which is encoded by the vectors. The results indicated that there is an excess of both polymerase and RNase H activities in virions. Viral replication was reduced to 42% of wild-type levels in virions with where half of the RT molecules were predicted to be catalytically active but dropped to 3% of wild-type levels when 25% of the RT molecules were active. However, reducing RNase H activity had a lesser effect on viral replication. As expected, based on previous work with murine leukemia virus, there was relatively inefficient virus replication when the RNase H and polymerase activities were encoded on separate vectors (D110E plus E478Q and D110E plus D443A). To determine how virus replication failed when polymerase and RNase H activities were reduced, reverse transcription intermediates were measured in vector-infected cells by using quantitative real-time PCR. The results indicated that using the D11OE mutation to reduce the amount of active polymerase reduced the number of reverse transcripts that were initiated and also reduced the amounts of products from the late stages of reverse transcription. If the E478Q mutation was used to reduce RNase H activity, the number of reverse transcripts that were initiated was reduced; there was also a strong effect on minus-strand transfer.
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PMID:Replication of phenotypically mixed human immunodeficiency virus type 1 virions containing catalytically active and catalytically inactive reverse transcriptase. 1141 21

The gastrointestinal mucosa harbors the majority of the body's CD4(+) cells and appears to be uniquely susceptible to human immunodeficiency virus type 1 (HIV-1) infection. We undertook this study to examine the role of differences in chemokine receptor expression on infection of mucosal mononuclear cells (MMCs) and peripheral blood mononuclear cells (PBMCs) by R5- and X4-tropic HIV-1. We performed in vitro infections of MMCs and PBMCs with R5- and X4-tropic HIV-1, engineered to express murine CD24 on the infected cell's surface, allowing for quantification of HIV-infected cells and their phenotypic characterization. A greater percentage of MMCs than PBMCs are infected by both R5- and X4-tropic HIV-1. Significant differences exist in terms of chemokine receptor expression in the blood and gastrointestinal mucosa; mucosal cells are predominantly CCR5(+) CXCR4(+), while these cells make up less than 20% of the peripheral blood cells. It is this cell population that is most susceptible to infection with both R5- and X4-tropic HIV-1 in both compartments. Regardless of whether viral isolates were derived from the blood or mucosa of HIV-1-infected patients, HIV-1 p24 production was greater in MMCs than in PBMCs. Further, the chemokine receptor tropism of these patient-derived viral isolates did not differ between compartments. We conclude that, based on these findings, the gastrointestinal mucosa represents a favored target for HIV-1, in part due to its large population of CXCR4(+) CCR5(+) target cells and not to differences in the virus that it contains.
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PMID:A preponderance of CCR5(+) CXCR4(+) mononuclear cells enhances gastrointestinal mucosal susceptibility to human immunodeficiency virus type 1 infection. 1150 84

Two strains of human immunodeficiency virus type 1 (HIV-1) expressing different reporters, human placental alkaline phosphatase (PLAP) and murine heat stable antigen (HSA, CD24), were used for dual infection. Flow cytometric analysis enabled us to distinguish cells not only infected with individual reporter virus but also superinfected with both reporter viruses. When the CD4 positive T cell line, PM1, was dually infected by both reporter viruses with different coreceptor utilization, coinfection with CXCR4-tropic HIV-1 (X4 HIV-1) expressing one reporter increased the rate of cells infected with HIV-1 expressing another reporter. This enhancement was accompanied by an increased level of p24 antigen Gag in culture supernatant, indicating that infectivity of HIV-1 was augmented by X4 HIV-1 coinfection. The CXCR4 antagonist, T140 eliminated this enhancement, suggesting the role of X4 envelope via CXCR4. These results imply the role of X4 HIV-1 at the late stage of infection.
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PMID:Enhanced infectivity of HIV-1 by X4 HIV-1 coinfection. 1292 5

Primary effusion lymphoma (PEL) is recognized as a unique clinicopathological entity associated with human herpesvirus 8 (HHV-8), and it occurs almost exclusively in human immunodeficiency virus (HIV)-infected individuals. In the majority of PEL cases, Epstein-Barr virus (EBV) has been found in the tumor cells as well. We describe here an elderly HIV seronegative female patient with PEL in the pleura and pericardium not associated with HHV-8 or EBV. Cytologic examinations of the pleural effusion revealed large lymphoma cells with immunophenotypes positive for CD8, CD10, CD19, CD20, CD22, CD24, CD45, and HLA-DR but negative for CD30 and surface immunoglobulin. Chromosome analysis showed complicated abnormalities including add(3)(q27). Immunoglobulin gene rearrangement was detected by Southern blotting; however, c-myc, Bcl-2, and Bcl-6 genes were not rearranged. The patient was treated with a modified CHOP (cyclophosphamide, hydroxydoxorubicin, oncovine, and prednisolone) regimen, and achieved remission. Recurrence of PEL in the pericardium as effusion lymphoma was found 3 months after the discontinuation of CHOP. After approximately 1 year of intermittent multiagent salvage therapy for pericardial recurrences, a treatment that resulted in a partial response, 3 cycles of monotherapy with sobuzoxane were administered. At the time of this report the patient had been free from PEL for more than 18 months without chemotherapy.
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PMID:Durable remission by sobuzoxane in an HIV-seronegative patient with human herpesvirus 8-negative primary effusion lymphoma. 1516 97

The main topic of this article is B cell development and differentiation, with a special focus on the mechanisms and molecules that regulate the expression of humoral immunity. Molecular epidemiological analysis was performed on the genes responsible for the X-linked agammaglobulinemia (XLA) phenotype of the majority of Italian patients and their distinct mutations were characterized. Mutations in Bruton's tyrosine kinase (BTK), a member of Tec Family of protein tyrosine kinases, have been found to be mainly responsible for XLA disease. The exact function of BTK in signal transduction is not yet known; thus, the specific role of BTK in receptor-dependent calcium signaling and the pro-antiapoptotic regulatory activity was addressed by transfecting RAMOS-1, a BTK-deficient human Burkitt's/B cell leukemia line with wild-type and mutant constructs. This work may provide clues about critical sites in the molecule and give support for gene therapy as a potential successful approach to XLA. Another aspect of this research is the identification and dissection of the molecular events that are likely to be directly related to the ability to express various isotypes of immunoglobulin with differing function and certain B cell immunodeficiency, mainly common variable disease and non-X-linked hyperIgM. B cell development and maturation steps in different compartments of the immune system are tracked by the analysis of cell-surface molecules and components of the signal transduction pathways, i.e. CD40, CD30, CD27, CD38, CD22 and CD24. A few components involved in B cell development, maturation and differentiation and their specific functional role are at least partially known, but these are far from fitting into an understandable pathway at present.
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PMID:Insight into B cell development and differentiation. 1517 20


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