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 presence of extra reactions in the HLA typing of a combined immunodeficiency patient may be attributed to B-cell alloantibodies in the HLA typing sera. The presence of these reactions can be used to identify HLA sera containing B-cell antibodies for further B-cell studies. The alloantibodies in this study have some association with the HLA-D determinants and segregate with HLA in normal families.
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PMID:Previously unexplained HLA antigens of combined immunodeficiency disease due to Ia alloantigens. 30 19

Homozygous C2 deficiency in a 19-year-old boy was associated with variable immunodeficiency manifested by marked hypoimmunoglobulinemia and impaired antibody responses, normal circulating B lymphocytes, and subnormal T-cell functions. Neither antilymphocytic autoantibodies nor chromosomal abnormalities were found. Serum immunoglobulin levels were within normal limits in his parents and brother who were heterozygous for C2 deficiency. The patient's lymphocytes were homozygous at the HLA-D locus but expressed an antigen different from DW2.
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PMID:Hereditary C2 deficiency associated with common variable immunodeficiency. 31 33

An infant with a family history suggestive of immunodeficiency presented with combined immunodeficiency. No HLA-A and -B antigens were present on lymphocyte and platelet surfaces, but they were found in the serum. HLA-D determinants were present on lymphocytes. In spite of a fetal thymus transplantation, the infant died of infections associated with the immunodeficiency. The thymus and lymphoid organs were present but hypoplastic and contained few lymphocytes at postmortem examination. The finding of an immodeficiency associated with an absence of cell-surface HLA-A and -B antigens may be regarded as the consequence of the lack of cellular histocompatibility antigens on immune development. Alternatively, other membrane components may have also been defective and partly responsible for the observed abnormalities.
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PMID:Combined immunodeficiency disease associated with absence of cell-surface HLA-A and -B antigens. 65 Mar 44

Autoimmune disease is generally felt to result from the interaction of genetic and environmental factors. In recent years, significant advances have been made in using recombinant DNA methods to analyze specific genetic factors and infectious agents. However, new techniques are needed that are more rapid, inexpensive, and suitable for small tissue biopsies obtained early in the course of disease. New methods of DNA amplification based on polymerase chain reaction (PCR) and Q beta-replicase (Q beta R) have recently been reported. These methods are briefly reviewed, and their potential applications to patients with autoimmune disease are presented. Several types of applications can be considered, including detection of: a) specific HLA-D alleles in order to predict prognosis and better utilize existing medications; b) bacterial, fungal, and spirochete infections in joint aspirates or synovial biopsies; c) human immunodeficiency virus (HIV) and other viruses (e.g., EBV, CMV) that may be associated with immune dysregulation in certain patients; and d) neoplastic transformation in blood or tissues by determining monoclonal gene rearrangements, karyotypic alterations or oncogene activation. It is likely that routine clinical laboratories will soon begin implementing DNA amplification methods in order to screen blood products for infectious agents (especially HIV and hepatitis B virus). Because these techniques will be readily available, rheumatologists/clinical immunologists should begin developing strategies that will allow them to use these methods in a cost-effective manner for diagnosis and monitoring treatment.
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PMID:Use of DNA amplification methods for clinical diagnosis in autoimmune diseases. 169 39

Two T-lymphocyte subsets develop in the thymus which differ in the expression of glycoproteins on their cell surface. About 60% of the circulating T cells express the glycoprotein T4, while about 30% have the glycoprotein T8. T4 and T8 cells can be determined in the peripheral blood or various organs with monoclonal antibodies. T4 and T8 cells differ in their antigen recognition, have different functions, and can cause various pathohistological changes. T4 cells recognize the antigen in association with the HLA-D/DR/DP determinants. Upon antigenic stimulation they liberate various factors and initiate and amplify an immune response (T4 = helper/inducer T-cells). They can also be cytotoxic and are mediating effector functions via macrophage activation. T8 cells recognize the antigen in association with HLA-A/B/C determinants. They exert their cytotoxic or suppressive effector functions mainly in viral infections. The T4 or T8 cell-mediated pathohistological changes are discussed in the light of the well studied T-cell infiltrations in lepra lepromatosa or lepra tuberculosa. The T4/T8 cell dyscrasia in the peripheral blood, described in a variety of infectious, autoimmune or immunodeficiency diseases, may be due to enhanced proliferation, selective sequestration, reduced production or the elimination of a subset. T-cell subset analysis in joints, bronchial lavages and tissues has clarified the pathomechanism in a variety of autoimmune diseases, although the etiology remains obscure. For example, in rheumatoid arthritis, multiple sclerosis, and sarcoidosis, a T4 cell-mediated reaction with macrophage activation can be found. T4/T8 cell analysis may also be of value in dissecting heterogenous diseases, e.g. systemic lupus erythematosus. Of value is also the additional demonstration of membrane components reflecting T-cell activation (IL-2 receptor or DR-antigen expression) which serves to identify the activated T-cell subset in peripheral blood. Finally, T4/T8 cell analysis can be helpful in deciding treatment, as the T-cell subsets have a different sensitivity to immunosuppressive drugs.
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PMID:[Analysis of T-cell subpopulations. Pathophysiological concept and significance for clinical medicine]. 315 84

It is not clear whether the accessory function of monocytes from subjects with human immunodeficiency virus (HIV)-related diseases such as acquired immunodeficiency syndrome (AIDS) and persistent generalized lymphadenopathy (PGL) is intact. In this study, the accessory function of monocytes from healthy subjects (n = 9) and subjects with AIDS (n = 4) and PGL (n = 5) was assessed by adding graded numbers of monocytes to lymphocytes stimulated with either tetanus toxoid or phytohemagglutinin. By nonparametric analysis, it was determined that a significantly greater number of monocytes was required for half-maximal responses of lymphocytes from subjects with PGL (for tetanus toxid but not phytohemagglutinin) and from those with AIDS, compared with healthy subjects. To address whether this observed difference was a result of a defect in accessory function of monocytes or a result of altered responsiveness of lymphocytes, a mixing experiment was performed between monocytes and lymphocytes obtained from a patient with PGL but without symptoms and an HLA-D-matched healthy sib. Dysfunction of both monocytes and lymphocytes was evident. Thus, this report provides data that monocytes in HIV infection are defective in accessory function for lymphocyte responses to soluble stimuli. We speculate that such dysfunction of monocytes may contribute to the progressive disturbance of the immune response that occurs during HIV infection.
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PMID:Defective accessory function of monocytes in human immunodeficiency virus-related disease syndromes. 326 Sep 32

Viral infections are often associated with immunodeficiency states. Although T lymphocytes have been thought to suppress the host's response, the precise etiology remains unclear. Therefore, we characterized T lymphocytes from six patients during both acute and convalescent phases of infectious mononucleosis (IM) with monoclonal antibodies (titer, 10(-5) to 10(-7) to antigens restricted to the TH2- helper (T4) and TH2 suppressor (T5) T cell subsets as well as to a common T cell antigen (T3) and HLA-D related Ia antigens. It was found that during acute infectious mononucleosis, there is both activation and increase of suppressor T cells (T5+, Ia+ phenotype). Fuctionally, the acute IM lymphocytes suppress autologous T cell proliferation to antigens as well as pokeweed mitogen driven B cell immunoglobulin production. In contrast, convalescence is associated with a return to normal of T cell subsets and immune function. These results demonstrate that viral infections can preferentially activate a specific T cell subset and suppress the overall human immune response.
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PMID:The cellular basis for viral-induced immunodeficiency: analysis by monoclonal antibodies. 625 Nov 32

Within the last 7 years, HLA and disease studies have made it clear that most of the diseases previously known to be HLA-A- or B-associated do in fact show stronger associations with HLA-D/DR antigens. This observation strengthens the assumption that Ir and/or Is determinants are responsible for these associations in agreement with the fact that many of these diseases are characterized by autoimmune phenomena. However, some diseases, ankylosing spondylitis in particular, still show stronger associations with HLA-ABC than with DR antigens. Among the conditions which have been shown to be HLA-associated more recently, four deserves special mention: (i) maternal immunization against the Zwa antigen because this is a good candidate for an antigen-specific Ir gene action; (ii) IgA deficiency in blood donors because this is a non-antigen-specific immunodeficiency; (iii) idiopathic hemochromatosis and (iv) congenital adrenal hyperplasia due to 21-OH deficiency because immune mechanisms are unlikely to be involved. HLA studies and new genetic methodology have significantly advanced our knowledge about the inheritance of some diseases. Thus, HLA-B27 or a B27-associated HLA factor confers a dominant susceptibility to ankylosing spondylitis. HLA plays a definite and strong role in the susceptibility to IDDM, but simple genetic models (dominant, recessive, and intermediate) have been made unlikely on the basis of HLA results; the hypothesis that there are two different susceptibility genes within the HLA system still remains viable, but the demonstration of clinical heterogeneity and/or (better) of different pathogenetic pathways for DR3- and DR4-associated IDDM is required to substantiate it.
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PMID:HLA and disease 1982--a survey. 633 68

We investigated the immune function of a patient with anergy and acquired hypogammaglobulinemia. Despite normal numbers of B cells and T4+ inducer and T5+ suppressor T cells, this patient's lymphocytes did not produce immunoglobulin, proliferate in response to soluble antigens, or generate helper factors in vitro. In addition, her T4+ T cells did not express la molecules after stimulation by soluble antigen. In mixing experiments, her T cells did not induce immunoglobulin secretion by B cells from a normal, HLA-D-identical sibling; this failure was not due to excessive suppression, since the patient's T cells did not abrogate immunoglobulin production by the normal sibling's T and B cells. Moreover, the patient's B cells secreted immunoglobulin in the presence of the sibling's T4+ cells. In contrast to the deficient inducer cells, the patient's T5+ T cells were capable of expressing suppressor-cell functions. These results indicate that immunodeficiency may occur because of a selective loss of T4+ inducer function.
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PMID:Immunodeficiency associated with loss of T4+ inducer T-cell function. 645 5

Patient survival after BMT is directly correlated with the HLA-type of the donor. The survival rate after BMT from an HLA-genotypically identical sibling is 56% in acute leukemia, 55% in combined severe immunodeficiency disease (SCID) and 67/83% in severe aplastic anemia patients. The usage of only HLA-D identical related or unrelated donors in SCID revealed a 37% survival, compared to 18% survival in acute leukemia and 11% in severe aplastic anemia using HLA-phenotypical identical or HLA-D identical related donors. BMT from HLA-phenotypical and MLC identical unrelated donors resulted in death of the grafted patients. Non of the patients grafted with HLA-different marrow survived BMT. Survival of BMT patients depended beside the histocompatibility matching on the clinical treatment and the clinical constellation of the patient: The survival rate decreased in aplastic anemia patients due to sensibilisation caused by pre-BMT blood transfusion and was significantly higher in leukemia when BMT was performed in remission.
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PMID:[HLA and bone marrow transplantation (BMT) (author's transl)]. 702 87


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