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Query: UMLS:C0024312 (
lymphopenia
)
4,859
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Hereditary deficiency of adenosine deaminase (ADA) usually causes profound
lymphopenia
with severe combined immunodeficiency disease. Cells from patients with ADA deficiency contain less than normal, and sometimes undetectable, amounts of ADA catalytic activity and ADA protein. The molecular defects responsible for hereditary ADA deficiency are poorly understood. ADA messenger RNAs and their translation products have been characterized in seven human lymphoblast cell lines derived as follows: GM-130, GM-131, and GM-2184 from normal adults; GM-3043 from a partially ADA deficient, immunocompetent !Kung tribesman; GM-2606 from an ADA deficient, immunodeficient child; CCRF-
CEM
and HPB-ALL from leukemic children. ADA messenger (m)RNA was present in all lines and was polyadenylated. The ADA synthesized by in vitro translation of mRNA from each line reacted with antisera to normal human ADA and was of normal molecular size. There was no evidence that posttranslational processing of ADA occurred in normal, leukemic, or mutant lymphoblast lines. Relative levels of specific translatable mRNA paralleled levels of ADA protein in extracts of the three normal and two leukemic lines. However, unexpectedly high levels of ADA specific, translatable mRNA were found in the mutant GM-2606 and GM-3043 lines, amounting to three to four times those of the three normal lines. Differences in the amounts of ADA mRNA and rates of ADA synthesis appear to be of primary importance in maintaining the differences in ADA levels among lymphoblast lines with structurally normal ADA. ADA deficiency in at least two mutant cell lines is not caused by deficient levels of translatable mRNA, and unless there is some translational control of this mRNA, the characteristic cellular ADA deficiency is most likely secondary to synthesis and rapid degradation of a defective ADA protein.
...
PMID:Adenosine deaminase messenger RNAs in lymphoblast cell lines derived from leukemic patients and patients with hereditary adenosine deaminase deficiency. 613 54
An inherited deficiency of adenosine deaminase (adenosine aminohydrolase, EC 3.5.4.4) produces selective
lymphopenia
and immunodeficiency disease in humans. Previous experiments have suggested that lymphospecific toxicity in this condition might result from the selective accumulation of toxic deoxyadenosine nucleotides by lymphocytes with high deoxycytidine kinase, levels and low deoxynucleotide dephosphorylating activity. The present experiments were designed to determine if deoxyadenosine analogs which are not substrates for adenosine deaminase might similarly be toxic toward lymphocytes and lymphoid tumors. Two such compounds, 2-chlorodeoxyadenosine and 2-fluorodeoxyadenosine, at concentrations of 3 nM and 0.15 microM, respectively, inhibited by 50% the growth of human CCRF-
CEM
malignant lymphoblasts in vitro. Each was phosphorylated in intact cells by deoxycytidine kinase accumulated as the nucleoside triphosphate, and inhibited DNA synthesis more than RNA synthesis. Both deoxynucleosides had significant chemotherapeutic activity against lymphoid leukemia L1210 in mice.
...
PMID:Deoxycytidine kinase-mediated toxicity of deoxyadenosine analogs toward malignant human lymphoblasts in vitro and toward murine L1210 leukemia in vivo. 625 65
The molecular targets and biological properties of lymphocytotoxic sera in 11 human immunodeficiency virus (HIV)+ subjects in CDC stages II to IVC were investigated. A purified soluble
CEM
membrane used as the CD4+ T cell clonotypic model in immunoblotting techniques revealed a homogeneous pattern of IgM-mediated reactivity to a 43.5-kDa membrane component in 10 sera. Conversely,
CEM
membrane-reactive IgG from these sera were weakly reactive to various antigens with no prevalent specificity. ELISA assay against purified 25.5-, 43.5-, and 60.8-kDa
CEM
membrane antigens revealed a significant affinity of IgM from sera 3, 8, 9, and 10 for the 43.5-kDa receptor, thus confirming the high specificity of these cytotoxic antibodies for their substrate. Additional experiments included the idiotypic saturation of purified IgM molecules with increasing amounts of the 43.5-kDa antigen. Functional inhibition of
CEM
-reactive IgM by their antigen was dose-dependent. The maximum inhibition of the ELISA reactivity was detected at 1/7 antigen/antibody concentration. By contrast, a significant decline of cytotoxic properties of sera 8, 9, and 10 to
CEM
lymphoblasts was noted only when equivalent concentrations of the 43.5-kDa receptor and purified IgM were incubated. In addition, the 43.5-kDa antigen appeared to be the preferential target of cytotoxic IgM in HIV-1 infection, since purified cytotoxic IgM from two SLE patients were not inhibited by this molecule. Our data provide specific molecular support for earlier evidence of exacerbation by T cell-reactive antibodies of the
lymphopenia
associated with HIV-1 infection.
...
PMID:Molecular specificities of CD4+ T cell-reactive IgM in human immunodeficiency virus (HIV-1) infection. 790 30
Previous studies have demonstrated that T cell-reactive antibodies in HIV-1 infection contribute to lymphocyte depletion by cytotoxicity that involves differential membrane targets, such as the 43.5-kD receptor on
CEM
cells. Here, we show that these antibodies bind Fas as result of a molecular mimicry of the gp120. Both flow cytometry and immunoblotting using the human Fas-transfected mouse WC8 lymphoma revealed positive binding of immunoglobulin G from several patients to a 43.8-kD membrane receptor that also reacts with the CH11 anti-Fas monoclonal antibody. Specificity to Fas was further confirmed to chimeric recombinant human Fas-Fc by ELISA, whereas overlapping peptide mapping of a Fas domain (VEINCTR-N) shared by gp120 V3 loop demonstrated a predominant affinity to the full-length 10-mer peptide. Four anti-Fas affinity preparations greatly increased the subdiploid DNA peak of
CEM
cells similar to agonist ligands of Fas. In addition, anti-Fas immunoglobulin G strongly inhibited the [3H]thymidine uptake of
CEM
cells in proliferative assays, inducing a suppression as high as provoked by both CH11 mAb and recombinant human Fas ligand. Since anti-Fas were reactive to gp120, it is conceivable that antibodies binding that domain within the V3 region are effective cross-linkers of Fas and increase apoptosis in peripheral T cells. These results suggest that autologous stimulation of the Fas pathway, rather than of lymphocytotoxic antibodies, may aggravate
lymphopenia
in a number of HIV-1+ subjects.
...
PMID:Cross-linking of Fas by antibodies to a peculiar domain of gp120 V3 loop can enhance T cell apoptosis in HIV-1-infected patients. 897 84
