Many autoantibodies have been described in HIV-infected individuals. We have examined the incidence, associations and prognostic significance of anti-nuclear antibodies (ANA), anti-neutrophil cytoplasmic antibodies (ANCA) and anti-glomerular basement membrane (GBM) antibodies in individuals with HIV infections. One hundred and five patients, with asymptomatic infections (n = 37), AIDS-related complex (n = 32) or AIDS (n = 36) were studied. Plasma from 24 of these (23%) were positive for ANA: most demonstrated speckled fluorescence (n = 21) and were of low titre (1+ in 18). ANCA were demonstrated by IIF in 18 individuals (17%) and all fluorescent patterns were seen; 6 of these plasma were also positive in the ELISAs for antibodies to proteinase 3, myeloperoxidase or elastase. Thirteen plasma were positive for ANCA in the neutrophil cytoplasm ELISA; 10 of these were also positive in the specific ELISAs. A total of 30 plasma bound to proteinase 3, myeloperoxidase or elastase in specific ELISAs, in 6 cases with 2 specificities. Finally, 18 plasma (17%) contained anti-GBM antibodies by ELISA, but none of 4 plasma tested in inhibition assays was specific. ANA, ANCA and anti-GBM antibodies were not uncommon in HIV-infected individuals but the presence of these antibodies was not associated with the clinical manifestations of the corresponding autoimmune diseases. In addition, there was no correlation between the demonstration of these antibodies and the immunological status of the individual (apart from a correlation between CD4 counts less than 400/microliters with anti-GBM antibodies), the presence of an opportunistic infection, the development of malignancy or reduced survival. Some of these antibodies may arise from polyclonal activation, or be due to "sticky" serum since we have shown that the presence of anti-GBM antibodies correlated with the demonstration of ANCA by ELISA. These antibodies are not more common in hypergammaglobulinemic plasma but some may be due to heat-treatment of the plasma. The clinician caring for HIV-infected individuals needs to be aware of these "false-positive" antibody results.
Sera of 12 patients with quinine/quinidine-induced thrombocytopenia showed drug-dependent antibody binding to glycoprotein (GP) Ib-IX complex. The reaction with GPIb-IX complex of 11 of these 12 sera was strongly inhibited by the complex-specific monoclonal antibodies (MoAbs) AK1 and SZ1. The exception was a quinine-induced serum designated BU. The reaction of the six quinidine-induced sera was also partially blocked by an anti-GPIX MoAb, FMC25. Only 3 of the 12 patient sera showed drug-dependent antibody binding to GPIIb/IIIa, which was strongly inhibited by the anti-GPIIIa MoAb 22C4, and the anti-GPIIb alpha MoAb SZ22. With detergent-solubilized Serratia metalloprotease- treated platelets, quinine/quinidine-induced sera, except BU, immunoprecipitated a membrane-bound proteolytic fragment of GPIb-IX complex. In contrast, BU immunoprecipitated glycocalicin and a 40-Kd peptide tail fragment of GPIb alpha from the cell supernatant. Using purified GPIb-IX complex or its components as the target antigen, all the quinine-induced sera, except BU, immunoprecipitated GPIb-IX complex but failed to immunoprecipitate GPIb, GPIX, or the complex reformed from GPIb and GPIX. The quinidine-induced sera strongly immunoprecipitated purified GPIb-IX complex, weakly immunoprecipitated purified GPIX and the recombined complex, but did not immunoprecipitate purified GPIb. The combined data suggest that one quinine-dependent antibody (BU) recognizes an epitope in the peptide tail region of GPIb alpha and the other five quinine-dependent antibodies react with a complex-specific epitope on the membrane-associated region of GPIb-IX complex, whereas each of the six quinidine-induced sera contain two drug-dependent antibodies, one reactive with the GPIb-IX complex- specific epitope and the other reactive with GPIX. The binding domain(s) on GPIIb/IIIa for the quinine/quinidine-dependent antibodies appear to be sterically close to the epitopes for 22C4 and SZ22.
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