HIV-1 was able to induce a NALP3-inflammasome response in healthy individuals, indicating that this inflammasome could play a role in the first steps of HIV-1 infection; the consequent inflammatory process may be important for directing host immune response against the virus and/or disease progression. HIV-DC seemed to be chronically activated, but unresponsive against pathogens. Our findings could be of interest considering the ongoing research about dendritic cell manipulation and therapeutic strategies for AIDS involving dendritic cell-based immune-vaccines.
These results indicate that A. suum allergenic protein APAS-3 induces a T helper 2-type immune response and, consequently, eosinophilic airway inflammation and hyper-responsiveness. Moreover, the modulatory protein PAS-1 has a marked suppressive effect on this response, and the inhibition of cytokine (IL-4, IL-5) and chemokine (eotaxin and RANTES) release, probably because of the presence of IL-10, may contribute to this effect.
The involvement of inflammasome genes in the susceptibility to HIV-1 infection was investigated. Twelve single nucleotide polymorphisms within NLRP1, NLRP3, NLRC4, CARD8, CASP1, and IL1B genes were analyzed in 150 HIV-1-infected Brazilian subjects and 158 healthy controls. The 2 polymorphisms rs10754558 in NLRP3 and rs1143634 in IL1B were significantly associated to the HIV-1 infection. These findings supported the previously hypothesized involvement of NALP3-inflammasome in HIV-1 pathogenesis, underlining once more the key role of inflammation and innate immunity in the susceptibility to HIV-1 infection.
These results demonstrate that PAS-1 has a potent anti-inflammatory activity, probably due to the stimulation of regulatory cytokines in macrophages, thus leading to the inhibition of pro-inflammatory cytokine production.
Although tumor necrosis factor-alpha (TNF-alpha) produced by alveolar macrophages plays a key role in acute and chronic inflammatory states of the lung, the regulation of TNF-alpha synthesis remains to be elucidated. Recently, a K channel blocker, quinine, has been reported to inhibit cell proliferation and protein synthesis in lymphocytes, implicating physiologic roles for K channels in lymphocytes. The effect of quinine on protein synthesis in human alveolar macrophages, however, has not been determined, although alveolar macrophages have been reported to have two types of K channels. Therefore, we investigated the effect of quinine on TNF-alpha production from human alveolar macrophages. The production of TNF-alpha was induced by lipopolysaccharide (LPS) stimulation. We obtained the following results. First, LPS induced time-dependent activation of both types of K channels. Second, quinine inhibited TNF-alpha release in a dose-dependent fashion at concentrations of 50 to 200 microM, concentrations capable of blocking both types of K channels, with no appreciable reduction of phagocytosis of latex beads. Third, the compound remarkably inhibited the expression of TNF-alpha mRNA without any appreciable effect on the expression of beta-actin mRNA. These results indicate that both types of K channels are activated by stimulation with LPS and that quinine, at concentrations required to inhibit K channels, specifically blocks TNF-alpha production of human alveolar macrophages at the level of gene transcription.
The extract of Ascaris suum suppresses the humoral and cellular immune responses to unrelated antigens in the mouse. In order to further characterize the suppressive components of A. suum, we produced specific monoclonal antibodies which can provide an important tool for the identification of these proteins. The A. suum immunosuppressive fractions isolated by gel filtration from an extract of adult worms were used to immunize BALB/c mice. Popliteal lymph node cells taken from the immunized animals were fused with SP2/O myeloma cells and the cloned hybrid cells obtained were screened to determine the specificity of secreted antibodies. Three monoclonal antibodies named MAIP-1, MAIP-2 and MAIP-3 were selected and were shown to react with different epitopes of high molecular weight proteins from the A. suum extract.
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