Recent studies indicate important roles for CTLA-4 engagement in T cells, and for TGF-β production in the immunopathogenesis of murine kalaazar or visceral leishmaniasis, but a functional link between these two pathways in helping intracellular parasite growth is unknown. Here we report that Ag or anti-CD3 activation of splenic CD4+ T cells from visceral leishmaniasis leads to intense CTLA-4-mediated TGF-β1 production, as assessed either by CTLA-4 blockade or by direct CTLA-4 cross-linkage. Production of TGF-β1 accounted for the reciprocal regulation of IFN-γ production by CTLA-4 engagement. Following CD4+ T cell activation, intracellular growth of Leishmania chagasi in cocultured splenic macrophages required both CTLA-4 function and TGF-β1 secretion. Cross-linkage of CTLA-4 markedly increased L. chagasi replication in cocultures of infected macrophages and activated CD4+ T cells, and parasite growth could be completely blocked with neutralizing anti-TGF-β1 Ab. Exogenous addition of rTGF-β1 restored parasite growth in cultures protected from parasitism by CTLA-4 blockade. These results indicate that the negative costimulatory receptor CTLA-4 is critically involved in TGF-β production and in intracellular parasite replication seen in murine kalaazar.
The evolution of Leishmania infection depends on the balance between microbicidal and suppressor macrophage functions. Double-stranded RNA (dsRNA)-activated protein kinase R (PKR), a classic antiviral protein, is able to regulate a number of signaling pathways and macrophage functions. We investigated the possible role of PKR in the modulation of Leishmania infection. Our data demonstrated that Leishmania amazonensis infection led to PKR activation and increased PKR levels. Consistently, in macrophages from PKR knockout 129Sv/Ev mice and RAW-264.7 cells stably expressing a dominant-negative (DN) construct of PKR (DN-PKR), L. amazonensis infection was strongly reduced. The treatment of infected macrophages with the synthetic double-stranded RNA poly(I:C), a potent PKR inductor, increased L. amazonensis intracellular proliferation. This effect was reversed by 2-aminopurine (2-AP), a pharmacological inhibitor of PKR, as well as by the expression of DN-PKR. NO release induced by dsRNA treatment was inhibited by L. amazonensis through NF-kappaB modulation. PKR activation induced by dsRNA also resulted in IL-10 production, whose neutralization with specific antibody completely abrogated L. amazonensis proliferation. Our data demonstrated a new role of PKR in protozoan parasitic infection through IL-10 modulation.
Protozoan parasites of the genus Leishmania frequently occur as opportunistic pathogens in human immunodeficiency virus type 1 (HIV-1)-infected individuals, but the mechanisms underlying protozoan growth in this context are poorly understood. Here, we demonstrate that the HIV-1 Tat protein drives Leishmania replication in primary human macrophages. We found that Leishmania growth doubled in HIV-1-infected macrophages and that anti-Tat antibodies reduced the exacerbated protozoan replication by 70%. Recombinant Tat increased Leishmania replication and overrode the leishmanicidal effect induced by interferon-gamma , allowing Leishmania replication even in the presence of this cytokine. Tat induced cyclooxygenase (COX)-2 expression and prostaglandin E2 (PGE2) synthesis, and a COX-2 inhibitor abolished the Tat-mediated augmentation of Leishmania replication. Moreover, PGE2 increased Leishmania growth, which was abrogated by anti-transforming growth factor (TGF)- beta1 monoclonal antibodies. Neutralization of TGF-beta1 reduced parasite growth in Leishmania-infected macrophages exposed to Tat by 50%. Our findings suggest that Tat generates a milieu permissive to Leishmania growth in individuals infected with HIV-1.
The cytokine macrophage migration inhibitory factor (MIF) is involved in the pathogenesis of inflammatory and infectious diseases, however its role in HIV-1 infection is unknown. Here we show that HIV-1-infected patients present elevated plasma levels of MIF, that HIV-1-infected peripheral blood mononuclear cells (PBMCs) release a greater amount of MIF, and that the HIV-1 envelope glycoprotein gp120 induces MIF secretion from uninfected PBMCs. The HIV-1 replication in PBMCs declines when these cells were treated with anti-MIF antibodies, or when treated with the ABC-transporter inhibitor probenecid, which also inhibited MIF secretion. The addition of recombinant MIF (rhMIF) to HIV-1-infected PBMCs enhances viral replication of CCR5- or CXCR4-tropic HIV-1 isolates. Using a T CD4+ cell lineage containing an HIV long terminal repeats (LTR)-Luciferase construct, we detected that rhMIF promotes transcription from HIV-1 LTR. Our results show that HIV-1 induces MIF secretion and suggest that MIF influences the HIV-1 biology through activation of HIV-1 LTR.
Infection of BALB/c mice with Leishmania chagasi results in progressive increase of parasite burden in spleen, in spite of extensive T cell activation in situ. Explanted splenic CD4+ T cells showed decreased proliferation to anti-CD3, compared with controls, and no response to L. chagasi recombinant antigen Lcr1. Blockade of the negative costimulatory receptor CTLA-4 restored responses to anti-CD3 and induced vigorous responses to Lcr1. Blockade of B7-1, but not B7-2, also enhanced T cell responsiveness. CTLA-4 blockade completely restored activation-induced interleukin-2 secretion and increased interferon-gamma production. The effect, however, was not restricted to Th1 responses, since CTLA-4 blockade also enhanced antigen-induced interleukin-4 secretion. CTLA-4 blockade induced almost complete elimination of parasite burden in splenocyte cultures activated with anti-CD3 or Lcr1. These results indicate that CTLA-4 engagement by B7-1 plays an important role in maintaining unresponsiveness in CD4+ T cells in this model of chronic visceral leishmaniasis.
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