Chronic immune activation in HIV-1 infection contributes to reduced interferon alpha production via enhanced CD40:CD40 ligand interaction.

Although a signature of increased interferon (IFN-)alpha production is observed in HIV-1 infection, the response of circulating plasmacytoid dendritic cells (PDC) to Toll-like receptor ligand stimulation is substantially impaired. This functional PDC deficit, which we specifically observed in HIV-1 infected individuals with less than 500 CD4+ T cells/µl, is not well understood. We provide evidence that the peripheral IFN-alpha production in HIV-1 infection is actively suppressed by the enhanced interaction of CD40 ligand (CD40L), a member of the tumor necrosis factor family, and its receptor CD40, which are both upregulated upon immune activation. Plasma levels of soluble CD40L were significantly higher in untreated HIV-1 infected individuals (n = 52) than in subjects on long-term antiretroviral therapy (n = 62, p<0.03) and in uninfected control donors (n = 16, p<0.001). Concomitantly, cell-associated CD40L and the expression of the receptor CD40 on the PDC were significantly upregulated in HIV-1 infection (p<0.05). Soluble and cell-associated CD40L inhibited the PDC-derived IFN-alpha production by CpG oligodeoxynucleotides dose-dependently. This suppressive effect was observed at much lower, physiological CD40L concentrations in peripheral blood mononuclear cells (PBMC) of HIV-1 infected individuals compared to controls (p<0.05). The CpG-induced IFN-alpha production in PBMC of HIV-1 infected donors was directly correlated with PDC and CD4+ T cell counts, and inversely correlated with the viral loads (p<0.001). In HIV-1 infected donors with less than 500 CD4+ T cells/µl, the CpG-induced IFN-alpha production was significantly correlated with the percentage of CD40-expressing PDC and the level of CD40 expression on these cells (p<0.05), whereas CD40L plasma levels played a minor role. In addition, low-dose CD40L contributed to the enhanced production of interleukin 6 and 8 in PBMC of HIV-1 infected donors compared to controls. Our data support the conclusion that the chronic immune activation in HIV-1 infection impairs peripheral PDC innate immune responses at least in part via enhanced CD40:CD40L interactions.

CD4- and dynamin-dependent endocytosis of HIV-1 into plasmacytoid dendritic cells.

Chronic immune activation, triggered by plasmacytoid dendritic cell (PDC) interferon (IFN)-alpha production, plays an important role in HIV-1 pathogenesis. As the entry of HIV-1 seems to be important for the activation of PDC, we directly characterized the viral entry into these cells using immuno-electron microscopy, cellular fractionation, confocal imaging, and functional experiments. After attachment to PDC, viruses were taken up in an energy-dependent manner. The virions were located in compartments positive for caveolin; early endosomal antigen 1; Rab GTPases 5, 7 and 9; lysosomal-associated membrane protein 1. PDC harbored more virus in endocytic vesicles than CD4+ T cells (p<0.05). Blocking CD4 inhibited the uptake of virions into cytosolic and endosomal compartments. Dynasore, an inhibitor of dynamin-dependent endocytosis, not the fusion inhibitor T-20, reduced the HIV-1 induced IFN-alpha production. Altogether, our morphological and functional data support the role of endocytosis for the entry and IFN-alpha induction of HIV-1 in PDC.

Blocking type I interferon production: a new therapeutic option to reduce the HIV-1-induced immune activation.

Highly active antiretroviral therapy has dramatically improved the morbidity and mortality of HIV-1-infected individuals. A total of 25 licensed drugs provide the basis for an optimized virus-suppressive treatment of nearly each subject. The promises of immune reconstitution and normal life expectancy, however, fall short for a number of patients, either through inadequate recovery of CD4+ T-cell counts or the occurrence of non-AIDS defining malignancies. In this respect, the prevalence of Epstein-Barr virus-associated Hodgkin lymphoma and human papillomavirus-related anal neoplasia is rising in aging HIV-1-infected individuals despite antiretroviral therapy. An important cause appears to be the HIV-1-induced chronic immune activation, propagated by inappropriate release of proinflammatory cytokines and type I interferons. This immune dysregulation can be reduced in vitro by inhibitors blocking the endosomal acidification. Recent data suggest that this concept is also of relevance in vivo, which opens the door for adjuvant immunomodulatory therapies in HIV-1 infection.

Differential effects of P-class versus other CpG oligodeoxynucleotide classes on the impaired innate immunity of plasmacytoid dendritic cells in HIV type 1 infection.

Abstract Human plasmacytoid dendritic cells (PDC) are the major producers of type I interferons (IFN) after stimulation with CpG oligodeoxynucleotides (ODN). HIV-1-infected patients show a deficit in PDC numbers and function with progression of disease. CpG ODN appear to be attractive therapeutics to support the impaired innate immunity in HIV-1 infection. PDC counts, phenotype, and function were analyzed in 23 HIV-infected untreated individuals and 16 controls. Markers for migration (CCR7), activation (CD80), maturation (CD83), and endocytosis (BDCA2) were evaluated at baseline and 20 h after in vitro stimulation with class A, B, C, and P ODN. PDC counts and the expression of BDCA2 on these cells were significantly lower in HIV-1-infected subjects compared to controls (both p < 0.001). After stimulation with CpG ODN, CD80 and CD83 were upregulated to a similar extent in patients and controls, whereas CCR7 was upregulated more efficiently by CpG-P and CpG-C than CpG-A in HIV-1-infected individuals compared to controls. The IFN-alpha induction significantly differed for the CpG ODN classes (A > P > C > B) in patients and controls (p < 0.05). Functional PDC deficits in IFN-alpha and TNF-alpha induction were particularly evident in subjects with less than 500 CD4(+) cells/mul. CpG-P ODNs not only induced remarkable IFN-alpha production in patient PBMCs, but also significantly upregulated the antibacterial and antiviral CXC chemokine IP-10. In conclusion, PDC counts, phenotype, and function are significantly impaired in HIV-1-infected subjects. Optimized P-class ODN may be effective in reversing this innate immune defect, which should be further evaluated in vivo.

Co-ordinated regulation of plasmacytoid dendritic cell surface receptors upon stimulation with herpes simplex virus type 1.

Human plasmacytoid dendritic cells (PDC) are crucial for innate and adaptive immune responses against viral infections, mainly through production of type I interferons. Evidence is accumulating that PDC surface receptors play an important role in this process. To investigate the PDC phenotype in more detail, a chip-based expression analysis of surface receptors was combined with respective flow cytometry data obtained from fresh PDC, PDC exposed to interleukin-3 (IL-3) and/or herpes simplex virus type 1 (HSV-1). CD156b, CD229, CD305 and CD319 were newly identified on the surface of PDC, and CD180 was identified as a new intracellular antigen. After correction for multiple comparisons, a total of 33 receptors were found to be significantly regulated upon exposure to IL-3, HSV-1 or IL-3 and HSV-1. These were receptors involved in chemotaxis, antigen uptake, activation and maturation, migration, apoptosis, cytotoxicity and costimulation. Infectious and ultraviolet-inactivated HSV-1 did not differentially affect surface receptor regulation, consistent with the lack of productive virus infection in PDC, which was confirmed by HSV-1 real-time polymerase chain reaction and experiments involving autofluorescing HSV-1 particles. Viral entry was mediated at least in part by endocytosis. Time-course experiments provided evidence of a co-ordinated regulation of PDC surface markers, which play a specific role in different aspects of PDC function such as attraction to inflamed tissue, antigen recognition and subsequent migration to secondary lymphatic tissue. This knowledge can be used to investigate PDC surface receptor functions in interactions with other cells of the innate and adaptive immune system, particularly natural killer cells and cytotoxic T lymphocytes.