Antitumor and antibacterial properties of virally encoded cationic sequences.

Objective: The objective of this study was to test our Viral Quinta Columna Strategy (VQCS), a new biological hypothesis predicting that specific multifunctional virally encoded cationic domains may have the capacity to penetrate human cells and interact with PP2A proteins to deregulate important human intracellular pathways, and may display LL37 cathelicidin-like antagonistic effects against multiple pathogens such as bacteria or viruses. Methods: We comparatively analyzed the host defense properties of adenodiaphorins and of some specific cationic sequences encoded by different viruses using two distinct biological models: U87G, a well-characterized cell tumor model; and a group B Streptococcus agalactiae NEM316 ΔdltA, highly sensitive to LL37 cathelicidin. Results: We found that the adenovirus type 2 E4orf4 is a cell-permeable protein containing a new E4orf464-95 protein transduction domain, named large adenodiaphorin or LadD64-95. Interestingly, the host defense LL37 peptide is the unique cathelicidin in humans. In this context, we also demonstrated that similarly to LL37 LadD64-95, several virally encoded cationic sequences including the C-terminus HIV-1 89.6 Vpr77-92, shorter adenodiaphorins AdD67-84/AdD/69-84/AdD69-83, as well as HIV-2 Tat67-90 and JC polyomavirus small t115-134, displayed similar toxicity against Gram-positive S. agalactiae NEM316 ΔdltA strain. Finally, LadD64-95, adenodiaphorin AdD67-84, AdD69-84, and LL37 and LL17-32 cathelicidin peptides also inhibited the survival of human U87G glioblastoma cells. Conclusion: In this study, we demonstrated that specific cationic sequences encoded by four different viruses displayed antibacterial activities against S. agalactiae NEM316 ΔdltA strain. In addition, HIV-1 Vpr71-92 and adenovirus 2 E4orf464-95, two cationic penetrating sequences that bind PP2A, inhibited the survival of U87G glioblastoma cells. These results illustrate the host defense properties of virally encoded sequences and could represent an initial step for future complete validation of the VQCS hypothesis.

Osteopontin in the host response to Leishmania amazonensis.

BACKGROUND: Leishmania (L.) spp are intracellular eukaryotic parasites responsible for cutaneous or visceral leishmaniasis, replicating predominantly in macrophages (MF). In C57BL/6 mice virulence with L. amazonensis has been associated with inhibition of Th1 immune responses and an uncontrolled lesion development, whereas DBA/2 mice control any lesion. Parasitic clearance by the MFs requires the activation of proper immune responses. One of the immune related genes expressed in immune cells including MF, codes for osteopontin (OPN). OPN is a secreted glycoprotein, acting as an immune regulator. Its implication in promoting Th1 immunity in response to infectious microorganisms and its known protective effect against viral and bacterial infections via activation of the immune response, render OPN a molecule of interest in the study of the host response to L. amazonensis. RESULTS: We examined the host response to L. amazonensis of opn mutant and wild type C57BL/6 mice. Bone marrow derived MFs were infected with the parasites in vitro, and opn mutant and wild type mice were inoculated in vivo by intradermal injection in the ears. The DBA/2 strain known to control L. amazonensis infection was also used for comparison. Our data indicate that the parasites increased opn gene expression and OPN protein while parasitic proliferation was contained in the presence of OPN. In the presence of parasites the expression of inflammation-related transcripts was inhibited. Interleukin-1-beta (IL-1ß), and transcripts of the NLR-family (NLRC4, NLRP3) were down regulated after L. amazonensis infection. In the absence of OPN, the inhibition by the parasites of IL-1ß transcripts was less efficient and a pyroptosis-like cell phenotype was detected in vitro, suggesting a central role of OPN in the host-response to L. amazonensis. Similarly, in vivo, in the absence of OPN, while the clinical inflammatory phenotype is more severe, an increase of these transcripts was observed. CONCLUSIONS: L. amazonensis infection induces opn gene expression and protein, which in turn participates in shaping the host response to the parasites, seemingly by decreasing the activation of inflammation. OPN, further evaluated as a target for Leishmaniasis control represents an additional interest in improving vaccination strategies against the parasites.

Quorum sensing contributes to activated IgM-secreting B cell homeostasis.

Maintenance of plasma IgM levels is critical for immune system function and homeostasis in humans and mice. However, the mechanisms that control homeostasis of the activated IgM-secreting B cells are unknown. After adoptive transfer into immune-deficient hosts, B lymphocytes expand poorly, but fully reconstitute the pool of natural IgM-secreting cells and circulating IgM levels. By using sequential cell transfers and B cell populations from several mutant mice, we were able to identify novel mechanisms regulating the size of the IgM-secreting B cell pool. Contrary to previous mechanisms described regulating homeostasis, which involve competition for the same niche by cells having overlapping survival requirements, homeostasis of the innate IgM-secreting B cell pool is also achieved when B cell populations are able to monitor the number of activated B cells by detecting their secreted products. Notably, B cell populations are able to assess the density of activated B cells by sensing their secreted IgG. This process involves the FcγRIIB, a low-affinity IgG receptor that is expressed on B cells and acts as a negative regulator of B cell activation, and its intracellular effector the inositol phosphatase SHIP. As a result of the engagement of this inhibitory pathway, the number of activated IgM-secreting B cells is kept under control. We hypothesize that malfunction of this quorum-sensing mechanism may lead to uncontrolled B cell activation and autoimmunity.

[Targeting of PP2A enzymes by viral proteins and cancer signalling]. / La famille des protéine phosphatases PP2A: une cible stratégique pour les virus et pour la transformation tumorale.

Protein phosphatase 2A (PP2A) is a large family of holoenzymes that comprises 1% of total cellular proteins and accounts for the majority of Ser/Thr phosphatase activity in eukaryotic cells. PP2A proteins are made of a core dimer, composed of a catalytic (C) subunit and a structural (A) subunit, in association with a third variable -regulatory (B) subunit. Although initially considered as a constitutive housekeeping enzyme, PP2A is indeed highly regulated by post-translational modifications of its catalytic subunit or by the identity of a regulatory type B subunit, which determines substrate specificity, subcellular localization and enzymatic activity of a defined holoenzyme. During the two last decades, multiple studies of structural and functional regulation of PP2A holoenzymes by viral proteins led to the identification of critical pathways for both viral biology and tumorigenesis. To date a dozen of different viruses (ADN/ARN or retrovirus) have been identified that encode viral proteins associated to PP2A. In this review, we analyze a biological strategy, used by various viruses based on the targeting of PP2A enzymes by viral proteins, in order to specifically deregulate cellular pathways of their hosts. The impact of such PP2A targeting for biomedical search, and in further therapeutic developments against cancer, will also be discussed.

PP2A targeting by viral proteins: a widespread biological strategy from DNA/RNA tumor viruses to HIV-1.

Protein phosphatase 2A (PP2A) is a large family of holoenzymes that comprises 1% of total cellular proteins and accounts for the majority of Ser/Thr phosphatase activity in eukaryotic cells. Although initially viewed as constitutive housekeeping enzymes, it is now well established that PP2A proteins represent a family of highly and sophistically regulated phosphatases. The past decade, multiple complementary studies have improved our knowledge about structural and functional regulation of PP2A holoenzymes. In this regard, after summarizing major cellular regulation, this review will mainly focus on discussing a particulate biological strategy, used by various viruses, which is based on the targeting of PP2A enzymes by viral proteins in order to specifically deregulate, for their own benefit, cellular pathways of their hosts. The impact of such PP2A targeting for research in human diseases, and in further therapeutic developments, is also discussed.

PP2A1 binding, cell transducing and apoptotic properties of Vpr(77-92): a new functional domain of HIV-1 Vpr proteins.

BACKGROUND: The hallmark of HIV-1 pathogenesis is the progressive CD4(+) T cell depletion and high propensity of CD4(+) T cells to apoptosis. HIV-1 viral protein R (Vpr) is a major pro-apoptotic gene product. A first Vpr-mediated apoptotic mechanism that requires a physical interaction of HIV-1 Vpr(71-82) mitochondriotoxic domain containing the conserved sequence (71-)HFRIGCRHSRIG(-82) with the Adenine Nucleotide Translocator (ANT) has been characterized. The family of Ser/Thr protein phosphatase PP2A interacts with several viral proteins to regulate cell growth and apoptotic pathways. Previous studies based on yeast two hybrid assays and mutational experiments indicated that PP2A(1) is involved in the induction of G2 arrest by HIV-1 Vpr. PRINCIPAL FINDINGS: Experiments combining pull-down, cell penetration and apoptosis analyses in distinct human cells indicate that the PP2A(1) binding sequence from Vpr(77-92) is a new cell penetrating apoptotic sequence. We also found that the I84P mutation or the IIQ/VTR(83-85) and T89A substitutions in the Vpr(77-92) sequence prevent PP2A(1) binding, cell penetration and apoptosis. In addition the double R77A and R80A mutation known to inactivate the mitochondriotoxic Vpr(71-82) domain, has no effect on the biological properties of the Vpr(77-92) domain. CONCLUSION: Together our data provide evidence for the first time that the Vpr(77-92) sequence delineates a biological active domain of Vpr with PP2A(1) binding and pro-apoptotic capacities and, it is conceivable that this cell penetrating sequence may account for the Vpr internalization in uninfected cells. Finally, our data also implicate the existence of two partially overlapping pro-apoptotic domains in the Vpr C-terminal part, a redundancy that represents a new approach to address the question of biological relevance of HIV-1 Vpr. In this context, future studies will be required to determine the functional relevance of the Vpr(77-92) domain in full length Vpr protein and also in entire HIV provirus.

Identification and biochemical characterization of human plasma soluble IL-7R: lower concentrations in HIV-1-infected patients.

The IL-7R alpha-chain and the common gamma-chain (gamma(c)) are both components of IL-7R. Human plasma harbors soluble forms of IL-7R (sIL-7Ralpha and sgamma(c)) that are detected and assayed by Western blotting, showing that the levels of sIL-7Ralpha are higher than the levels of sgamma(c) (47.5 ng/ml and 1.5 ng/ml, respectively). Gel electrophoresis and tandem mass spectrometry used to analyze deglycosylated, affinity-purified protein showed that sIL-7Ralpha is generated through differentially spliced mRNA, not by membrane receptor shedding. Plasma sIL-7Ralpha and sgamma(c) are present as heterocomplexes and sgamma(c) was found to be mainly associated with sIL-7Ralpha. The affinities of two IL-7 binding sites (K(d) = 35 +/- 8 pM and K(d) = 3 +/- 1 nM) were similar to that of the membrane receptor, suggesting that the sIL-7Ralpha/sgamma(c) complex retains high affinity for IL-7. sIL-7Ralpha mRNA is constitutively present among peripheral T lymphocytes and is down-modulated in vitro by IL-7. Chronically HIV-1-infected patients (n = 20) showed no significant (p > 0.714) variation in sgamma(c) levels and a significant (p < 0.0014) 2-fold decrease in plasma sIL-7Ralpha levels compared with those in control healthy individuals. Plasma IL-7 and sIL-7Ralpha levels did not show any obvious relationship.

Human IL-Rbeta chains form IL-2 binding homodimers.

Two types of functional interleukin-2 receptor (IL-2Ralpha/IL-2Rbeta/gammac and IL-2Rbeta/gammac) have already been characterized in humans. Here we describe a new form consisting of IL-2Rbeta/beta homodimers that assemble spontaneously in the absence of gammac. Co-transfection of COS-7 cells with constructs expressing IL-2Rbeta chains tagged with either HA or MYC sequences results in the formation of IL-2Rbeta:HA/IL-2Rbeta:MYC complexes detectable by coimmunoprecipitation. The formation of these IL-2Rbeta:HA/IL-2Rbeta:MYC dimers is also observed in the absence of IL-2. Moreover, in COS cells expressing chimeras of IL-2Rbeta fused to fluorescence reporters such as IL-2Rbeta:ECFP and IL-2Rbeta:EYFP, we also observed specific FRET at the surface of living cells, as expected for dimer formation. Transiently transfected COS-7 cells expressing IL-2Rbeta bind 125I-labeled IL-2 (homodimers, Kd = 1nM) as cells expressing both IL-2Rbeta and gammac chains (heterodimers, Kd = 1 nM). IL-2Rbeta/IL-2Rbeta could represent either a decoy receptor or a new form of IL-2R involved in signaling when gammac expression is low.

Preserved central memory and activated effector memory CD4+ T-cell subsets in human immunodeficiency virus controllers: an ANRS EP36 study.

Human immunodeficiency virus (HIV) controllers are rare individuals who spontaneously control HIV type 1 replication for 10 years or more in the absence of antiretroviral treatment. In the present study, HIV controllers (n = 11) maintained potent HIV-specific CD4 responses in spite of very low antigenic loads. Their CD4+ central memory T (T(CM)) cells were characterized by near-normal numbers and preserved interleukin-2 (IL-2) secretion in response to HIV antigens and uniformly high expression of the survival receptor IL-7 receptor alpha (IL-7Ralpha). Controllers expressed CCR7 at higher levels than uninfected controls, suggesting differences in T(CM)-cell homing patterns. CD4+ effector memory T (T(EM))-cell responses were polyfunctional in HIV controllers, while IL-2 secretion was lost in viremic patients. Cytokine production was three times higher in controllers than in treated patients with undetectable viral loads, suggesting an intrinsically more efficient response in the former group. The total CD4+ T(EM)-cell pool underwent immune activation in controllers, as indicated by increased HLA-DR expression, decreased IL-7Ralpha expression, a bias towards gamma interferon production upon polyclonal stimulation, and increased macrophage inflammatory protein 1beta secretion associated with chronic CCR5 down-regulation. Thus, HIV controllers showed a preserved CD4+ T(CM)-cell compartment and signs of potent functional activation in the CD4+ T(EM)-cell compartment. While controllers did not show the generalized immune activation pattern associated with disease progression, they had signs of immune activation restricted to the effector compartment. These findings suggest the induction of an efficient, nondetrimental type of immune activation in patients who spontaneously control HIV.

The correlation between levels of IL-7Ralpha expression and responsiveness to IL-7 is lost in CD4 lymphocytes from HIV-infected patients.

Measurements of Bcl-2 and CD25 expression suggested that IL-7R function is modified in CD4 lymphocytes of untreated viraemic patients. The extent of IL-7R function restoration post-HAART was analysed. A positive linear relationship was demonstrated between IL-7Ralpha expression and the magnitude of IL-7-induced responses in healthy individuals, whereas this relationship is lost in HIV-infected patients, suggesting that viraemic patients suffer a receptor signaling transduction defect in IL-7R function. IL-7 responsiveness is only partly restored by HAART.

Regulatory dysfunction of the interleukin-7 receptor in CD4 and CD8 lymphocytes from HIV-infected patients--effects of antiretroviral therapy.

Despite an increase in plasma IL-7 levels, the CD4 T-cell pool decrease progressively in HIV-infected patients. Here we report on our tests to check the hypothesis that defects in the IL-7 receptor system might be involved in this phenomenon. The cell surface expression of CD127 was measured ex vivo in CD4 and CD8 T lymphocytes drawn from 3 groups of HIV patients. IL-7 function was also followed in vitro by measuring IL-7-driven T-cell proliferation, the induction of the CD25 activation marker, and overexpression of the antiapoptotic molecule Bcl-2. Untreated viremic patients showed a slight but significant decrease in CD127 expression on the surface of their CD4 lymphocytes. By contrast, CD127 expression was substantially altered on the surface of CD8 T lymphocytes taken from untreated viremic patients. IL-7-induced overexpression of the antiapoptotic molecule Bcl-2 was dramatically altered in viremic patients, whereas IL-7-dependent CD25 induction and T-cell proliferation were reduced. Highly active antiretroviral therapy partially corrected these defects in patients with an undetectable viral load and CD4 counts of more than 400 cells/microL. The effects of HAART were less pronounced in patients with undetectable VL but low CD4 counts (<250 cells/microL). The IL-7 receptor is dysfunctional in the CD4 and CD8 lymphocytes of HIV-infected patients. This may be due to abnormal activation of the immune system in HIV-infected patients and may contribute to the reduced CD4 count and the altered function of the CD8 compartment.

Anti-retroviral therapy in HIV-infected patients: in vitro effects of AZT and saquinavir on the response of CD4 and CD8 lymphocytes to interleukin-7.

IL-7 is a crucial cytokine regulating lymphopoiesis and peripheral T lymphocyte homeostasis. Plasma IL-7 levels increase during HIV infection and, although antiretroviral therapy (ARV therapy) decreases these levels, they fail to return to normal. Immune reconstitution in most ARV-treated patients is only partial. We tested the possibility that the IL-7R system might be affected by ARV drugs. The effects of the antireverse transcriptase AZT and the anti-protease saquinavir on CD3- and CD3+CD28-induced T lymphocyte stimulation, in the presence (or absence) of IL-7, were studied in vitro. Small amounts of the drugs did not interfere with the capacity of IL-7 to stimulate T cell proliferation, but higher concentrations significantly decreased IL-7-induced T cell proliferation both in cells from HIV-infected patients and in cells from healthy donors. IL-7 is known to down-modulate its own receptor on the surface of CD4 and CD8 T lymphocytes in vitro. In CD4 lymphocytes from healthy donors or HIV-infected patients, neither AZT, nor saquinavir, nor a combination of the two, interfered with this property. In contrast, AZT + saquinavir worsened the IL-7-induced down-regulation of CD127 expression by CD8 T cells from HIV-infected patients, while no such effect was observed with CD8 T cells from healthy donors. Our data suggest that, under certain conditions, antiretroviral therapy could interfere with the expression and function of the IL-7/IL-7R system, and more particularly it may affect the CD8-lymphocyte compartment of HIV-infected patients.

IL-7 and Flt-3L plasma levels are increased during highly active antiretroviral therapy-associated IL-2 therapy.

IL-2 is used in conjunction with highly active antiretroviral therapy to increase the CD4 cell count in HIV-positive patients. The mechanisms involved remain ill-defined. Here we show that during the first cycle of IL-2 therapy, IL-7 and Flt-3L plasma levels are increased, whereas levels of stem cell factor are unchanged. This supports the hypothesis that aside from stimulating CD4 T cells IL-2 may also indirectly affect lymphocyte production through the stimulation of lymphopoietic cytokines.

HIV infection: pre-highly active antiretroviral therapy IL-7 plasma levels correlate with long-term CD4 cell count increase after treatment.

Highly active antiretroviral therapy (HAART) in HIV patients generally increases the CD4 cell count, but the level of CD4 cell restoration remains very heterogeneous. IL-7 is the main cytokine controlling the size of the T-cell pool. We assessed the hypothesis that pre-HAART IL-7 plasma levels may affect CD4 cell restoration after treatment. A positive correlation was found in a cohort of 18 patients between pre-HAART IL-7 plasma levels and CD4 cell increases after 20 +/- 7.8 months of HAART.

The levels and patterns of cytokines produced by CD4 T lymphocytes of BALB/c mice infected with Leishmania major by inoculation into the ear dermis depend on the infectiousness and size of the inoculum.

The production of cytokines by CD4 lymph node T lymphocytes derived from BALB/c mice recently infected in the ear dermis with high (10(6) parasites) or low (10(3) parasites) doses of Leishmania major metacyclic promastigotes (MP) was examined over a 3-week period following inoculation. Results were compared with those obtained when mice were injected with less infectious parasite populations, namely, stationary-phase or log-phase promastigotes (LP). Cells were purified 16 h and 3, 8, and 19 days after inoculation, and the amounts of gamma interferon (IFN-gamma) and interleukin-4 (IL-4) released in response to LACK (Leishmania homolog of receptors for activated C kinase) or total L. major antigens were assessed. We found that LACK-reactive T cells from mice inoculated with a high dose of parasites first produced IFN-gamma and later on IL-4; the level of IFN-gamma produced early by these cells was dependent upon the stage of the promastigotes inoculated, the highest level being reached with cells recovered from mice inoculated with the least infectious parasites, LP; sequential production of IFN-gamma and then of IL-4 also characterized L. major antigen-reactive CD4 T cells, suggesting that the early production of IFN-gamma does not impede the subsequent rise of IL-4 and finally the expansion of the parasites; after low-dose inoculation of MP, cutaneous lesions developed with kinetics similar to that of lesions induced after inoculation of 10(6) LP, but in this case CD4 T lymphocytes did not release IFN-gamma or IL-4 in the presence of LACK and neither cytokine was produced in response to L. major antigens before the onset of lesion signs. These results suggest the existence of a discreet phase in terms of CD4 T-cell reactivity for at least the first 8 days following inoculation, a time period during which parasites are able to grow moderately. In conclusion, the levels and profiles of cytokines produced by Leishmania-specific CD4 T lymphocytes clearly depend on both the stage of differentiation and number of parasites used for inoculation.

Effect of intragastric and intraperitoneal immunisation with attenuated and wild-type LACK-expressing Listeria monocytogenes on control of murine Leishmania major infection.

Stable chromosomal constructs of attenuated DeltaactA and wild-type Listeria monocytogenes expressing the Leishmania major protein LACK were tested as live vaccine vectors in the Th2-orientated chronic L. major murine infection model. These vectors, either by intraperitoneal (i.p.) or intragastric (i.g.) route, were able to induce a strong CD4 Th1 immune response that was correlated with slower parasite growth in the infected footpad. Significant protection against L. major infection was observed in BALB/c mice, ranging from delay in the lesion onset to full protection in 80% of the challenged animals, depending on the size of the parasite inoculum challenge. The i.g. route gave clinically higher protection level than the i.p. route. Both bacterial vectors were as efficient, suggesting that the extent of in vivo bacterial dissemination and multiplication did not seem to be a key parameter for induction of an efficient protective immune response.