10 research outputs found

    Infection of plasmacytoid dendritic cells by HIV : mechanism of antibody-mediated inhibition and study of functional modifications

    No full text
    Les cellules dendritiques plasmacytoïdes (pDC) sont infectées par le VIH-1 et la diminution de leur nombre dans la circulation sanguine est corrélée avec la virémie des patients. Au cours de mes travaux de thèse, nous avons montré que les anticorps neutralisants (AcN) spécifiques du VIH-1 inhibent l’infection des pDC par des isolats primaires de VIH-1. Contrairement aux mDC, le mécanisme d’inhibition de l’infection des pDC est indépendant du RFcγII présent à leur surface. En parallèle, nos résultats indiquent que les pDC produisent de l’interféron-α et d’autres cytokines et chimiokines en réponse au VIH-1, même lorsque l’infection des cellules est inhibée par les AcN. Enfin, nous avons observé l’inhibition du transfert en cis et en trans du VIH-1 des pDC aux lymphocytes T CD4 par les AcN.Dans un contexte d’induction d’AcN par vaccination, l’inhibition de la réplication du VIH-1 dans les pDC associé au maintien de la sécrétion de cytokines pro-inflammatoire par ces cellules pourrait favoriser l’élimination du virus et ralentir sa dissémination dans l’organisme.Plasmacytoid dendritic cells (pDC) are able to replicate HIV-1, and the decrease of pDC number in blood is correlated with HIV-1 viremia in patients. During my thesis, we showed that HIV-1-specific neutralizing antibodies (NAb) inhibited the infection of pDC by HIV-1primary isolates. Unlike mDC, the mechanism of inhibition of pDC infection was independent of FcγRII expressed on these cells. In parallel, our results indicated that pDC produce interferon-α and other cytokines and chemokines in response to HIV-1, even when HIV-1 infection of these cells was inhibited by NAb. Finally, we showed that NAb were able to inhibit HIV-1 transfer in cis and trans from pDC to CD4 T cells.In the context of antibodies induction by vaccination, the inhibition of HIV-1 replication in pDC associated with the maintenance of pro-inflammatory cytokines released by these cells may help to eliminate the virus and impede its dissemination in the body

    Infection of plasmacytoid dendritic cells by HIV : mechanism of antibody-mediated inhibition and study of functional modifications

    No full text
    Les cellules dendritiques plasmacytoïdes (pDC) sont infectées par le VIH-1 et la diminution de leur nombre dans la circulation sanguine est corrélée avec la virémie des patients. Au cours de mes travaux de thèse, nous avons montré que les anticorps neutralisants (AcN) spécifiques du VIH-1 inhibent l’infection des pDC par des isolats primaires de VIH-1. Contrairement aux mDC, le mécanisme d’inhibition de l’infection des pDC est indépendant du RFcγII présent à leur surface. En parallèle, nos résultats indiquent que les pDC produisent de l’interféron-α et d’autres cytokines et chimiokines en réponse au VIH-1, même lorsque l’infection des cellules est inhibée par les AcN. Enfin, nous avons observé l’inhibition du transfert en cis et en trans du VIH-1 des pDC aux lymphocytes T CD4 par les AcN.Dans un contexte d’induction d’AcN par vaccination, l’inhibition de la réplication du VIH-1 dans les pDC associé au maintien de la sécrétion de cytokines pro-inflammatoire par ces cellules pourrait favoriser l’élimination du virus et ralentir sa dissémination dans l’organisme.Plasmacytoid dendritic cells (pDC) are able to replicate HIV-1, and the decrease of pDC number in blood is correlated with HIV-1 viremia in patients. During my thesis, we showed that HIV-1-specific neutralizing antibodies (NAb) inhibited the infection of pDC by HIV-1primary isolates. Unlike mDC, the mechanism of inhibition of pDC infection was independent of FcγRII expressed on these cells. In parallel, our results indicated that pDC produce interferon-α and other cytokines and chemokines in response to HIV-1, even when HIV-1 infection of these cells was inhibited by NAb. Finally, we showed that NAb were able to inhibit HIV-1 transfer in cis and trans from pDC to CD4 T cells.In the context of antibodies induction by vaccination, the inhibition of HIV-1 replication in pDC associated with the maintenance of pro-inflammatory cytokines released by these cells may help to eliminate the virus and impede its dissemination in the body

    Infection des cellules dendritiques plasmacytoïdes par le VIH : mécanisme d'inhibition par les anticorps et étude des modifications fonctionnelles

    No full text
    Plasmacytoid dendritic cells (pDC) are able to replicate HIV-1, and the decrease of pDC number in blood is correlated with HIV-1 viremia in patients. During my thesis, we showed that HIV-1-specific neutralizing antibodies (NAb) inhibited the infection of pDC by HIV-1primary isolates. Unlike mDC, the mechanism of inhibition of pDC infection was independent of FcγRII expressed on these cells. In parallel, our results indicated that pDC produce interferon-α and other cytokines and chemokines in response to HIV-1, even when HIV-1 infection of these cells was inhibited by NAb. Finally, we showed that NAb were able to inhibit HIV-1 transfer in cis and trans from pDC to CD4 T cells.In the context of antibodies induction by vaccination, the inhibition of HIV-1 replication in pDC associated with the maintenance of pro-inflammatory cytokines released by these cells may help to eliminate the virus and impede its dissemination in the body.Les cellules dendritiques plasmacytoïdes (pDC) sont infectées par le VIH-1 et la diminution de leur nombre dans la circulation sanguine est corrélée avec la virémie des patients. Au cours de mes travaux de thèse, nous avons montré que les anticorps neutralisants (AcN) spécifiques du VIH-1 inhibent l’infection des pDC par des isolats primaires de VIH-1. Contrairement aux mDC, le mécanisme d’inhibition de l’infection des pDC est indépendant du RFcγII présent à leur surface. En parallèle, nos résultats indiquent que les pDC produisent de l’interféron-α et d’autres cytokines et chimiokines en réponse au VIH-1, même lorsque l’infection des cellules est inhibée par les AcN. Enfin, nous avons observé l’inhibition du transfert en cis et en trans du VIH-1 des pDC aux lymphocytes T CD4 par les AcN.Dans un contexte d’induction d’AcN par vaccination, l’inhibition de la réplication du VIH-1 dans les pDC associé au maintien de la sécrétion de cytokines pro-inflammatoire par ces cellules pourrait favoriser l’élimination du virus et ralentir sa dissémination dans l’organisme

    Infection des cellules dendritiques plasmacytoïdes par le VIH (mécanisme d'inhibition par les anticorps et étude des modifications fonctionnelles)

    No full text
    Les cellules dendritiques plasmacytoïdes (pDC) sont infectées par le VIH-1 et la diminution de leur nombre dans la circulation sanguine est corrélée avec la virémie des patients. Au cours de mes travaux de thèse, nous avons montré que les anticorps neutralisants (AcN) spécifiques du VIH-1 inhibent l infection des pDC par des isolats primaires de VIH-1. Contrairement aux mDC, le mécanisme d inhibition de l infection des pDC est indépendant du RFcgII présent à leur surface. En parallèle, nos résultats indiquent que les pDC produisent de l interféron-a et d autres cytokines et chimiokines en réponse au VIH-1, même lorsque l infection des cellules est inhibée par les AcN. Enfin, nous avons observé l inhibition du transfert en cis et en trans du VIH-1 des pDC aux lymphocytes T CD4 par les AcN.Dans un contexte d induction d AcN par vaccination, l inhibition de la réplication du VIH-1 dans les pDC associé au maintien de la sécrétion de cytokines pro-inflammatoire par ces cellules pourrait favoriser l élimination du virus et ralentir sa dissémination dans l organisme.Plasmacytoid dendritic cells (pDC) are able to replicate HIV-1, and the decrease of pDC number in blood is correlated with HIV-1 viremia in patients. During my thesis, we showed that HIV-1-specific neutralizing antibodies (NAb) inhibited the infection of pDC by HIV-1primary isolates. Unlike mDC, the mechanism of inhibition of pDC infection was independent of FcgRII expressed on these cells. In parallel, our results indicated that pDC produce interferon-a and other cytokines and chemokines in response to HIV-1, even when HIV-1 infection of these cells was inhibited by NAb. Finally, we showed that NAb were able to inhibit HIV-1 transfer in cis and trans from pDC to CD4 T cells.In the context of antibodies induction by vaccination, the inhibition of HIV-1 replication in pDC associated with the maintenance of pro-inflammatory cytokines released by these cells may help to eliminate the virus and impede its dissemination in the body.STRASBOURG-Bib.electronique 063 (674829902) / SudocSudocFranceF

    Dendritic Cell-Lymphocyte Crosstalk Downregulates Host Restriction Factor SAMHD1 and Stimulates HIV-1 Replication in Dendritic Cells

    Get PDF
    Human immunodeficiency virus type 1 (HIV-1) replication in dendritic cells (DCs) is restricted by SAMHD1. This factor is counteracted by the viral protein Vpx; Vpx is found in HIV-2 and simian immunodeficiency virus (SIV) from sooty mangabeys (SIVsm) or from macaques (SIVmac) but is absent from HIV-1. We previously observed that HIV-1 replication in immature DCs is stimulated by cocultivation with primary T and B lymphocytes, suggesting that HIV-1 restriction in DCs may be overcome under coculture conditions. Here, we aimed to decipher the mechanism of SAMHD1-mediated restriction in DC-lymphocyte coculture. We found that coculture with lymphocytes downregulated SAMHD1 expression and was associated with increased HIV-1 replication in DCs. Moreover, in infected DC-T lymphocyte cocultures, DCs acquired maturation status and secreted type 1 interferon (alpha interferon [IFN-α]). The blockade of DC-lymphocyte cross talk by anti-ICAM-1 antibody markedly inhibited the stimulation of HIV-1 replication and prevented the downregulation of SAMHD1 expression in cocultured DCs. These results demonstrate that, in contrast to purified DCs, cross talk with lymphocytes downregulates SAMHD1 expression in DCs, triggering HIV-1 replication and an antiviral immune response. Therefore, HIV-1 replication and immune sensing by DCs should be investigated in more physiologically relevant models of DC/lymphocyte coculture.Fil: Su, Bin. Inserm; FranciaFil: Biedma, Marina Elizabeth. Inserm; Francia. Consejo Nacional de Investigaciones Científicas y Técnicas; ArgentinaFil: Lederle, Alexandre. Inserm; FranciaFil: Peressin, Maryse. Inserm; FranciaFil: Lambotin, Mélanie. Inserm; FranciaFil: Proust, Alizé. Inserm; FranciaFil: Decoville, Thomas. Inserm; FranciaFil: Schmidt, Sylvie. Inserm; FranciaFil: Laumond, Géraldine. Inserm; FranciaFil: Moog, Christiane. Inserm; Franci

    Stimulation of HIV-1 Replication in Immature Dendritic Cells in Contact with Primary CD4 T or B Lymphocytes â–ż

    No full text
    Sexual transmission is the major route of HIV-1 infection worldwide. Dendritic cells (DCs) from the mucosal layers are considered to be the initial targets of HIV-1 and probably play a crucial role in HIV-1 transmission. We investigated the role of cell-to-cell contact between HIV-1-exposed immature DCs and various lymphocyte subsets in the stimulation of HIV-1 replication. We found that HIV-1 replication and production in DCs were substantially enhanced by the coculture of DCs with primary CD4 T or nonpermissive B lymphocytes but not with primary activated CD8 T lymphocytes or human transformed CD4 T lymphocytes. Most of the new virions released by cocultures of HIV-1-exposed immature DCs and primary B lymphocytes expressed the DC-specific marker CD1a and were infectious for both immature DCs and peripheral blood mononuclear cells (PBMCs). Cocultured DCs thus produced large numbers of infectious viral particles under these experimental conditions. The soluble factors present in the supernatants of the cocultures were not sufficient to enhance HIV-1 replication in DCs, for which cell-to-cell contact was required. The neutralizing monoclonal antibody IgG1b12 and polyclonal anti-HIV-1 sera efficiently blocked HIV-1 transfer to CD4 T lymphocytes but did not prevent the increase in viral replication in DCs. Neutralizing antibodies thus proved to be more efficient at blocking HIV-1 transfer than previously thought. Our findings show that HIV-1 exploits DC-lymphocyte cross talk to upregulate replication within the DC reservoir. We provide evidence for a novel mechanism that may facilitate HIV-1 replication and transmission. This mechanism may favor HIV-1 pathogenesis, immune evasion, and persistence

    Toxic-metabolic Risk Factors in Pediatric Pancreatitis

    No full text
    Pancreatitis in children can result from metabolic and toxic risk factors, but the evidence linking these factors is sparse. We review the evidence for association or causality of these risk factors in pancreatitis, discuss management strategies, and their rationale. We conducted a review of the pediatric pancreatitis literature with respect to the following risk factors: hyperlipidemia, hypercalcemia, chronic renal failure, smoking exposure, alcohol, and medications. Areas of additional research were identified. Hypertriglyceridemia of 1000 mg/dL or greater poses an absolute risk for pancreatitis; persistent elevations of calcium are predisposing. Further research is necessary to determine whether end-stage renal disease leads to increased pancreatitis in children similar to adults. It is unknown whether cigarette smoking exposure, which clearly increases risk in adults, also increases risk in children. The role of alcohol in pediatric pancreatitis, whether direct or modifying, needs to be elucidated. The evidence supporting most cases of medication-induced pancreatitis is poor. Drug structure, improper handling of drug by host, and bystander status may be implicated. Other pancreatitis risk factors must be sought in all cases. The quality of evidence supporting causative role of various toxic and metabolic factors in pediatric pancreatitis is variable. Careful phenotyping is essential, including search for other etiologic risk factors. Directed therapy includes correction/removal of any agent identified, and general supportive measures. Further research is necessary to improve our understanding of these pancreatitis risk factors in children

    Identification of driver genes for critical forms of COVID-19 in a deeply phenotyped young patient cohort

    No full text
    International audienceThe etiopathogenesis of critical COVID-19 remains unknown. Indeed given major confounding factors (age and comorbidities), true drivers of this condition have remained elusive. Here, we employ an unprecedented multi-omics analysis, combined with artificial intelligence, in a young patient cohort where major comorbidities have been excluded at the onset. Here, we established a three-tier cohort of individuals younger than 50 years without major comorbidities. These included 47 “critical” (in the ICU under mechanical ventilation) and 25 “non-critical” (in a non-critical care ward) COVID-19 patients as well as 22 healthy individuals. The analyses included whole-genome sequencing, whole-blood RNA sequencing, plasma and blood mononuclear cells proteomics, cytokine profiling and high-throughput immunophenotyping. An ensemble of machine learning, deep learning, quantum annealing and structural causal modeling led to key findings. Critical patients were characterized by exacerbated inflammation, perturbed lymphoid/myeloid compartments, coagulation and viral cell biology. Within a unique gene signature that differentiated critical from non-critical patients, several driver genes promoted critical COVID-19 among which the upregulated metalloprotease ADAM9 was key. This gene signature was supported in a second independent cohort of 81 critical and 73 recovered COVID-19 patients, as were ADAM9 transcripts, soluble form and proteolytic activity. Ex vivo ADAM9 inhibition affected SARS-CoV-2 uptake and replication in human lung epithelial cells. In conclusion, within a young, otherwise healthy, COVID-19 cohort, we provide the landscape of biological perturbations in vivo where a unique gene signature differentiated critical from non-critical patients. The key driver, ADAM9, interfered with SARS-CoV-2 biology. A repositioning strategy for anti-ADAM9 therapeutic is feasible

    Brazilian guidelines on prevention of cardiovascular disease in patients with diabetes: a position statement from the Brazilian Diabetes Society (SBD), the Brazilian Cardiology Society (SBC) and the Brazilian Endocrinology and Metabolism Society (SBEM)

    No full text
    corecore