5 research outputs found

    Integrated immunovirological profiling validates plasma SARS-CoV-2 RNA as an early predictor of COVID-19 mortality.

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    peer reviewedDespite advances in COVID-19 management, identifying patients evolving toward death remains challenging. To identify early predictors of mortality within 60 days of symptom onset (DSO), we performed immunovirological assessments on plasma from 279 individuals. On samples collected at DSO11 in a discovery cohort, high severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) viral RNA (vRNA), low receptor binding domain–specific immunoglobulin G and antibody-dependent cellular cytotoxicity, and elevated cytokines and tissue injury markers were strongly associated with mortality, including in patients on mechanical ventilation. A three-variable model of vRNA, with predefined adjustment by age and sex, robustly identified patients with fatal outcome (adjusted hazard ratio for log-transformed vRNA = 3.5). This model remained robust in independent validation and confirmation cohorts. Since plasma vRNA’s predictive accuracy was maintained at earlier time points, its quantitation can help us understand disease heterogeneity and identify patients who may benefit from new therapies

    Persistence of diverse transcriptionally competent viral reservoirs in people living with HIV-1

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    MalgrĂ© les amĂ©liorations significatives apportĂ©es par la thĂ©rapie antirĂ©trovirale Ă  la durĂ©e et Ă  la qualitĂ© de vie des personnes vivant avec le VIH, elle ne permet pas de complĂštement Ă©liminer le virus de l’organisme. La persistance du virus est due Ă  l’existence de rĂ©servoirs viraux, des cellules infectĂ©es de maniĂšre latente par le VIH. Ces rĂ©servoirs nĂ©cessitent un traitement antirĂ©troviral Ă  vie, car le virus rĂ©apparait en cas d’interruption du traitement, signifiant que l’immunitĂ© des cellules T spĂ©cifiques du VIH n’est pas restaurĂ©e. Bien que cela soit thĂ©oriquement possible, seule une fraction de personne vivant avec le VIH, appelĂ©e ContrĂŽleurs Élites, parvient Ă  contrĂŽler le virus en absence de traitement. Pour la majoritĂ© des individus, l’infection par le VIH entraĂźne une Ă©vasion virologique ainsi qu’un Ă©puisement et une altĂ©ration des rĂ©ponses cellulaires spĂ©cifiques au VIH. À ce jour, les stratĂ©gies thĂ©rapeutiques visant Ă  Ă©liminer les rĂ©servoirs viraux ont Ă©chouĂ©, en partie en raison de la prĂ©sence de provirus principalement dĂ©fectifs dans ces rĂ©servoirs. Dans cette thĂšse, nous avons identifiĂ© et caractĂ©risĂ© les provirus dĂ©fectifs latents du VIH pouvant ĂȘtre transcrits et/ou traduits, ainsi que la relation entre ces rĂ©servoirs et les rĂ©ponses immunitaires spĂ©cifique du virus. Dans un premier temps, nous avons montrĂ© que bien que dĂ©fectifs et potentiellement incapable de donner lieu Ă  la rĂ©plication virale, ces provirus peuvent ĂȘtre transcrits et traduits soit par rĂ©activation Ă  l’aide d’agents de rĂ©version de la latence, soit de maniĂšre spontanĂ©e. Ces rĂ©servoirs donnent lieu Ă  plusieurs populations de rĂ©servoirs, en fonction de la prĂ©sence ou de l’absence certains gĂšnes viraux. Nous avons dĂ©terminĂ© que ces diffĂ©rentes populations sont rĂ©gies par le profil gĂ©nomique des cellules infectĂ©es. Les provirus identifiĂ©s Ă©taient trĂšs rarement intacts, mais l’intĂ©gritĂ© du gĂ©nome Ă©tait associĂ©e Ă  la processivitĂ© de la transcription et de la traduction. Dans un second objectif, nous avons caractĂ©risĂ© les rĂ©ponses T CD4+ et CD8+ spĂ©cifiques du VIH avant et aprĂšs le dĂ©but du traitement antirĂ©troviral. Nous avons observĂ© que les rĂ©ponses T CD4+ spĂ©cifiques Ă©taient comparables pendant l’infection chronique et aprĂšs le traitement. En revanche, les rĂ©ponses T CD8+ diminuaient considĂ©rablement aprĂšs l’initiation de la thĂ©rapie antirĂ©trovirale. Nous avons Ă©galement constatĂ© que la taille du rĂ©servoir traductionnellement actif pendant le traitement antirĂ©troviral Ă©tait nĂ©gativement associĂ©e aux rĂ©ponses T CD8+ spĂ©cifiques avant le dĂ©but de la thĂ©rapie, tandis que le rĂ©servoir incapable de traduire les protĂ©ines du VIH subsistait. Ces observations mettent en Ă©vidence le rĂŽle des cellules T CD8+ dans le contrĂŽle de l’infection par le VIH, comme nous l’avons observĂ© chez les ContrĂŽleurs Élites. Nos travaux contribuent Ă  une meilleure comprĂ©hension des rĂ©servoirs viraux du VIH, qui pourraient potentiellement ĂȘtre impliquĂ©s dans l’inflammation chronique et la dysfonction immunitaire associĂ© Ă  la pathogĂ©nĂšse du VIH.Despite the significant improvement brought by antiretroviral therapy in the duration and quality of life for people living with HIV, it does not completely eliminate the virus from the body. The persistence of the virus is due to the existence of viral reservoirs, which are cells latently infected with HIV. These reservoirs require lifelong antiretroviral treatment because of the viral rebound reoccurring in case of treatment interruption. This suggests that HIV-specific T cell immunity is not restored. Although theoretically possible, only a fraction of people living with HIV, known as Elite Controllers, are able to control the virus in the absence of treatment. For the majority of individuals, HIV infection leads to virologic escape, as well as exhaustion and altered cellular responses to HIV. To date, therapeutic strategies aimed at eliminating viral reservoirs have failed, partly due to the presence of predominantly defective proviruses in these reservoirs. In this thesis, we have identified and characterized latent defective proviruses of HIV that can be transcribed and/or translated. We also have characterized the relationship between these reservoirs and the specific immune responses to the virus. Firstly, we have shown that although defective and potentially replication-incompetent, these proviruses can be transcribed and translated either through reactivation using latency reversal agents or spontaneously. These reservoirs give rise to several populations of reservoirs, depending on the presence or absence of certain viral genes. We have determined that these different populations are governed by the genomic profile of infected cells. The identified proviruses were rarely intact, and genome integrity was associated with the processivity of transcription and translation. Then, we characterized the specific CD4+ and CD8+ T cell responses to HIV before and after the initiation of antiretroviral treatment. We observed that specific CD4+ T cell responses were comparable during chronic infection and after treatment. However, CD8+ T cell responses decreased significantly after the initiation of antiretroviral therapy. We also found that the size of the translationally active reservoir during antiretroviral treatment was negatively associated with the specific CD8+ T cell responses prior to treatment initiation, while the translation-incompetent cells persisted. These observations highlight the role of CD8+ T cells in the control of HIV infection, as observed in Elite Controllers. Our work contributes to a better understanding of HIV viral reservoirs, which could potentially be involved in chronic inflammation and immune dysfunction associated with HIV pathogenesis

    An extended SARS-CoV-2 mRNA vaccine prime-boost interval enhances B cell immunity with limited impact on T cells

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    Summary: Spacing the first two doses of SARS-CoV-2 mRNA vaccines beyond 3–4 weeks raised initial concerns about vaccine efficacy. While studies have since shown that long-interval regimens induce robust antibody responses, their impact on B and T cell immunity is poorly known. Here, we compare SARS-CoV-2 naive donors B and T cell responses to two mRNA vaccine doses administered 3–4 versus 16 weeks apart. After boost, the longer interval results in a higher magnitude and a more mature phenotype of RBD-specific B cells. While the two geographically distinct cohorts present quantitative and qualitative differences in T cell responses at baseline and after priming, the second dose led to convergent features with overall similar magnitude, phenotype, and function of CD4+ and CD8+ T cell responses at post-boost memory time points. Therefore, compared to standard regimens, a 16-week interval has a favorable impact on the B cell compartment but minimally affects T cell immunity

    Sustained IFN signaling is associated with delayed development of SARS-CoV-2-specific immunity

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    Abstract Plasma RNAemia, delayed antibody responses and inflammation predict COVID-19 outcomes, but the mechanisms underlying these immunovirological patterns are poorly understood. We profile 782 longitudinal plasma samples from 318 hospitalized patients with COVID-19. Integrated analysis using k-means reveals four patient clusters in a discovery cohort: mechanically ventilated critically-ill cases are subdivided into good prognosis and high-fatality clusters (reproduced in a validation cohort), while non-critical survivors segregate into high and low early antibody responders. Only the high-fatality cluster is enriched for transcriptomic signatures associated with COVID-19 severity, and each cluster has distinct RBD-specific antibody elicitation kinetics. Both critical and non-critical clusters with delayed antibody responses exhibit sustained IFN signatures, which negatively correlate with contemporaneous RBD-specific IgG levels and absolute SARS-CoV-2-specific B and CD4+ T cell frequencies. These data suggest that the “Interferon paradox” previously described in murine LCMV models is operative in COVID-19, with excessive IFN signaling delaying development of adaptive virus-specific immunity
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