CD4+CCR6+ T cells dominate the BCG-induced transcriptional signature

Singhania, Akul; Dubelko, Paige; Kuan, Rebecca; Chronister, William D.; Muskat, Kaylin; Das, Jyotirmoy; Phillips, Elizabeth; Mallal, S.; Seumois, Grégory; Vijayanand, Pandurangan; Sette, Alessandro; Lerm, Maria; Peters, Bjoern; Arlehamn, Cecilia Lindestam

doi:10.1016/j.ebiom.2021.103746

Cited by 14 publications

(7 citation statements)

References 75 publications

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“…A limitation of this pilot study is the lack of validation of the DNAm findings on a transcriptional level. Since epigenetic alterations do not necessarily affect basal transcription levels, such studies need to address the transcriptome comparing epigenetically naïve and rewired samples with and without the exposure to a relevant stimulus [ 60 , 61 ]. Only then, when the need for an activation of defense systems seems apparent can differences be detected at the transcriptome level.…”

Section: Discussionmentioning

confidence: 99%

Epigenetic rewiring of pathways related to odour perception in immune cells exposed to SARS-CoV-2in vivoandin vitro

et al. 2022

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A majority of SARS-CoV-2 recoverees develop only mild-to-moderate symptoms, while some remain completely asymptomatic. Although viruses, including SARS-CoV-2, may evade host immune responses by epigenetic mechanisms including DNA methylation, little is known about whether these modifications are important in defence against and healthy recovery from COVID-19 in the host. To this end, epigenome-wide DNA methylation patterns from COVID-19 convalescents were compared to uninfected controls from before and after the pandemic. Peripheral blood mononuclear cell (PBMC) DNA was extracted from uninfected controls, COVID-19 convalescents, and symptom-free individuals with SARS-CoV-2-specific T cell-responses, as well as from PBMCs stimulated in vitro with SARS-CoV-2. Subsequently, the Illumina MethylationEPIC 850K array was performed, and statistical/bioinformatic analyses comprised differential DNA methylation, pathway over-representation, and module identification analyses. Differential DNA methylation patterns distinguished COVID-19 convalescents from uninfected controls, with similar results in an experimental SARS-CoV-2 infection model. A SARS-CoV-2-induced module was identified in vivo , comprising 66 genes of which six ( TP53, INS, HSPA4, SP1, ESR1, and FAS ) were present in corresponding in vitro analyses. Over-representation analyses revealed involvement in Wnt, muscarinic acetylcholine receptor signalling, and gonadotropin-releasing hormone receptor pathways. Furthermore, numerous differentially methylated and network genes from both settings interacted with the SARS-CoV-2 interactome. Altered DNA methylation patterns of COVID-19 convalescents suggest recovery from mild-to-moderate SARS-CoV-2 infection leaves longstanding epigenetic traces. Both in vitro and in vivo exposure caused epigenetic modulation of pathways thataffect odour perception. Future studies should determine whether this reflects host-induced protective antiviral defense or targeted viral hijacking to evade host defence.

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Section: Discussionmentioning

confidence: 99%

Epigenetic rewiring of pathways related to odour perception in immune cells exposed to SARS-CoV-2in vivoandin vitro

et al. 2022

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“…The Th1* subset contains the majority of Mtb- and NTM-specific T-cells ( 49 , 51 , 52 ), and a lower frequency of this subset could lead to a lack of Mycobacteria-specific responses, as observed in the MACDZ individuals. This hypothesis is strengthened by the previous observation that IGRA+ individuals have an increased frequency of the Th1* subset compared to IGRA- controls ( 49 ) and that this subset mediates BCG-induced CD4 T-cell responses and is increased following vaccination ( 57 ). The underlying cause for the lower frequency of Th1* and Th1 subsets in MACDZ remains to be determined, but could also predispose these individuals to this unusual infection through a failed anti-mycobacterial immune response.…”

Section: Discussionmentioning

confidence: 91%

T-cell deficiency and hyperinflammatory monocyte responses associate with Mycobacterium avium complex lung disease

et al. 2022

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Immunological mechanisms of susceptibility to nontuberculous mycobacterial (NTM) disease are poorly understood. To understand NTM pathogenesis, we evaluated innate and antigen-specific adaptive immune responses to Mycobacterium avium complex (MAC) in asymptomatic individuals with a previous history of MAC lung disease (MACDZ). We hypothesized that Mav-specific immune responses are associated with susceptibility to MAC lung disease. We measured MAC-, NTM-, or MAC/Mtb-specific T-cell responses by cytokine production, expression of surface markers, and analysis of global gene expression in 27 MACDZ individuals and 32 healthy controls. We also analyzed global gene expression in Mycobacterium avium-infected and uninfected peripheral blood monocytes from 17 MACDZ and 17 healthy controls. We were unable to detect increased T-cell responses against MAC-specific reagents in MACDZ compared to controls, while the responses to non-mycobacteria derived antigens were preserved. MACDZ individuals had a lower frequency of Th1 and Th1* T-cell populations. In addition, MACDZ subjects had lower transcriptional responses in PBMCs stimulated with a mycobacterial peptide pool (MTB300). By contrast, global gene expression analysis demonstrated upregulation of proinflammatory pathways in uninfected and M. avium-infected monocytes, i.e. a hyperinflammatory in vitro response, derived from MACDZ subjects compared to controls. Together, these data suggest a novel immunologic defect which underlies MAC pathogenesis and includes concurrent innate and adaptive dysregulation which persists years after completion of treatment.

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“…CD4 + T cells play a critical role in the control of Mycobacterium tuberculosis ( M.tb ) infection 7 , and vaccination with BCG induces antigen-reactive CD4 + T cells in non-human primates 8 and in humans 9 , 10 . Recent efforts to describe M.tb -reactive CD4 + T cells have focused on Th1 and Th17-type cells 11 , as well as a subpopulation of CXCR3 + CCR6 + helper T cells (termed Th1* cells) that are more abundant among TB-sensitized individuals 12 and increase after BCG vaccination of BCG-naïve adults 13 . However, much remains to be learned about these phenotypic and functional subsets of T cells that are induced or boosted by BCG.…”

Section: Introductionmentioning

confidence: 99%

Adolescent BCG revaccination induces a phenotypic shift in CD4+ T cell responses to Mycobacterium tuberculosis

Dintwe,

Ballweber Fleming,

Voillet

et al. 2024

Nat Commun

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A recent clinical trial demonstrated that Bacille Calmette-Guérin (BCG) revaccination of adolescents reduced the risk of sustained infection with Mycobacterium tuberculosis (M.tb). In a companion phase 1b trial, HVTN 602/Aeras A-042, we characterize in-depth the cellular responses to BCG revaccination or to a H4:IC31 vaccine boost to identify T cell subsets that could be responsible for the protection observed. High-dimensional clustering analysis of cells profiled using a 26-color flow cytometric panel show marked increases in five effector memory CD4+ T cell subpopulations (TEM) after BCG revaccination, two of which are highly polyfunctional. CITE-Seq single-cell analysis shows that the activated subsets include an abundant cluster of Th1 cells with migratory potential. Additionally, a small cluster of Th17 TEM cells induced by BCG revaccination expresses high levels of CD103; these may represent recirculating tissue-resident memory cells that could provide pulmonary immune protection. Together, these results identify unique populations of CD4+ T cells with potential to be immune correlates of protection conferred by BCG revaccination.

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CD4+CCR6+ T cells dominate the BCG-induced transcriptional signature

Cited by 14 publications

References 75 publications

Epigenetic rewiring of pathways related to odour perception in immune cells exposed to SARS-CoV-2in vivoandin vitro

Epigenetic rewiring of pathways related to odour perception in immune cells exposed to SARS-CoV-2in vivoandin vitro

T-cell deficiency and hyperinflammatory monocyte responses associate with Mycobacterium avium complex lung disease

Adolescent BCG revaccination induces a phenotypic shift in CD4+ T cell responses to Mycobacterium tuberculosis

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