Control of Murine Cytomegalovirus Infection by γδ T Cells

Sell, Sabrina; Dietz, Monika; Schneider, Andreá; Holtappels, Rafaela; Mach, Michael; Winkler, Thomas

doi:10.1371/journal.ppat.1004481

Cited by 67 publications

(69 citation statements)

References 48 publications

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“…110 During secondary infection, cells proliferate and resolve infection Table 1. 111,112 These results suggest that cd T cells are important mediators of protection against CMV and support approaches using adoptive transfer of effector/memory cd T cells or targeting cd T cells in future CMV vaccine trials. 102 Several studies in mice have shown that (1) cd T cells are capable of protecting ab T-cell-deficient mice against CMV-induced pathology and (2) adoptive transfer of CMV-induced cd T cells provides long-term protection in immunodeficient mice.…”

Section: Viral Infectionsmentioning

confidence: 56%

Emerging role of γδ T cells in vaccine‐mediated protection from infectious diseases

2019

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γδ T cells are fascinating cells that bridge the innate and adaptive immune systems. They have long been known to proliferate rapidly following infection; however, the identity of the specific γδ T cell subsets proliferating and the role of this expansion in protection from disease have only been explored more recently. Several recent studies have investigated γδ T‐cell responses to vaccines targeting infections such as Mycobacterium, Plasmodium and influenza, and studies in animal models have provided further insight into the association of these responses with improved clinical outcomes. In this review, we examine the evidence for a role for γδ T cells in vaccine‐induced protection against various bacterial, protozoan and viral infections. We further discuss results suggesting potential mechanisms for protection, including cytokine‐mediated direct and indirect killing of infected cells, and highlight remaining open questions in the field. Finally, building on current efforts to integrate strategies targeting γδ T cells into immunotherapies for cancer, we discuss potential approaches to improve vaccines for infectious diseases by inducing γδ T‐cell activation and cytotoxicity.

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Section: Viral Infectionsmentioning

confidence: 56%

Emerging role of γδ T cells in vaccine‐mediated protection from infectious diseases

2019

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“…The detection of infected cells was facilitated by reporter viruses. For live imaging (MCMV-LUC), an HCMV IE1 promoterdriven luciferase expression cassette was inserted into m157 of a bacterial artificial chromosome (BAC)-cloned MCMV strain Smith genome that also was repaired for MCK2 expression (25). For fluorescent labeling of infected cells (MCMV-GR), an HCMV IE1 promoter-driven cassette was inserted into m157 of MCMV strain K181 by homologous recombination.…”

Section: Methodsmentioning

confidence: 99%

Lymph Node Macrophages Restrict Murine Cytomegalovirus Dissemination

Farrell

Davis-Poynter

Bruce

et al. 2015

J Virol

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Cytomegaloviruses (CMVs) establish chronic infections that spread from a primary entry site to secondary vascular sites, such as the spleen, and then to tertiary shedding sites, such as the salivary glands. Human CMV (HCMV) is difficult to analyze, because its spread precedes clinical presentation. Murine CMV (MCMV) offers a tractable model. It is hypothesized to spread from peripheral sites via vascular endothelial cells and associated monocytes. However, viral luciferase imaging showed footpad-inoculated MCMV first reaching the popliteal lymph nodes (PLN). PLN colonization was rapid and further spread was slow, implying that LN infection can be a significant bottleneck. Most acutely infected PLN cells were CD169 ؉ subcapsular sinus macrophages (SSM). Replication-deficient MCMV also reached them, indicating direct infection. Many SSM expressed viral reporter genes, but few expressed lytic genes. SSM expressed CD11c, and MCMV with a cre-sensitive fluorochrome switch showed switched infected cells in PLN of CD11c-cre mice but yielded little switched virus. SSM depletion with liposomal clodronate or via a CD169-diphtheria toxin receptor transgene shifted infection to ER-TR7 ؉ stromal cells, increased virus production, and accelerated its spread to the spleen. Therefore, MCMV disseminated via LN, and SSM slowed this spread by shielding permissive fibroblasts and poorly supporting viral lytic replication. IMPORTANCE HCMV chronically infects most people, and it can cause congenital disability and harm the immunocompromised. A major goal of vaccination is to prevent systemic infection. How this is established is unclear. Restriction to humans makes HCMV difficultto analyze. We show that peripheral MCMV infection spreads via lymph nodes. Here, MCMV infected filtering macrophages, which supported virus replication poorly. When these macrophages were depleted, MCMV infected susceptible fibroblasts and spread faster. The capacity of filtering macrophages to limit MCMV spread argued that their infection is an important bottleneck in host colonization and might be a good vaccine target. Human cytomegalovirus (HCMV) chronically infects more than 90% of the world's population. Latent virus is detectable in circulating monocytes; there also may be persistent stromal infection, and infectious virus is shed long term in secretions such as saliva (1). While most infections are asymptomatic, immune control can require substantial resources (2); immunocompromised patients suffer multiorgan disease, and HCMV is a leading cause of congenital disability. Therefore, better control would improve human health. So far, vaccines have failed to prevent infection or reduce long-term viral loads (3). One problem is that early infection events, which are key vaccine targets, remain ill defined. Virus behavior is cell type dependent, so an important unknown is which cell types HCMV infects first when colonizing new hosts.Sporadic, asymptomatic HCMV transmission makes early infection hard to study (1). It is important to recognize, there...

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“…Suggestive evidence indicates that cd T cells are involved in diverse aspects of the host response, including acute and/or chronic inflammation, effective wound healing and the killing of virusinfected, cancerous and stressed cells. [1][2][3][4] In humans, cd T cells respond to chronic viral infections, as suggested by their robust proliferative capacity during EBV reactivation, 5 the upregulation of effector functions during HIV persistence, 6 increased CD69 expression and expansion of d1/d3 T cells in kidney transplant patients with associated CMV latency. 7 In addition, phosphoantigen-expanded human cd T cells upregulated IFN-c and cd T cells killed cells infected with human H1N1 and H5N1 influenza viruses.…”

Section: Introductionmentioning

confidence: 99%

Human γδ T‐cell receptor repertoire is shaped by influenza viruses, age and tissue compartmentalisation

et al. 2019

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Background Although γδ T cells comprise up to 10% of human peripheral blood T cells, questions remain regarding their role in disease states and T‐cell receptor (TCR) clonal expansions. We dissected anti‐viral functions of human γδ T cells towards influenza viruses and defined influenza‐reactive γδ TCRs in the context of γδ‐TCRs across the human lifespan. Methods We performed 51Cr‐killing assay and single‐cell time‐lapse live video microscopy to define mechanisms underlying γδ T‐cell‐mediated killing of influenza‐infected targets. We assessed cytotoxic profiles of γδ T cells in influenza‐infected patients and IFN‐γ production towards influenza‐infected lung epithelial cells. Using single‐cell RT‐PCR, we characterised paired TCRγδ clonotypes for influenza‐reactive γδ T cells in comparison with TCRs from healthy neonates, adults, elderly donors and tissues. Results We provide the first visual evidence of γδ T‐cell‐mediated killing of influenza‐infected targets and show distinct features to those reported for CD8+ T cells. γδ T cells displayed poly‐cytotoxic profiles in influenza‐infected patients and produced IFN‐γ towards influenza‐infected cells. These IFN‐γ‐producing γδ T cells were skewed towards the γ9δ2 TCRs, particularly expressing the public GV9‐TCRγ, capable of pairing with numerous TCR‐δ chains, suggesting their significant role in γδ T‐cell immunity. Neonatal γδ T cells displayed extensive non‐overlapping TCRγδ repertoires, while adults had enriched γ9δ2‐pairings with diverse CDR3γδ regions. Conversely, the elderly showed distinct γδ‐pairings characterised by large clonal expansions, a profile also prominent in adult tissues. Conclusion Human TCRγδ repertoire is shaped by age, tissue compartmentalisation and the individual's history of infection, suggesting that these somewhat enigmatic γδ T cells indeed respond to antigen challenge.

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Control of Murine Cytomegalovirus Infection by γδ T Cells

Cited by 67 publications

References 48 publications

Emerging role of γδ T cells in vaccine‐mediated protection from infectious diseases

Emerging role of γδ T cells in vaccine‐mediated protection from infectious diseases

Lymph Node Macrophages Restrict Murine Cytomegalovirus Dissemination

Human γδ T‐cell receptor repertoire is shaped by influenza viruses, age and tissue compartmentalisation

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