TLR7 enables cross-presentation by multiple dendritic cell subsets through a type I IFN-dependent pathway

Oh, Jason Z.; Kurche, Jonathan S.; Burchill, Matthew A.; Kedl, Ross M.

doi:10.1182/blood-2011-04-348839

Cited by 94 publications

(98 citation statements)

References 50 publications

(65 reference statements)

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“…For cross-priming CD8 + T cell responses, attention has been focused on introducing Ags to CD8a + DCs, or equivalent cells in humans, through targeting cell surface receptors, such as CD205 (54)(55)(56)(57). Other investigators are conjugating Ags directly to TLR ligands that target these same cells (58)(59)(60). However, we showed that through exposure to different stimuli, including from NKT cells, different DC subsets can become involved.…”

Section: Cd8amentioning

confidence: 88%

Activated NKT Cells Can Condition Different Splenic Dendritic Cell Subsets To Respond More Effectively to TLR Engagement and Enhance Cross-Priming

Osmond

Farrand

Painter

et al. 2015

The Journal of Immunology

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The function of dendritic cells (DCs) can be modulated through multiple signals, including recognition of pathogen-associated molecular patterns, as well as signals provided by rapidly activated leukocytes in the local environment, such as innate-like T cells. In this article, we addressed the possibility that the roles of different murine DC subsets in cross-priming CD8+ T cells can change with the nature and timing of activatory stimuli. We show that CD8α+ DCs play a critical role in cross-priming CD8+ T cell responses to circulating proteins that enter the spleen in close temporal association with ligands for TLRs and/or compounds that activate NKT cells. However, if NKT cells are activated first, then CD8α− DCs become conditioned to respond more vigorously to TLR ligation, and if triggered directly, these cells can also contribute to priming of CD8+ T cell responses. In fact, the initial activation of NKT cells can condition multiple DC subsets to respond more effectively to TLR ligation, with plasmacytoid DCs making more IFN-α and both CD8α+ and CD8α− DCs manufacturing more IL-12. These results suggest that different DC subsets can contribute to T cell priming if provided appropriately phased activatory stimuli, an observation that could be factored into the design of more effective vaccines.

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Section: Cd8amentioning

confidence: 88%

Activated NKT Cells Can Condition Different Splenic Dendritic Cell Subsets To Respond More Effectively to TLR Engagement and Enhance Cross-Priming

Osmond

Farrand

Painter

et al. 2015

The Journal of Immunology

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“…Conversely, several studies suggest that multiple DC subsets are required to induce optimal T-cell immunity. 73,74 These and other studies also describe a dependency on type I IFN in raising efficient immune responses, which can be produced by various cell types such as pDCs, myeloid DCs, monocytes, or stromal cells. [75][76][77][78] Together with the controversy over which DC subset may or may not present the best target, this argues against targeting vaccines to single APC subsets and justifies the question: "Targeting DCs-why bother?…”

Section: Codelivery Of Antigens and Adjuvants By Suitable Vaccine Carmentioning

confidence: 94%

Targeting dendritic cells—why bother?

Kreutz

Tacken

Figdor

2013

Blood

118

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Vaccination is among the most efficient forms of immunotherapy. Although sometimes inducing lifelong protective B-cell responses, T-cell–mediated immunity remains challenging. Targeting antigen to dendritic cells (DCs) is an extensively explored concept aimed at improving cellular immunity. The identification of various DC subsets with distinct functional characteristics now allows for the fine-tuning of targeting strategies. Although some of these DC subsets are regarded as superior for (cross-) priming of naive T cells, controversies still remain about which subset represents the best target for immunotherapy. Because targeting the antigen alone may not be sufficient to obtain effective T-cell responses, delivery systems have been developed to target multiple vaccine components to DCs. In this Perspective, we discuss the pros and cons of targeting DCs: if targeting is beneficial at all and which vaccine vehicles and immunization routes represent promising strategies to reach and activate DCs.

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“…Type I IFNs are induced primarily during viral infections and have been shown to promote NK cell, Th1 cell, and, in particular, CTL responses through stimulation of Ag cross-priming (71) and DC maturation (72)(73)(74)(75). It has been reported that type I IFNs are crucial factors regulating the accumulation of DCs in lymph nodes and their maturation into activated APCs during a TLR7-driven response (76). They are also required for intratumoral accumulation of the CD8a + cDC subset (48) and for their ability to develop antitumoral immunity (75) + T cell responses to cell-associated Ags.…”

Section: Discussionmentioning

confidence: 99%

TLR7 Triggering with Polyuridylic Acid Promotes Cross-Presentation in CD8α+ Conventional Dendritic Cells by Enhancing Antigen Preservation and MHC Class I Antigen Permanence on the Dendritic Cell Surface

Crespo

Zacca

Núñez

et al. 2013

The Journal of Immunology

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ssRNA can interact with dendritic cells (DCs) through binding to TLR7, inducing secretion of proinflammatory cytokines and type I IFN. Triggering TLR7 enhances cross-priming of CD8+ T cells, which requires cross-presentation of exogenous Ag to DCs. However, how TLR triggering can affect Ag cross-presentation is still not clear. Using OVA as an Ag model, we observed that stimulation of TLR7 in DCs by polyuridylic acid (polyU), a synthetic ssRNA analog, generates a strong specific cytotoxic response in C57BL/6 mice. PolyU stimulate CD8α+ DCs to cross-prime naive CD8+ T cells in a type I IFN–dependent fashion. This enhanced cross-priming is accompanied by a higher density of OVA256-264/H-2Kb complexes on CD8α+ DCs treated with polyU, as well as by upregulation of costimulatory molecules and increased secretion of proinflammatory cytokines by DCs. Cross-priming of CD8+ T cells by DCs treated with polyU requires proteasome and Ag translocation to cytosol through the Sec61 channel in DCs. The observed enhancement in OVA cross-presentation with polyU in DCs could be mediated by a limited Ag degradation in endophagosomal compartments and a higher permanence of OVA peptide/MHC class I complexes on DCs. These observations clearly reveal that key steps of Ag processing for cross-presentation can be modulated by TLR ligands, opening new avenues for understanding their mechanisms as adjuvants of the immune response.

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TLR7 enables cross-presentation by multiple dendritic cell subsets through a type I IFN-dependent pathway

Cited by 94 publications

References 50 publications

Activated NKT Cells Can Condition Different Splenic Dendritic Cell Subsets To Respond More Effectively to TLR Engagement and Enhance Cross-Priming

Activated NKT Cells Can Condition Different Splenic Dendritic Cell Subsets To Respond More Effectively to TLR Engagement and Enhance Cross-Priming

Targeting dendritic cells—why bother?

TLR7 Triggering with Polyuridylic Acid Promotes Cross-Presentation in CD8α+ Conventional Dendritic Cells by Enhancing Antigen Preservation and MHC Class I Antigen Permanence on the Dendritic Cell Surface

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