Natasha Whibley scite author profile

Summary Non-lymphoid tissues (NLTs) harbor a pool of adaptive immune cells with largely unexplored phenotype and development. We used single-cell RNA-seq to characterize 35,000 CD4 + regulatory (Treg) and memory (Tmem) T cells in mouse skin and colon, their respective draining lymph nodes (LNs) and spleen. In these tissues, we identified Treg cell subpopulations with distinct degrees of NLT phenotype. Subpopulation pseudotime ordering and gene kinetics were consistent in recruitment to skin and colon, yet the initial NLT-priming in LNs and the final stages of NLT functional adaptation reflected tissue-specific differences. Predicted kinetics were recapitulated using an in vivo melanoma-induction model, validating key regulators and receptors. Finally, we profiled human blood and NLT Treg and Tmem cells, and identified cross-mammalian conserved tissue signatures. In summary, we describe the relationship between Treg cell heterogeneity and recruitment to NLTs through the combined use of computational prediction and in vivo validation.

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MCPIP1 Endoribonuclease Activity Negatively Regulates Interleukin-17-Mediated Signaling and Inflammation

Garg

et al. 2015

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SUMMARY Interleukin-17 (IL-17) induces pathology in autoimmunity and infections; therefore constraint of this pathway is an essential component of its regulation. We demonstrate that the signaling intermediate MCPIP1 (also termed Regnase-1, encoded by Zc3h12a) is a feedback inhibitor of IL-17 receptor signal transduction. MCPIP1 knockdown enhanced IL-17-mediated signaling, requiring MCPIP1’s endoribonuclease but not deubiquitinase domain. MCPIP1 haploinsufficient mice showed enhanced resistance to disseminated Candida albicans infection, which was reversed in an Il17ra−/− background. Conversely, IL-17-dependent pathology in Zc3h12a+/− mice was exacerbated in both EAE and pulmonary inflammation. MCPIP1 degraded Il6 mRNA directly, but only modestly downregulated the IL-6 promoter. However, MCPIP1 strongly inhibited the Lcn2 promoter by regulating the mRNA stability of Nfkbiz, encoding the IκBζ transcription factor. Unexpectedly, MCPIP1 degraded Il17ra and Il17rc mRNA, independently of the 3’ UTR. The cumulative impact of MCPIP1 on IL-6, IκBζ and possibly IL-17R subunits results in a biologically relevant inhibition of IL-17 signaling.

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Animal Models for Candidiasis

et al. 2014

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Regulatory T cell adaptation in the intestine and skin

2019

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Antibody blockade of IL-17 family cytokines in immunity to acute murine oral mucosal candidiasis

Whibley

Tritto

Traggiai

et al. 2016

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Antibodies targeting IL-17A or its receptor, IL-17RA, are approved to treat psoriasis and are being evaluated for other autoimmune conditions. Conversely, IL-17 signaling is critical for immunity to opportunistic mucosal infections caused by the commensal fungus Candida albicans, as mice and humans lacking the IL-17R experience chronic mucosal candidiasis. IL-17A, IL-17F, and IL-17AF bind the IL-17RA-IL-17RC heterodimeric complex and deliver qualitatively similar signals through the adaptor Act1. Here, we used a mouse model of acute oropharyngeal candidiasis to assess the impact of blocking IL-17 family cytokines compared with specific IL-17 cytokine gene knockout mice. Anti-IL-17A antibodies, which neutralize IL-17A and IL-17AF, caused elevated oral fungal loads, whereas anti-IL-17AF and anti-IL-17F antibodies did not. Notably, there was a cooperative effect of blocking IL-17A, IL-17AF, and IL-17F together. Termination of anti-IL-17A treatment was associated with rapid C. albicans clearance. IL-17F-deficient mice were fully resistant to oropharyngeal candidiasis, consistent with antibody blockade. However, IL-17A-deficient mice had lower fungal burdens than anti-IL-17A-treated mice. Act1-deficient mice were much more susceptible to oropharyngeal candidiasis than anti-IL-17A antibody-treated mice, yet anti-IL-17A and anti-IL-17RA treatment caused equivalent susceptibilities. Based on microarray analyses of the oral mucosa during infection, only a limited number of genes were associated with oropharyngeal candidiasis susceptibility. In sum, we conclude that IL-17A is the main cytokine mediator of immunity in murine oropharyngeal candidiasis, but a cooperative relationship among IL-17A, IL-17AF, and IL-17F exists in vivo. Susceptibility displays the following hierarchy: IL-17RA- or Act1-deficiency > anti-IL-17A + anti-IL-17F antibodies > anti-IL-17A or anti-IL-17RA antibodies > IL-17A deficiency.

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Expansion of Foxp3⁺ T‐cell populations by Candida albicans enhances both Th17‐cell responses and fungal dissemination after intravenous challenge

et al. 2014

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Candida albicans remains the fungus most frequently associated with nosocomial bloodstream infection. In disseminated candidiasis, the role of Foxp3+ regulatory T (Treg) cells remains largely unexplored. Our aims were to characterize Foxp3+ Treg-cell activation in a murine intravenous challenge model of disseminated C. albicans infection, and determine the contribution to disease. Flow cytometric analyses demonstrated that C. albicans infection drove in vivo expansion of a splenic CD4+Foxp3+ population that correlated positively with fungal burden. Depletion from Foxp3hCD2 reporter mice in vivo confirmed that Foxp3+ cells exacerbated fungal burden and inflammatory renal disease. The CD4+Foxp3+ population expanded further after in vitro stimulation with C. albicans antigens (Ags), and included at least three cell types. These arose from proliferation of the natural Treg-cell subset, together with conversion of Foxp3− cells to the induced Treg-cell form, and to a cell type sharing effector Th17-cell characteristics, expressing ROR-γt, and secreting IL-17A. The expanded Foxp3+ T cells inhibited Th1 and Th2 responses, but enhanced Th17-cell responses to C. albicans Ags in vitro, and in vivo depletion confirmed their ability to enhance the Th17-cell response. These data lead to a model for disseminated candidiasis whereby expansion of Foxp3+ T cells promotes Th17-cell responses that drive pathology.

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Interleukin-17-Induced Protein Lipocalin 2 Is Dispensable for Immunity to Oral Candidiasis

et al. 2014

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Natasha Whibley

Oral-resident natural Th17 cells and γδ T cells control opportunistic Candida albicans infections

Single-Cell Transcriptomics of Regulatory T Cells Reveals Trajectories of Tissue Adaptation

MCPIP1 Endoribonuclease Activity Negatively Regulates Interleukin-17-Mediated Signaling and Inflammation

Animal Models for Candidiasis

Regulatory T cell adaptation in the intestine and skin

Antibody blockade of IL-17 family cytokines in immunity to acute murine oral mucosal candidiasis

Expansion of Foxp3⁺ T‐cell populations by Candida albicans enhances both Th17‐cell responses and fungal dissemination after intravenous challenge

Interleukin-17-Induced Protein Lipocalin 2 Is Dispensable for Immunity to Oral Candidiasis

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Natasha Whibley

Oral-resident natural Th17 cells and γδ T cells control opportunistic Candida albicans infections

Single-Cell Transcriptomics of Regulatory T Cells Reveals Trajectories of Tissue Adaptation

MCPIP1 Endoribonuclease Activity Negatively Regulates Interleukin-17-Mediated Signaling and Inflammation

Animal Models for Candidiasis

Regulatory T cell adaptation in the intestine and skin

Antibody blockade of IL-17 family cytokines in immunity to acute murine oral mucosal candidiasis

Expansion of Foxp3+ T‐cell populations by Candida albicans enhances both Th17‐cell responses and fungal dissemination after intravenous challenge

Interleukin-17-Induced Protein Lipocalin 2 Is Dispensable for Immunity to Oral Candidiasis

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Resources

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Expansion of Foxp3⁺ T‐cell populations by Candida albicans enhances both Th17‐cell responses and fungal dissemination after intravenous challenge