Yi Juan Teo scite author profile

Yi Juan Teo

4Publications

56Citation Statements Received

490Citation Statements Given

How they've been cited

How they cite others

370

452

Affiliations

Nanyang Technological University, Singapore Immunology Network, Agency for Science, Technology and Research

Publications

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Type 1 Conventional CD103+ Dendritic Cells Control Effector CD8+ T Cell Migration, Survival, and Memory Responses During Influenza Infection

Teo

Setiagani

et al. 2018

Front. Immunol.

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Type 1 conventional CD103+ dendritic cells (cDC1) contribute significantly to the cytotoxic T lymphocyte (CTL) response during influenza virus infection; however, the mechanisms by which cDC1s promote CTL recruitment and viral clearance are unclear. We demonstrate that cDC1 ablation leads to a deficient influenza-specific primary CD8+ T cell response alongside severe pulmonary inflammation, intensifying susceptibility to infection. The diminished pulmonary CTL population is not only a consequence of reduced priming in the lymph node (LN), but also of dysregulated CD8+ T cell egression from the LN and reduced CD8+ T cell viability in the lungs. cDC1s promote S1PR expression on CTLs, a key chemokine receptor facilitating CTL LN egress, and express high levels of the T cell survival cytokine, IL-15, to support CTL viability at the site of infection. Moreover, cDC1 ablation leads to severe impairment of CD8+ T cell memory recall and cross-reactive protection, suggesting that cDC1 are not only involved in primary T cell activation, but also in supporting the development of effective memory CD8+ T cell precursors. Our findings demonstrate a previously unappreciated and multifaceted role of CD103+ DCs in controlling pulmonary T cell-mediated immune responses.

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A 3D pancreatic tumor model to study T cell infiltration

et al. 2021

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Renal CD169⁺⁺resident macrophages are crucial for protection against acute systemic candidiasis

Teo

Mak

et al. 2021

Life Sci. Alliance

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Disseminated candidiasis remains as the most common hospital-acquired bloodstream fungal infection with up to 40% mortality rate despite the advancement of medical and hygienic practices. While it is well established that this infection heavily relies on the innate immune response for host survival, much less is known for the protective role elicited by the tissue-resident macrophage (TRM) subsets in the kidney, the prime organ for Candida persistence. Here, we describe a unique CD169++ TRM subset that controls Candida growth and inflammation during acute systemic candidiasis. Their absence causes severe fungal-mediated renal pathology. CD169++ TRMs, without being actively involved in direct fungal clearance, increase host resistance by promoting IFN-γ release and neutrophil ROS activity.

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Distinct myeloid cell subpopulations in controlling systemic candidiasis

Teo¹

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Yi Juan Teo

Type 1 Conventional CD103+ Dendritic Cells Control Effector CD8+ T Cell Migration, Survival, and Memory Responses During Influenza Infection

A 3D pancreatic tumor model to study T cell infiltration

Renal CD169⁺⁺resident macrophages are crucial for protection against acute systemic candidiasis

Distinct myeloid cell subpopulations in controlling systemic candidiasis

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Yi Juan Teo

Type 1 Conventional CD103+ Dendritic Cells Control Effector CD8+ T Cell Migration, Survival, and Memory Responses During Influenza Infection

A 3D pancreatic tumor model to study T cell infiltration

Renal CD169++resident macrophages are crucial for protection against acute systemic candidiasis

Distinct myeloid cell subpopulations in controlling systemic candidiasis

Contact Info

Product

Resources

About

Renal CD169⁺⁺resident macrophages are crucial for protection against acute systemic candidiasis