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Human T cells efficiently control RSV infection
Chandrav De, Raymond J. Pickles, Wenbo Yao, Baolin Liao, Allison Boone, Mingyu Choi, Diana M. Battaglia, Frederic B. Askin, Jason K. Whitmire, Guido Silvestri, J. Victor Garcia, Angela Wahl
Chandrav De, Raymond J. Pickles, Wenbo Yao, Baolin Liao, Allison Boone, Mingyu Choi, Diana M. Battaglia, Frederic B. Askin, Jason K. Whitmire, Guido Silvestri, J. Victor Garcia, Angela Wahl
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Research Article Immunology Virology

Human T cells efficiently control RSV infection

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Abstract

Respiratory syncytial virus (RSV) infection causes significant morbidity and mortality in infants, immunocompromised individuals, and older individuals. There is an urgent need for effective antivirals and vaccines for high-risk individuals. We used 2 complementary in vivo models to analyze RSV-associated human lung pathology and human immune correlates of protection. RSV infection resulted in widespread human lung epithelial damage, a proinflammatory innate immune response, and elicited a natural adaptive human immune response that conferred protective immunity. We demonstrated a key role for human T cells in controlling RSV infection. Specifically, primed human CD8+ T cells or CD4+ T cells effectively and independently control RSV replication in human lung tissue in the absence of an RSV-specific antibody response. These preclinical data support the development of RSV vaccines, which also elicit effective T cell responses to improve RSV vaccine efficacy.

Authors

Chandrav De, Raymond J. Pickles, Wenbo Yao, Baolin Liao, Allison Boone, Mingyu Choi, Diana M. Battaglia, Frederic B. Askin, Jason K. Whitmire, Guido Silvestri, J. Victor Garcia, Angela Wahl

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Figure 2

RSV infection induces an innate proinflammatory immune response resulting in neutrophil infiltration.

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RSV infection induces an innate proinflammatory immune response resultin...
(A) Human IL-1β (left panel), IL-6 (middle panel), and IL-8 (right panel) expression in the human lung implants of control LoM (2 hours after RSV exposure) and RSV-infected LoM at 4 days and 11 days after exposure (n = 5 implants/time point). Crossing point (Cp) indicates the cycle number at which the fluorescence signal of the sample exceeds a background fluorescence value. (B) Flow cytometry gating strategy used to detect neutrophils. (C and D) Levels of mouse neutrophil (%Ly6G+ of mouse CD45+ cells) in the human lung implants of 2 different human donor cohorts of naive LoM (n = 4 and 6 implants) and RSV-infected LoM 2 days, 4 days, and 7 days after exposure (n = 4 implants/time point/cohort). (E and F) H&E staining of an RSV-infected LoM human lung implant depicting (E) neutrophil accumulation in airway lumen (arrows; scale bars: 50 μm) and (F) neutrophil transmigration (arrows; scale bars: 20 μm). (A, C, and D) Data are shown as mean ± SEM. Statistical significance was determined with a 2-tailed Kruskal-Wallis test. P values were adjusted for multiple testing using the Benjamini, Krieger, and Yekutieli FDR method.

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