Depleting CD103+ resident memory T cells in vivo reveals immunostimulatory functions in oral mucosa

J. Michael Stolley; Milcah C. Scott; Vineet Joag; Alexander J. Dale; Timothy S. Johnston; Flavia Saavedra; Noah V. Gavil; Sahar Lotfi-Emran; Andrew G. Soerens; Eyob Weyu; Mark J. Pierson; Mark C. Herzberg; Nu Zhang; Vaiva Vezys; David Masopust

doi:10.1084/jem.20221853

Depleting CD103⁺ resident memory T cells in vivo reveals immunostimulatory functions in oral mucosa

J. Michael Stolley, Milcah C. Scott, Vineet Joag, Alexander J. Dale, Timothy S. Johnston, Flavia Saavedra, Noah V. Gavil, Sahar Lotfi-Emran, Andrew G. Soerens, Eyob Weyu, Mark J. Pierson, Mark C. Herzberg, Nu Zhang, Vaiva Vezys, David Masopust

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

The oral mucosa is a frontline for microbial exposure and juxtaposes several unique tissues and mechanical structures. Based on parabiotic surgery of mice receiving systemic viral infections or co-housing with microbially diverse pet shop mice, we report that the oral mucosa harbors CD8⁺ CD103⁺ resident memory T cells (T_RM), which locally survey tissues without recirculating. Oral antigen re-encounter during the effector phase of immune responses potentiated T_RM establishment within tongue, gums, palate, and cheek. Upon reactivation, oral T_RM triggered changes in somatosensory and innate immune gene expression. We developed in vivo methods for depleting CD103⁺ T_RM while sparing CD103^neg T_RM and recirculating cells. This revealed that CD103⁺ T_RM were responsible for inducing local gene expression changes. Oral T_RM putatively protected against local viral infection. This study provides methods for generating, assessing, and in vivo depleting oral T_RM, documents their distribution throughout the oral mucosa, and provides evidence that T_RM confer protection and trigger responses in oral physiology and innate immunity.

Original language	English (US)
Article number	e20221853
Journal	Journal of Experimental Medicine
Volume	220
Issue number	7
DOIs	https://doi.org/10.1084/jem.20221853
State	Published - Jul 3 2023

Bibliographical note

Publisher Copyright:
© 2023 Stolley et al.

PubMed: MeSH publication types

Journal Article
Research Support, Non-U.S. Gov't
Research Support, N.I.H., Extramural

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Michael Stolley, J., Scott, M. C., Joag, V., Dale, A. J., Johnston, T. S., Saavedra, F., Gavil, N. V., Lotfi-Emran, S., Soerens, A. G., Weyu, E., Pierson, M. J., Herzberg, M. C., Zhang, N., Vezys, V., & Masopust, D. (2023). Depleting CD103⁺ resident memory T cells in vivo reveals immunostimulatory functions in oral mucosa. Journal of Experimental Medicine, 220(7), Article e20221853. https://doi.org/10.1084/jem.20221853

Michael Stolley, J, Scott, MC, Joag, V, Dale, AJ, Johnston, TS, Saavedra, F, Gavil, NV, Lotfi-Emran, S , Soerens, AG, Weyu, E, Pierson, MJ, Herzberg, MC, Zhang, N, Vezys, V & Masopust, D 2023, 'Depleting CD103⁺ resident memory T cells in vivo reveals immunostimulatory functions in oral mucosa', Journal of Experimental Medicine, vol. 220, no. 7, e20221853. https://doi.org/10.1084/jem.20221853

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abstract = "The oral mucosa is a frontline for microbial exposure and juxtaposes several unique tissues and mechanical structures. Based on parabiotic surgery of mice receiving systemic viral infections or co-housing with microbially diverse pet shop mice, we report that the oral mucosa harbors CD8+ CD103+ resident memory T cells (TRM), which locally survey tissues without recirculating. Oral antigen re-encounter during the effector phase of immune responses potentiated TRM establishment within tongue, gums, palate, and cheek. Upon reactivation, oral TRM triggered changes in somatosensory and innate immune gene expression. We developed in vivo methods for depleting CD103+ TRM while sparing CD103neg TRM and recirculating cells. This revealed that CD103+ TRM were responsible for inducing local gene expression changes. Oral TRM putatively protected against local viral infection. This study provides methods for generating, assessing, and in vivo depleting oral TRM, documents their distribution throughout the oral mucosa, and provides evidence that TRM confer protection and trigger responses in oral physiology and innate immunity.",

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