A Systemic Prime–Intrarectal Pull Strategy Raises Rectum-Resident CD8+ T Cells for Effective Protection in a Murine Model of LM-OVA Infection

A Systemic Prime–Intrarectal Pull Strategy Raises Rectum-Resident CD8+ T Cells for Effective Protection in a Murine Model of LM-OVA Infection

As the entry sites of many pathogens such as human immunodeficiency virus (HIV), mucosal sites are defended by rapidly reacting resident memory T cells (TRM). TRMs represent a special subpopulation of memory T cells that persist long term in non-lymphoid sites without entering the circulation and pr...

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Main Authors: Qian He, Lang Jiang, Kangli Cao, Linxia Zhang, Xinci Xie, Shuye Zhang, Xiangqing Ding, Yongquan He, Miaomiao Zhang, Tianyi Qiu, Xuanxuan Jin, Chen Zhao, Xiaoyan Zhang, Jianqing Xu
Format: Article
Language:English
Published: Frontiers Media S.A. 2020-09-01
Series:Frontiers in Immunology
Subjects:
mucosal immune response
rectum TRM
prime–pull vaccination strategy
HIV
Listeria monocytogenes
Online Access:https://www.frontiersin.org/article/10.3389/fimmu.2020.571248/full
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spelling doaj-eb0863a3669449a887e01f19361ec4622020-11-25T03:38:21ZengFrontiers Media S.A.Frontiers in Immunology1664-32242020-09-011110.3389/fimmu.2020.571248571248A Systemic Prime–Intrarectal Pull Strategy Raises Rectum-Resident CD8+ T Cells for Effective Protection in a Murine Model of LM-OVA InfectionQian HeLang JiangKangli CaoLinxia ZhangXinci XieShuye ZhangXiangqing DingYongquan HeMiaomiao ZhangTianyi QiuXuanxuan JinChen ZhaoXiaoyan ZhangJianqing XuAs the entry sites of many pathogens such as human immunodeficiency virus (HIV), mucosal sites are defended by rapidly reacting resident memory T cells (TRM). TRMs represent a special subpopulation of memory T cells that persist long term in non-lymphoid sites without entering the circulation and provide the “sensing and alarming” role in the first-line defense against infection. The rectum and vagina are the two primary mucosal portals for HIV entry. However, compared to vaginal TRM, rectal TRM is poorly understood. Herein, we investigated the optimal vaccination strategy to induce rectal TRM. We identified an intranasal prime–intrarectal boost (pull) strategy that is effective in engaging rectal TRM alongside circulating memory T cells and demonstrated its protective efficacy in mice against infection of Listeria monocytogenes. On the contrary, the same vaccine delivered via either intranasal or intrarectal route failed to raise rectal TRM, setting it apart from vaginal TRM, which can be induced by both intranasal and intrarectal immunizations. Moreover, intramuscular prime was also effective in inducing rectal TRM in combination with intrarectal pull, highlighting the need of a primed systemic T cell response. A comparison of different pull modalities led to the identification that raising rectal TRM is mainly driven by local antigen presence. We further demonstrated the interval between prime and boost steps to be critical for the induction of rectal TRM, revealing circulating recently activated CD8+ T cells as the likely primary pullable precursor of rectal TRM. Altogether, our studies lay a new framework for harnessing rectal TRM in vaccine development.https://www.frontiersin.org/article/10.3389/fimmu.2020.571248/fullmucosal immune responserectum TRMprime–pull vaccination strategyHIVListeria monocytogenes
collection DOAJ
language English
format Article
sources DOAJ
author Qian He
Lang Jiang
Kangli Cao
Linxia Zhang
Xinci Xie
Shuye Zhang
Xiangqing Ding
Yongquan He
Miaomiao Zhang
Tianyi Qiu
Xuanxuan Jin
Chen Zhao
Xiaoyan Zhang
Jianqing Xu
spellingShingle Qian He
Lang Jiang
Kangli Cao
Linxia Zhang
Xinci Xie
Shuye Zhang
Xiangqing Ding
Yongquan He
Miaomiao Zhang
Tianyi Qiu
Xuanxuan Jin
Chen Zhao
Xiaoyan Zhang
Jianqing Xu
A Systemic Prime–Intrarectal Pull Strategy Raises Rectum-Resident CD8+ T Cells for Effective Protection in a Murine Model of LM-OVA Infection
Frontiers in Immunology
mucosal immune response
rectum TRM
prime–pull vaccination strategy
HIV
Listeria monocytogenes
author_facet Qian He
Lang Jiang
Kangli Cao
Linxia Zhang
Xinci Xie
Shuye Zhang
Xiangqing Ding
Yongquan He
Miaomiao Zhang
Tianyi Qiu
Xuanxuan Jin
Chen Zhao
Xiaoyan Zhang
Jianqing Xu
author_sort Qian He
title A Systemic Prime–Intrarectal Pull Strategy Raises Rectum-Resident CD8+ T Cells for Effective Protection in a Murine Model of LM-OVA Infection
title_short A Systemic Prime–Intrarectal Pull Strategy Raises Rectum-Resident CD8+ T Cells for Effective Protection in a Murine Model of LM-OVA Infection
title_full A Systemic Prime–Intrarectal Pull Strategy Raises Rectum-Resident CD8+ T Cells for Effective Protection in a Murine Model of LM-OVA Infection
title_fullStr A Systemic Prime–Intrarectal Pull Strategy Raises Rectum-Resident CD8+ T Cells for Effective Protection in a Murine Model of LM-OVA Infection
title_full_unstemmed A Systemic Prime–Intrarectal Pull Strategy Raises Rectum-Resident CD8+ T Cells for Effective Protection in a Murine Model of LM-OVA Infection
title_sort systemic prime–intrarectal pull strategy raises rectum-resident cd8+ t cells for effective protection in a murine model of lm-ova infection
publisher Frontiers Media S.A.
series Frontiers in Immunology
issn 1664-3224
publishDate 2020-09-01
description As the entry sites of many pathogens such as human immunodeficiency virus (HIV), mucosal sites are defended by rapidly reacting resident memory T cells (TRM). TRMs represent a special subpopulation of memory T cells that persist long term in non-lymphoid sites without entering the circulation and provide the “sensing and alarming” role in the first-line defense against infection. The rectum and vagina are the two primary mucosal portals for HIV entry. However, compared to vaginal TRM, rectal TRM is poorly understood. Herein, we investigated the optimal vaccination strategy to induce rectal TRM. We identified an intranasal prime–intrarectal boost (pull) strategy that is effective in engaging rectal TRM alongside circulating memory T cells and demonstrated its protective efficacy in mice against infection of Listeria monocytogenes. On the contrary, the same vaccine delivered via either intranasal or intrarectal route failed to raise rectal TRM, setting it apart from vaginal TRM, which can be induced by both intranasal and intrarectal immunizations. Moreover, intramuscular prime was also effective in inducing rectal TRM in combination with intrarectal pull, highlighting the need of a primed systemic T cell response. A comparison of different pull modalities led to the identification that raising rectal TRM is mainly driven by local antigen presence. We further demonstrated the interval between prime and boost steps to be critical for the induction of rectal TRM, revealing circulating recently activated CD8+ T cells as the likely primary pullable precursor of rectal TRM. Altogether, our studies lay a new framework for harnessing rectal TRM in vaccine development.
topic mucosal immune response
rectum TRM
prime–pull vaccination strategy
HIV
Listeria monocytogenes
url https://www.frontiersin.org/article/10.3389/fimmu.2020.571248/full
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