Gastric Subserous Vaccination With Helicobacter pylori Vaccine: An Attempt to Establish Tissue-Resident CD4+ Memory T Cells and Induce Prolonged Protection

Liu, Wei; Zeng, Zhiqing; Luo, Shuanghui; Hu, Chupeng; Xu, Ningyin; Huang, An; Zheng, Lufeng; Sundberg, Eric J.; Xi, Tao; Xing, Yingying

doi:10.3389/fimmu.2019.01115

Cited by 22 publications

(36 citation statements)

References 49 publications

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“…Using a new strategy for mucosal vaccination, Stary et al showed that IFN-γ producing CD4 + T RM are pivotal for protection against Chlamydia trachomatis [124,128]. Similar findings have been reported for genital tract herpes simplex virus (HSV) vaccination [120], and gastric subserous vaccination with Helicobacter pylori vaccine [129]. Therefore, identification of mechanisms which promote the generation and retention of CD4 + T RM should be further explored for development of more effective vaccines against a range of human pathogens [130].…”

Section: Cd4 + T Rm Subset Functionmentioning

confidence: 65%

Memory CD4+ T Cells in Immunity and Autoimmune Diseases

Raphael

Joern

Forsthuber

2020

Cells

121

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CD4 + T helper (Th) cells play central roles in immunity in health and disease. While much is known about the effector function of Th cells in combating pathogens and promoting autoimmune diseases, the roles and biology of memory CD4 + Th cells are complex and less well understood. In human autoimmune diseases such as multiple sclerosis (MS), there is a critical need to better understand the function and biology of memory T cells. In this review article we summarize current concepts in the field of CD4 + T cell memory, including natural history, developmental pathways, subsets, and functions. Furthermore, we discuss advancements in the field of the newly-described CD4 + tissue-resident memory T cells and of CD4 + memory T cells in autoimmune diseases, two major areas of important unresolved questions in need of answering to advance new vaccine design and development of novel treatments for CD4 + T cell-mediated autoimmune diseases.

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Section: Cd4 + T Rm Subset Functionmentioning

confidence: 65%

Memory CD4+ T Cells in Immunity and Autoimmune Diseases

Raphael

Joern

Forsthuber

2020

Cells

121

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“…But it was less known about CD4 + TRM cells, which might attribute to CD4 + TRM cells, which are less efficiently generated in present mouse models . Fortunately, our previous study demonstrated that CD4 + TRM cells could efficiently generate by vaccination in GSL and protect the stomach from the H pylori infection, but it did not distinguish vaccine‐induced CD4 + TRM cells so that it could not persuasively explore whether the CD4 + TRM cells themselves can induce protective effect …”

Section: Discussionmentioning

confidence: 92%

“…The single‐cell suspension of the stomach was purified with 67%/44% Percoll gradients. After cells were collected, they were washed with 1 mL RPMI 1640 containing 10% FBS …”

Section: Methodsmentioning

confidence: 99%

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Vaccine‐induced gastric CD4⁺ tissue‐resident memory T cells proliferate in situ to amplify immune response against Helicobacter pylori insult

Ruan

Liu

et al. 2019

Helicobacter

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Background: Tissue-resident memory T cells accelerate the clearance of pathogens during recall response. However, whether CD4 + TRM cells themselves can provide gastric immunity is unclear. Materials and methods:We established a parabiosis model between the enhanced green fluorescent protein and wild-type mice that the circulation system was shared, and the wild-type partner was vaccinated with H pylori vaccine composed of CCF and silk fibroin in gastric subserous layer to induce gastric EGFP + CD4 + TRM cells. Antigen-specific EGFP+ CD4 + T cells and proliferous TRM cells were analyzed by flow cytometry. The colonization of H pylori was detected by quantitative real-time PCR. EGFP + CD4 + TRM cells and the inflammation of the stomach were observed by histology.Results: A parabiosis animal model was employed to identify the cells that introduced by vaccination in GSL. Antigen-specific EGFP + CD4 + T cells could be detected at day 7 post-vaccination. Thirty days later, EGFP + CD4 + TRM cells were established with a phenotype of CD69 + CD103 -. Of note, we found that when circulating lymphocytes were depleted by FTY720 administration, these TRM cells could proliferate in situ and differentiate into effector Th1 cells after H pylori challenge. A decrease in H pylori colonization was observed in the vaccinated mice but not unvaccinated mice.Further, we found that although FTY720 was administrated, mounted pro-inflammatory myeloid cells still emerged in the stomach of the vaccinated mice, which might contribute to the reduction of H pylori colonization. Conclusions:Our study reveals that H pylori vaccine-induced CD4 + TRM cells can proliferate and differentiate in situ to enhance gastric local immunity during recall response.

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“…In a previous study, we used vaccine composed of aluminum adjuvant and CCF (CCF, a recombinant Helicobacter pylori subunit vaccine, a dual-antigen epitope, and a dualadjuvant vaccine constructed as previously described [5]), to vaccinate the gastric subserous layer (GSL) of mice [6]. GSL vaccination-induced mucosal inflammation in the stomach and subsequently a pool of CD4 + tissue-resident T cells (CD4 + T RM ) were established in the epithelium.…”

Section: Introductionmentioning

confidence: 99%

Perivascular Lymphocyte Clusters Induced by Gastric Subserous Layer Vaccination Mediate Optimal Immunity against Helicobacter through Facilitating Immune Cell Infiltration and Local Antibody Response

Liu

et al. 2020

Journal of Immunology Research

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Background. In situ vaccination-induced local inflammatory response resulted in the establishment of a pool of tissue-resident memory T (TRM) cells and new vessels after the resolution of inflammation. TRM cells have received increasing attention; however, the role of new vessels in protective response is still unknown. Materials and Methods. We performed the laparotomy to access the stomach and injected alum-based vaccine into the gastric subserous layer (GSL). At 28 days post vaccination, a parabiosis mouse model along with depletion of anti-CD90.2 antibody was employed to explore the function of perivascular lymphocyte clusters in recall responses. The composition of the gastric lymphocyte clusters was analyzed by immunofluorescence staining. Antibody responses were detected using ELISA. Gastric lymphocytes were analyzed using flow cytometry. Results. GSL vaccination induced the formation of new vessels in the inflamed region. These new vessels were different from native vessels in that they were generally accompanied by perivascular lymphocyte clusters that mainly consisted of CD90-expressing cells. Additionally, histological analysis revealed the presence of CD4+ and CD8+ T cells in the perivascular lymphocyte clusters. Administration of a dose of an anti-CD90.2 antibody to GSL-vaccinated mice resolved these clusters. The efficacy of protection was compared in the parabiosis mice. Upon challenge, the presence of perivascular lymphocyte clusters was responsible for the fast recall response, as depletion of these clusters by CD90.2 antibody administration resulted in decreased expressions of VCAM-1, Madcam-1, and TNF-α, as well as lower recruitment of proinflammatory immune cells, decreased antibody levels, and poor protection. Conclusions. Our research demonstrates that in situ vaccination-induced regional inflammatory response contributes to optimal recall response not only by establishing a CD4+ TRM pool but also by creating an “expressway,” i.e., perivascular lymphocyte cluster.

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Gastric Subserous Vaccination With Helicobacter pylori Vaccine: An Attempt to Establish Tissue-Resident CD4+ Memory T Cells and Induce Prolonged Protection

Cited by 22 publications

References 49 publications

Memory CD4+ T Cells in Immunity and Autoimmune Diseases

Memory CD4+ T Cells in Immunity and Autoimmune Diseases

Vaccine‐induced gastric CD4⁺ tissue‐resident memory T cells proliferate in situ to amplify immune response against Helicobacter pylori insult

Perivascular Lymphocyte Clusters Induced by Gastric Subserous Layer Vaccination Mediate Optimal Immunity against Helicobacter through Facilitating Immune Cell Infiltration and Local Antibody Response

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Gastric Subserous Vaccination With Helicobacter pylori Vaccine: An Attempt to Establish Tissue-Resident CD4+ Memory T Cells and Induce Prolonged Protection

Cited by 22 publications

References 49 publications

Memory CD4+ T Cells in Immunity and Autoimmune Diseases

Memory CD4+ T Cells in Immunity and Autoimmune Diseases

Vaccine‐induced gastric CD4+ tissue‐resident memory T cells proliferate in situ to amplify immune response against Helicobacter pylori insult

Perivascular Lymphocyte Clusters Induced by Gastric Subserous Layer Vaccination Mediate Optimal Immunity against Helicobacter through Facilitating Immune Cell Infiltration and Local Antibody Response

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Vaccine‐induced gastric CD4⁺ tissue‐resident memory T cells proliferate in situ to amplify immune response against Helicobacter pylori insult