Menghui Fan scite author profile

Background: Recent studies and clinical samples have demonstrated that Helicobacter pylori could induce the downregulation of miR-375 in the stomach and promote gastric carcinogenesis. However, whether the immune cells are affected by Helicobacter pylori due to the downregulation of miR-375 is unclear. Materials and methods:In this study, we constructed an overexpression and knockdown of miR-375 and Helicobacter pylori infection cell models in vitro. In addition, the maturity of dendritic cells (DCs) and the expression of IL-6, IL-10, and VEGF at the transcriptional and translational levels were analyzed. Changes in the JAK2-STAT3 signaling pathway were detected. In vivo, the number changes in CD4+ T and CD8+ T cells and the size changes of tumors via models of transplantable subcutaneous tumors were also analyzed. Results: A cell model of Helicobacter pylori and gastric cancer was used to identify the expression of miR-375 and the maturity of dendritic cells. This study found that Helicobacter pylori could downregulate miR-375, which regulates the expression of cytokines IL-6, IL-10, and VEGF in the stomach. MiR-375 regulated the expression of cytokines IL-6, IL-10, and VEGF through the JAK2-STAT3 signaling pathway in vitro. In addition, we found that Helicobacter pylori regulates the maturation of dendritic cells through miR-375. These results were further verified in vivo, and miR-375 diminishes tumor size was also demonstrated. This study showed that immature DCs caused a decrease in the number of CD4+ and CD8+ T cells. Conclusions: This study demonstrated that Helicobacter pylori can inhibit miRNA-375 expression in the stomach. Downregulated miR-375 activates the JAK2-STAT3 pathway. Activating the JAK2-STAT3 signaling pathway promotes the secretion of IL-6, IL-10, and VEGF, leading to immature differentiation of DCs and induction of gastric cancer.

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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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Silk fibroin hydrogel as mucosal vaccine carrier: induction of gastric CD4+TRM cells mediated by inflammatory response induces optimal immune protection against Helicobacter felis

Liu

et al. 2020

Emerging Microbes & Infections

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Tissue-resident memory T (T RM ) cells, located in the epithelium of most peripheral tissues, constitute the first-line defense against pathogen infections. Our previous study reported that gastric subserous layer (GSL) vaccination induced a “pool” of protective tissue-resident memory CD4+T (CD4+T RM ) cells in the gastric epithelium. However, the mechanistic details how CD4+T RM cells form in the gastric epithelium are unknown. Here, our results suggested that the vaccine containing CCF in combination with Silk fibroin hydrogel (SF) broadened the distribution of gastric intraepithelial CD4+T RM cells. It was revealed that the gastric intraepithelial T RM cells were even more important than circulating memory T cells against infection by Helicobacter felis . It was also shown that gastric-infiltrating neutrophils were involved as indispensable mediators which secreted CXCL10 to chemoattract CXCR3+CD4+T cells into the gastric epithelium. Blocking of CXCR3 or neutrophils significantly decreased the number of gastric intraepithelial CD4+T RM cells due to reduced recruitment of CD4+T cells. This study demonstrated the protective efficacy of gastric CD4+T RM cells against H. felis infection, and highlighted the influence of neutrophils on gastric intraepithelial CD4+T RM cells formation.

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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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CD4+ CD8αα+ T cells in the gastric epithelium mediate chronic inflammation induced by Helicobacter felis

Ruan

Huang

et al. 2021

Microbial Pathogenesis

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CD4+ CD8αα+ double-positive intraepithelial T lymphocytes (DP T cells), a newly characterized subset of intraepithelial T cell, has been reported to contribute to local immunosuppression. However, whether DP T cells are present in Helicobacter. pylori-induced gastritis, and their relationship with disease prognosis remain to be elucidated. In this study, We established chronic gastritis models through Helicobacter felis (H. felis) infection. Gastric in ltrating lymphocytes were isolated from H. felis-induced gastritis mice and analyzed by ow cytometry. Our results suggest that DP T cells frequency in H. felis-induced gastritis mice was higher than the uninfected mice. Gastric DP T cells derived from lamina propria cells, which distributed in the gastric epithelial layer. We found that DP T cells exhibited anti-in ammatory function. In vitro, DP T cells inhibited the maturation of dendritic cells and the proliferation of CD4+ T cell. The elimination of CD4+CD8αα+ T cells in vivo resulted in severe gastritis and a reduction of H. felis load. Additionally, vaccine with silk broin as delivery systems enhanced vaccine e cacy by reducing DP T cells. We demonstrated that DP T cells performed an immunosuppressive role in Helicobacter felisinduced gastritis. These ndings revealed that DP T cells may affect the prognosis of the disease and the vaccine e cacy.

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Menghui Fan

Helicobacter pylori induces gastric cancer via down‐regulating miR‐375 to inhibit dendritic cell maturation

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

Silk fibroin hydrogel as mucosal vaccine carrier: induction of gastric CD4+TRM cells mediated by inflammatory response induces optimal immune protection against Helicobacter felis

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

CD4+ CD8αα+ T cells in the gastric epithelium mediate chronic inflammation induced by Helicobacter felis

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Menghui Fan

Helicobacter pylori induces gastric cancer via down‐regulating miR‐375 to inhibit dendritic cell maturation

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

Silk fibroin hydrogel as mucosal vaccine carrier: induction of gastric CD4+TRM cells mediated by inflammatory response induces optimal immune protection against Helicobacter felis

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

CD4+ CD8αα+ T cells in the gastric epithelium mediate chronic inflammation induced by Helicobacter felis

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