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Lipid nanoparticles as adjuvants for recombinant protein vaccine protect against Helicobacter pylori infection by enhancing Th1/Th17 responses

ZHU Ji et al · Editorial Office of Journal of Army Medical University · 2026

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Abstract Objective Helicobacter pylori (Hp) infection is prevalent worldwide and represents a risk factor for various chronic inflammatory and neoplastic gastric diseases. In recent years, lipid nanoparticles (LNPs) have demonstrated broad application prospects in vaccine adjuvant research owing to their favorable delivery capacity and immunomodulatory potential. Preparation of LNPs and evaluation of their immunoenhancing effects as adjuvants for a Helicobacter pylori recombinant protein vaccine, as well as their protective efficacy against H. pylori infection. Methods LNPs were prepared using microfluidic technology, with morphology examined by transmission electron microscopy and particle size and polydispersity index characterized by dynamic light scattering. The activating effects of LNPs on bone marrow-derived dendritic cells (BMDCs) were evaluated in vitro. For in vivo experiments, female BALB/c mice (6 to 8 weeks old, weighing 17 to 20 g) were randomly divided into (n=10): PBS group, UreB/NapA group, and LNP-H+UreB/NapA group. Mice were immunized by intramuscular injection on days 0, 14, and 28. Serum specific antibody titers were measured by ELISA at day 14 after the final immunization, and IFN-γ and IL-17A secretion in mouse spleens was detected by ELISpot. Mice were challenged with H. pylori to establish an infection model. At 4 weeks post-infection, H. pylori colonization in gastric tissue was quantified by probe-based real-time PCR, and adhesion inhibition ability of immunized mice against H. pylori was evaluated through in vitro AGS cell adhesion assay. Results The prepared LNPs exhibited uniform morphology, with mean particle size of 100 to 120 nm and polydispersity index of 0.1 to 0.2. LNPs promoted the phagocytosis of antigens by BMDCs and significantly increase the expression levels of costimulatory molecules CD80, CD86, and CD40 on BMDC surfaces (P<0.001), indicating potential to promote BMDC maturation. LNPs also significantly enhanced the secretions of IL-6 and IL-1β in the supernatants of BMDCs (P<0.0001). When combined with UreB and NapA, LNPs remarkably elevated the serum titers of specific total IgG, IgG1, and IgG2a (P<0.05), and promoted the secretions of specific IFN-γ and IL-17A by splenic lymphocytes (P<0.05), suggesting that LNPs strengthen specific T-cell immune responses. Furthermore, LNPs reduced the colonization of H. pylori in mouse gastric tissues and significantly inhibited the adhesion to gastric mucosal epithelial cells. Conclusion LNPs can serve as an effective adjuvant for H. pylori recombinant protein vaccines, effectively enhancing humoral and cellular immune responses and conferring protective effects against H. pylori infection.

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APA 7

al, Z. J. E. (2026). Lipid nanoparticles as adjuvants for recombinant protein vaccine protect against Helicobacter pylori infection by enhancing Th1/Th17 responses. https://doi.org/10.16016/j.2097-0927.202512118

MLA

al, ZHU Ji et. "Lipid nanoparticles as adjuvants for recombinant protein vaccine protect against Helicobacter pylori infection by enhancing Th1/Th17 responses." 2026. https://doi.org/10.16016/j.2097-0927.202512118.

Chicago

al, ZHU Ji et. 2026. "Lipid nanoparticles as adjuvants for recombinant protein vaccine protect against Helicobacter pylori infection by enhancing Th1/Th17 responses.". https://doi.org/10.16016/j.2097-0927.202512118.

Harvard

al, Z. J. E. 2026, Lipid nanoparticles as adjuvants for recombinant protein vaccine protect against Helicobacter pylori infection by enhancing Th1/Th17 responses, Editorial Office of Journal of Army Medical University, available at: https://doi.org/10.16016/j.2097-0927.202512118 [Accessed 29 Jun. 2026].

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Título
Lipid nanoparticles as adjuvants for recombinant protein vaccine protect against Helicobacter pylori infection by enhancing Th1/Th17 responses
Autor / colaboradores
ZHU Ji et al
Editorial
Editorial Office of Journal of Army Medical University
Año de publicación
2026
ISSN
2097-0927
ISSN
2097-0927
Idioma
zho

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