Peer-reviewed veterinary case report
Periodontitis vaccine tested using bacterial vesicles in dogs
By Nakao, Ryoma et al.·Published in mSphere·2025·Department of Bacteriology I, Japan·View original on PubMed →
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Original publication title: Assessment of periodontitis vaccine using three different bacterial outer membrane vesicles in canine model.
- Species:
- dog
Plain-English summary
A group of beagle dogs was tested with a new vaccine aimed at preventing gum disease (periodontitis) caused by specific bacteria. Initially, the vaccine given through the nose didn't produce a strong immune response, but when the dogs received a booster shot under the skin, their immune systems reacted much better. This booster improved their antibody levels in the blood and in areas like the mouth and respiratory system. While the vaccine changed the types of bacteria in their mouths, it didn't completely eliminate the harmful bacteria. Overall, this study suggests that a combination of nasal and booster vaccinations could be a promising approach to protect dogs from gum disease.
People also search for: beagle gum disease vaccine · dog periodontitis treatment · how to prevent gum disease in dogs
Abstract
UNLABELLED: Canines frequently develop periodontitis, which is similar and relevant to immunopathology and microbiology of human periodontitis. The aim of this study was to investigate whether bacterial outer membrane vesicle (OMV)-based periodontal vaccines induced humoral immune response in canines from a human vaccine development perspective.(Pg) and(Td), two major periodontal pathobionts, were chosen as vaccine targets. Intranasal (IN) immunization with Pg OMVs and Td OMVs strongly elicited humoral immune responses against the two respective species in preparative mouse experiments, particularly when adjuvanted with a probioticderivative (EcNΔ)-derived OMVs. However, in beagles, intranasal immunization with the same Pg/Td/EcNΔOMV vaccine insufficiently elicits humoral immune responses. Nevertheless, the subcutaneous booster with the same OMVs dramatically improved antibody responses in both systemic blood circulation and mucosal sites such as eyes, oral cavity, and upper and lower respiratory tracts. Metagenomic analysis of salivary microbiota revealed that the OMV vaccine might change the microbial composition, while not reducing the number of any periodontal pathobionts at least during the timeframe of the present beagle study. InPg growth inhibition assay, serum samples from OMV-immunized beagles significantly inhibited growth of the gingipain-deficient strain but not the gingipain-expressing wild-type strain. Taken together, our data offer the trivalent OMV vaccine strategy by IN-prime/SC-boost regimen, which could elicit robust mucosal immune responses, while suggesting the requirement of revised periodontal vaccine regimen toward achievement of sterilizing immunity in the oral cavity. IMPORTANCE: Bacterial outer-membrane vesicles (OMVs) are attractive for use as novel nanoparticle adjuvants, as well as delivery platforms. Periodontal diseases are the most prevalent oral diseases in humans and have serious health and economic burdens, greatly reducing quality of life. The aim of this study is to investigate the humoral immune responses to an OMV-based periodontal disease vaccine in beagles. The vaccine elicited strong mucosal immune responses when administered to beagles by a four-dose heterologous immunization (IN-IN-IN prime and subcutaneous [SC] boost). The OMV vaccine significantly altered the composition of the microbial community in the oral cavity. These findings suggest the utility of the intranasal (IN) prime followed by the SC boost regimen as a rational option to elicit robust humoral immune responses in canines, and most probably in humans as well. We here discuss the outcomes of beagle experiments, the mechanism behind immunological escape of Pg from host immunity, and a rational perspective toward sterilizing immunity in the oral cavity.
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Search related cases →Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/40099899/