A lipid nanoparticle platform incorporating trehalose glycolipid for exceptional mRNA vaccine safety.

A lipid nanoparticle platform incorporating trehalose glycolipid for exceptional mRNA vaccine safety.

Publication date: Aug 01, 2024

The rapid development of messenger RNA (mRNA) vaccines formulated with lipid nanoparticles (LNPs) has contributed to control of the COVID-19 pandemic. However, mRNA vaccines have raised concerns about their potential toxicity and clinical safety, including side effects, such as myocarditis, anaphylaxis, and pericarditis. In this study, we investigated the potential of trehalose glycolipids-containing LNP (LNP S050L) to reduce the risks associated with ionizable lipids. Trehalose glycolipids can form hydrogen bonds with polar biomolecules, allowing the formation of a stable LNP structure by replacing half of the ionizable lipids. The efficacy and safety of LNP S050L were evaluated by encapsulating the mRNA encoding the luciferase reporter gene and measuring gene expression and organ toxicity, respectively. Furthermore, mice immunized with an LNP S050L-formulated mRNA vaccine expressing influenza hemagglutinin exhibited a significant reduction in organ toxicity, including in the heart, spleen, and liver, while sustaining gene expression and immune efficiency, compared to conventional LNPs (Con-LNPs). Our findings suggest that LNP S050L, a trehalose glycolipid-based LNP, could facilitate the development of safe mRNA vaccines with improved clinical safety.

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Concepts Keywords
Myocarditis Immunogenicity
Nanoparticle Lipid nanoparticle
Organ mRNA vaccine
Polar Toxicity
Vaccine Trehalose glycolipid

Semantics

Type Source Name
drug DRUGBANK Trehalose
disease VO vaccine
disease MESH COVID-19 pandemic
disease MESH myocarditis
disease MESH anaphylaxis
disease MESH pericarditis
disease VO gene
disease VO organ
disease VO immunized
disease MESH influenza
disease VO efficiency
drug DRUGBANK Bean
drug DRUGBANK Spinosad
disease IDO production
drug DRUGBANK Coenzyme M
disease MESH thrombosis
disease MESH thrombocytopenia
disease MESH syndrome
drug DRUGBANK Omega-3 fatty acids
drug DRUGBANK Cholesterol
drug DRUGBANK Polyethylene glycol
disease VO time
drug DRUGBANK Activated charcoal
drug DRUGBANK Dextrose unspecified form
disease VO Bacteria
disease VO Fungi
drug DRUGBANK Water
disease MESH dehydration
disease VO macrophage
drug DRUGBANK Sulfate ion
disease MESH inflammation
pathway REACTOME Translation
disease IDO immune response
drug DRUGBANK Ethanol
disease VO injection
disease VO effective
drug DRUGBANK Phosphate ion
disease VO efficient
disease IDO process
drug DRUGBANK Tretamine
drug DRUGBANK Methionine
drug DRUGBANK Nitrogen
disease VO ANOVA
drug DRUGBANK Proline
disease IDO assay
disease IDO site
disease VO viability
disease VO protocol
disease VO vaccination
disease VO vaccinated
disease IDO blood
disease MESH weight loss
drug DRUGBANK L-Alanine
drug DRUGBANK Urea
disease VO dose
disease VO immunization
drug DRUGBANK Alkaline Phosphatase
disease VO vaccine effectiveness
disease VO titer
disease IDO cell
disease MESH fungal infections
disease VO mouth
disease VO USA
pathway KEGG Ribosome
drug DRUGBANK Trestolone
drug DRUGBANK Microcrystalline cellulose
disease VO Canada
disease VO volume
drug DRUGBANK Sodium acetate
drug DRUGBANK Edetic Acid
drug DRUGBANK Formaldehyde
drug DRUGBANK Glycerin
drug DRUGBANK Sodium phosphate monobasic
drug DRUGBANK L-Citrulline
disease VO company
disease IDO pathogen
drug DRUGBANK Isoflurane
disease VO syringe
disease VO manufacturer
drug DRUGBANK Oxygen
disease VO intraperitoneal injection
disease VO organization
disease VO antibody titer
disease VO Bacilli
disease MESH oxidative stress
disease MESH subarachnoid hemorrhage
disease MESH Parkinson’s disease
pathway KEGG Autophagy
disease MESH myocardial infarction
drug DRUGBANK L-Aspartic Acid
disease IDO host

Original Article

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