0000000000736140

AUTHOR

Maria Pelliccia

showing 2 related works from this author

Additives for vaccine storage to improve thermal stability of adenoviruses from hours to months

2016

Up to 80% of the cost of vaccination programmes is due to the cold chain problem (that is, keeping vaccines cold). Inexpensive, biocompatible additives to slow down the degradation of virus particles would address the problem. Here we propose and characterize additives that, already at very low concentrations, improve the storage time of adenovirus type 5. Anionic gold nanoparticles (10−8–10−6 M) or polyethylene glycol (PEG, molecular weight ∼8,000 Da, 10−7–10−4 M) increase the half-life of a green fluorescent protein expressing adenovirus from ∼48 h to 21 days at 37 °C (from 7 to >30 days at room temperature). They replicate the known stabilizing effect of sucrose, but at several orders of…

0301 basic medicineSucroseSucroseTime FactorsvirusesGeneral Physics and AstronomyMetal Nanoparticles02 engineering and technologyvaccinationsvaccine storagePolyethylene Glycolschemistry.chemical_compoundMiceImmunogenicity VaccineDrug StabilityModelsAdenovirus Vaccinesvaccineta318ta317MultidisciplinaryChemistryImmunogenicityadenoviruksetQadenovirus021001 nanoscience & nanotechnologyImmunogenicityOrders of magnitude (mass)Cold Temperaturevaccine; adenovirus; additives; nanoparticlesInfectious DiseasesColloidal goldModels Animaladditives0210 nano-technologyInfectionBiotechnologyHalf-LifeScienceDrug StorageBioengineeringPolyethylene glycolModels BiologicalGeneral Biochemistry Genetics and Molecular BiologyArticleVaccine RelatedExcipients03 medical and health sciencesPEG ratioAnimalsThermal stabilityChromatographyAnimalPreventionRational designta1182General ChemistryBiologicalVirology030104 developmental biologyadenovirusesFeasibility StudiesImmunizationnanoparticlesGoldVaccine
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Extracellular Albumin and Endosomal Ions Prime Enterovirus Particles for Uncoating That Can Be Prevented by Fatty Acid Saturation

2019

ABSTRACT There is limited information about the molecular triggers leading to the uncoating of enteroviruses under physiological conditions. Using real-time spectroscopy and sucrose gradients with radioactively labeled virus, we show at 37°C, the formation of albumin-triggered, metastable uncoating intermediate of echovirus 1 without receptor engagement. This conversion was blocked by saturating the albumin with fatty acids. High potassium but low sodium and calcium concentrations, mimicking the endosomal environment, also induced the formation of a metastable uncoating intermediate of echovirus 1. Together, these factors boosted the formation of the uncoating intermediate, and the infectiv…

Models MolecularEchovirusHot TemperatureEndosomevirusesImmunologycryoEM structurerasvahapotEndosomesBiologymedicine.disease_causeMicrobiologyDivalentCell Line03 medical and health sciencesVirologyAlbuminsChlorocebus aethiopsExtracellularmedicineAnimalsalbumin030304 developmental biologychemistry.chemical_classificationalbumiinit0303 health sciencesbiokemiaionitenterovirus030302 biochemistry & molecular biologyCryoelectron MicroscopyFatty AcidsFatty acidRNAVirus-Cell InteractionsEnterovirus B HumanenteroviruksetchemistryCapsidvirologia13. Climate actionInsect ScienceBiophysicsCapsid ProteinsuncoatingLow sodium
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