6533b7d2fe1ef96bd125e06f
RESEARCH PRODUCT
Controlling the semi-permeability of protein nanocapsules influences the cellular response to macromolecular payloads.
Marina MachtakovaStephan GehringKatharina LandfesterSebastian WirschingHéloïse Thérien-aubinHéloïse Thérien-aubinsubject
ProteasesVaccinesChemistryMacromolecular SubstancesBiomedical EngineeringProteinsGeneral ChemistryGeneral MedicineSmall moleculeNanocapsulesNanoshellPermeabilityFluorescamineDrug LiberationDrug Delivery SystemsNanocapsulesPermeability (electromagnetism)Restricted DiffusionBiophysicsGeneral Materials ScienceEndopeptidase KSite of actionMacromoleculedescription
Nanocapsules are an excellent platform for the delivery of macromolecular payloads such as proteins, nucleic acids or polyprodrugs, since they can both protect the sensitive cargo and target its delivery to the desired site of action. However, the release of macromolecules from nanocapsules remains a challenge due to their restricted diffusion through the nanoshell compared to small molecule cargo. Here, we designed degradable protein nanocapsules with varying crosslinking densities of the nanoshell to control the release of model macromolecules. While the crosslinking did not influence the degradability of the capsules by natural proteases, it significantly affected the release profiles. Furthermore, the optimized protein nanocapsules were successfully used to deliver and effectively release a bioactive macromolecular vaccine adjuvant in vitro and, thus, can be used as an efficient platform for the design of potential nanovaccines.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2021-10-22 | Journal of materials chemistry. B |