Search results for "Riboflavin-carrier protein"

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Balancing Passive and Active Targeting to Different Tumor Compartments Using Riboflavin-Functionalized Polymeric Nanocarriers

2017

Riboflavin transporters (RFTs) and the riboflavin carrier protein (RCP) are highly upregulated in many tumor cells, tumor stem cells, and tumor neovasculature, which makes them attractive targets for nanomedicines. Addressing cells in different tumor compartments requires drug carriers, which are not only able to accumulate via the EPR effect but also to extravasate, target specific cell populations, and get internalized by cells. Reasoning that antibodies are among the most efficient targeting systems developed by nature, we consider their size (-10-15 nm) to be ideal for balancing passive and active tumor targeting. Therefore, small, short-circulating (10 kDa, -7 nm, t1/2 - 1 h) and large…

MaleBiodistributionMaterials scienceCell SurvivalPolymersSurface PropertiesRiboflavinBioengineering02 engineering and technology010402 general chemistry01 natural sciencesPolyethylene GlycolsMiceProstate cancerDownregulation and upregulationRiboflavin-carrier proteinCell Line TumorPEG ratiomedicineAnimalsHumansTissue DistributionGeneral Materials ScienceParticle Sizepassive and active tumor targetingCell ProliferationDrug CarriersbiologyMechanical EngineeringMembrane Transport ProteinsProstatic NeoplasmsTransporterGeneral Chemistry021001 nanoscience & nanotechnologyCondensed Matter Physicsmedicine.diseasen/a OA procedure0104 chemical sciencesCell biologybranched PEGBiochemistrybiology.proteinHeterograftsAntibody0210 nano-technologyDrug carrierNano Letters
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Influence of Riboflavin Targeting on Tumor Accumulation and Internalization of Peptostar Based Drug Delivery Systems.

2020

Riboflavin carrier protein (RCP) and riboflavin transporters (RFVTs) have been reported to be highly overexpressed in various cancer cells. Hence, targeting RCP and RFVTs using riboflavin may enhance tumor accumulation and internalization of drug delivery systems. To test this hypothesis, butyl-based 3-arm peptostar polymers were synthesized consisting of a lysine core (10 units per arm) and a sarcosine shell (100 units per arm). The end groups of the arms and the core were successfully modified with riboflavin and the Cy-5.5 fluorescent dye, respectively. While in phosphate buffered saline the functionalized peptostars showed a bimodal behavior and formed supramolecular structures over tim…

SarcosinePolymersmedia_common.quotation_subjectRiboflavinLysineBiomedical EngineeringPharmaceutical ScienceBioengineeringRiboflavinchemistry.chemical_compoundIn vivoRiboflavin-carrier proteinMaterials TestingHumansInternalizationmedia_commonPharmacologyDrug CarriersChemistryLysineOrganic ChemistryMembrane Transport ProteinsBiological TransportSarcosineCarbocyaninesCancer cellDrug deliveryPC-3 CellsBiophysicsBiotechnologyBioconjugate chemistry
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