Search results for "Delivery System"

showing 7 items of 367 documents

Improvements in Rational Design Strategies of Inulin Derivative Polycation for siRNA Delivery.

2016

The advances of short interfering RNA (siRNA)-mediated therapy provide a powerful option for the treatment of many diseases, including cancer, by silencing the expression of targeted genes involved in the progression of the pathology. On this regard, a new pH-responsive polycation derived from inulin, Inulin-g-imidazole-g-diethylenetriamine (INU-IMI-DETA), was designed and employed to produce INU-IMI-DETA/siRNA "Inulin COmplex Nanoaggregates" (ICONs). The experimental results showed that INU-IMI-DETA exhibited strong cationic characteristics and high solubility in the pH range 3-5 and self-aggregation triggered by pH increase and physiological salt concentration. INU-IMI-DETA showed as well…

polycationssiRNA deliverySmall interfering RNAPolymers and PlasticsInulinBioengineering02 engineering and technology010402 general chemistry01 natural sciencesBiomaterialschemistry.chemical_compoundDrug Delivery SystemsMaterials ChemistryPolyaminesGene silencingHumansGene SilencingRNA Small Interferingpolycations siRNA delivery inulinRational designInulinBafilomycinRNATransfectionHydrogen-Ion Concentration021001 nanoscience & nanotechnologyEndolysosomePolyelectrolytesEndocytosis0104 chemical scienceschemistryBiochemistrySettore CHIM/09 - Farmaceutico Tecnologico ApplicativoDrug DesignMCF-7 Cellspolycations; siRNA delivery; inulin0210 nano-technologyBiomacromolecules
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Targeting the mevalonate pathway for improved anticancer therapy.

2009

The mevalonate pathway is important for the generation of isoprene moieties thereby providing the basis for the biosynthesis of molecules required for maintaining membrane integrity, steroid production and cell respiration. Additionally, isoprene precursors are indispensable for the prenylation of regulatory proteins such as Ras and Ras-homologous (Rho) GTPases. These low molecular GTP-binding proteins play key roles in numerous signal transduction pathways stimulated upon activation of cell surface receptors by ligand binding. Thus, Ras/Rho proteins eventually regulate cell proliferation, tumor progression and cell death induced by anticancer therapeutics. Lipid modification of Ras/Rho pro…

rho GTP-Binding ProteinsCancer Researchmedicine.medical_treatmentProtein PrenylationMevalonic AcidAntineoplastic AgentsGTPaseModels BiologicalSteroidDrug Delivery SystemsPrenylationCell surface receptorNeoplasmsDrug DiscoverymedicineAnimalsHumansPharmacologyCell DeathDiphosphonatesChemistryCell growthMembrane ProteinsDimethylallyltranstransferaseCell biologyOncologyras ProteinsMevalonate pathwayLipid modificationSignal transductionHydroxymethylglutaryl-CoA Reductase InhibitorsSignal TransductionCurrent cancer drug targets
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The Influence of Nanoparticle Shape on Protein Corona Formation

2020

Nanoparticles have become an important utility in many areas of medical treatment such as targeted drug and treatment delivery as well as imaging and diagnostics. These advances require a complete understanding of nanoparticles' fate once placed in the body. Upon exposure to blood, proteins adsorb onto the nanoparticles surface and form a protein corona, which determines the particles' biological fate. This study reports on the protein corona formation from blood serum and plasma on spherical and rod‐shaped nanoparticles. These two types of mesoporous silica nanoparticles have identical chemistry, porosity, surface potential, and size in the y ‐dimension, one being a sphere and the other a …

rod shapeSurface Propertiesnanoparticle shapeNanoparticleProtein Corona02 engineering and technology010402 general chemistry01 natural sciencesBiomaterialsCorona (optical phenomenon)protein coronaAdsorptionBlood serumDrug Delivery SystemsGeneral Materials ScienceChemistryAlbuminsphere shapeGeneral ChemistryMesoporous silica021001 nanoscience & nanotechnologySilicon Dioxideprotein adsorption0104 chemical sciences3. Good healthBiophysicsbio-nanoparticle interactionsNanoparticlesProtein Corona0210 nano-technologymesoporous nanoparticlesBiotechnologyProtein adsorption
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Polymeric micelles containing squalenoyl chains for the delivery of drugs to the central nervous system

2011

squalenoyl micelles central nervous systemSettore CHIM/09 - Farmaceutico Tecnologico Applicativomicelles Drug delivery system squalenic
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On the Choice of the Extracellular Vesicles for Therapeutic Purposes

2019

Extracellular vesicles (EVs) are lipid membrane vesicles released by all human cells and are widely recognized to be involved in many cellular processes, both in physiological and pathological conditions. They are mediators of cell-cell communication, at both paracrine and systemic levels, and therefore they are active players in cell differentiation, tissue homeostasis, and organ remodeling. Due to their ability to serve as a cargo for proteins, lipids, and nucleic acids, which often reflects the cellular source, they should be considered the future of the natural nanodelivery of bio-compounds. To date, natural nanovesicles, such as exosomes, have been shown to represent a source of diseas…

theranosticsregenerative medicineReviewexosomesBiologyRegenerative medicineExtracellular vesiclesCatalysisTheranostic NanomedicineCatalysiInorganic Chemistrylcsh:Chemistry03 medical and health sciencesParacrine signallingExtracellular Vesicles0302 clinical medicineDrug Delivery SystemsNeoplasmsAnimalsHumansPhysical and Theoretical ChemistryLipid bilayerMolecular Biologylcsh:QH301-705.5Tissue homeostasisSpectroscopy030304 developmental biology0303 health sciencesDrug CarriersVesicleOrganic ChemistrybiomarkersComputer Science Applications1707 Computer Vision and Pattern RecognitionBiological TransportGeneral MedicineBiomarkerMicrovesiclesnanodelivery3. Good healthComputer Science ApplicationsCell biologyExosomeTheranosticlcsh:Biology (General)lcsh:QD1-999030220 oncology & carcinogenesisSignal transductionextracellular vesicles (EVs)Signal TransductionInternational Journal of Molecular Sciences
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Internalization of novel non-viral vector TAT-streptavidin into human cells

2007

BMC Biotechnology, 7 (1)

virusesEndocytic cyclePROTEINS + POLYPEPTIDES (BIOCHEMISTRY)02 engineering and technologyei-virusperäinen vektoriProtein EngineeringgeeniterapiaPost Transductionchemistry.chemical_compoundTHERAPIES + THERAPEUTICS (MEDICINE)Drug Delivery SystemsLääketieteen bioteknologia - Medical biotechnologyInternalizationmedia_commoninfo:eu-repo/classification/ddc/5700303 health sciencesPinocytosisNocodazoleVEKTOREN (GENETISCHE TECHNIKEN)021001 nanoscience & nanotechnologyLife sciencesCell biologyEndosomal EscapeBiotinylationGene Products tatVirusesVECTORS (GENETIC TECHNIQUES)VEKTOREN (GENETISCHE TECHNIKEN); THERAPIEN + THERAPEUTIK (MEDIZIN); PROTEINE + POLYPEPTIDE (BIOCHEMIE); VECTORS (GENETIC TECHNIQUES); THERAPIES + THERAPEUTICS (MEDICINE); PROTEINS + POLYPEPTIDES (BIOCHEMISTRY)0210 nano-technologyTHERAPIEN + THERAPEUTIK (MEDIZIN)BiotechnologyResearch ArticleStreptavidinEndosomeImmunoelectron microscopymedia_common.quotation_subjectRecombinant Fusion Proteinslcsh:BiotechnologyGenetic VectorsBiologyEndocytosis03 medical and health sciencesstreptavidiiniddc:570lcsh:TP248.13-248.65HumansEndosomal Marker030304 developmental biologyMolecular biologyEndocytic VesiclechemistryStreptavidinTATPROTEINE + POLYPEPTIDE (BIOCHEMIE)HeLa CellsBMC Biotechnology
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Biodegradable Metal-Organic Framework-Based Microrobots (MOFBOTs).

2020

Microrobots and metal–organic frameworks (MOFs) have been identified as promising carriers for drug delivery applications. While clinical applications of microrobots are limited by their low drug loading efficiencies and the poor degradability of the materials used for their fabrication, MOFs lack motility and targeted drug delivery capabilities. The combination of these two fields marks the beginning of a new era; MOF‐based small‐scale robots (MOFBOTs) for biomedical applications. Yet, biodegradability is a major hurdle in the field of micro‐ and nanoswimmers including small‐scale robots. Here, a highly integrated MOFBOT that is able to realize magnetic locomotion, drug delivery, and selec…

zeolitic imidazolate frameworksMaterials scienceBiomedical EngineeringPharmaceutical ScienceNanotechnology02 engineering and technology010402 general chemistrybiodegradation01 natural sciencesBiomaterialsmetal–organic frameworksDrug Delivery SystemsNeoplasmsHumansMetal-Organic FrameworksBiodegradable metal021001 nanoscience & nanotechnologyControlled release0104 chemical sciencesMagnetic FieldsTargeted drug deliverySelective degradationDoxorubicindrug deliveryDrug deliverybiodegradation; drug delivery; metal–organic frameworks; microrobots; zeolitic imidazolate frameworksChemotherapeutic drugs0210 nano-technologymicrorobotsAdvanced healthcare materials
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