Search results for "inorganic polyphosphate"

showing 9 items of 9 documents

Transformation of Construction Cement to a Self-Healing Hybrid Binder

2019

A new biomimetic strategy to im prove the self-healing properties of Portland cement is presented that is based on the application of the biogenic inorganic polymer polyphosphate (polyP), which is used as a cement admixture. The data show that synthetic linear polyp, with an average chain length of 40, as well as natural long-chain polyP isolated from soil bacteria, has the ability to support self-healing of this construction material. Furthermore, polyP, used as a water-soluble Na-salt, is subject to Na+/Ca2+ exchange by the Ca2+ from the cement, resulting in the formation of a water-rich coacervate when added to the cement surface, especially to the surface of bacteria-containing cement/c…

0211 other engineering and technologies02 engineering and technologylaw.inventionlcsh:Chemistrychemistry.chemical_compoundBiomimetic MaterialsPolyphosphateslaw021105 building & constructionComposite materiallcsh:QH301-705.5SpectroscopycoacervateCoacervatesoil bacteriaGeneral Medicine021001 nanoscience & nanotechnology6. Clean waterComputer Science Applicationsmicrocapsulessurgical procedures operative0210 nano-technologyinorganic polyphosphateManufactured MaterialsPortland cementMaterials scienceArticleCatalysisInorganic Chemistryotorhinolaryngologic diseasesself-healingPhysical and Theoretical ChemistryMolecular BiologyCementSoil bacteriaInorganic polymerConstruction MaterialsSpectrum AnalysisPolyphosphateOrganic ChemistryWaterModels Theoreticaldigestive system diseasesPortland cementlcsh:Biology (General)lcsh:QD1-999chemistrySelf-healingMicroscopy Electron ScanningHardening (metallurgy)concretemicrocracksInternational Journal of Molecular Sciences

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Morphogenetically-Active Barrier Membrane for Guided Bone Regeneration, Based on Amorphous Polyphosphate

2017

We describe a novel regeneratively-active barrier membrane which consists of a durable electrospun poly(ε-caprolactone) (PCL) net covered with a morphogenetically-active biohybrid material composed of collagen and inorganic polyphosphate (polyP). The patch-like fibrous collagen structures are decorated with small amorphous polyP nanoparticles (50 nm) formed by precipitation of this energy-rich and enzyme-degradable (alkaline phosphatase) polymer in the presence of calcium ions. The fabricated PCL-polyP/collagen hybrid mats are characterized by advantageous biomechanical properties, such as enhanced flexibility and stretchability with almost unaltered tensile strength of the PCL net. The pol…

0301 basic medicineBone Regenerationcollagen-inducingBarrier membranePolymersPharmaceutical Science02 engineering and technologyMatrix (biology)chemistry.chemical_compoundMiceOsteogenesisPolyphosphatesDrug Discoverystromal cell-derived factor-1Pharmacology Toxicology and Pharmaceutics (miscellaneous)MC3T3-E1 cellsChemistrybiologizationAnatomy3T3 Cells021001 nanoscience & nanotechnology3. Good healthMembranetensile strength/resistanceAlkaline phosphataseCollagen0210 nano-technologyinorganic polyphosphateSurface PropertiesPolyestersArticleAngiopoietin-203 medical and health sciencesCalcification PhysiologicAnimalsHumansBone regenerationTissue EngineeringPolyphosphateMesenchymal stem cellMembrane ProteinsMembranes ArtificialMesenchymal Stem Cellspolypropylene mesh030104 developmental biologyGene Expression RegulationBiophysicsbiologization; hernia repair; inorganic polyphosphate; collagen-inducing; polypropylene mesh; tensile strength/resistance; stromal cell-derived factor-1; MC3T3-E1 cellsNanoparticlesWound healinghernia repairMarine Drugs

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Amorphous, Smart, and Bioinspired Polyphosphate Nano/Microparticles: A Biomaterial for Regeneration and Repair of Osteo-Articular Impairments In-Situ

2018

Using femur explants from mice as an in vitro model, we investigated the effect of the physiological polymer, inorganic polyphosphate (polyP), on differentiation of the cells of the bone marrow in their natural microenvironment into the osteogenic and chondrogenic lineages. In the form of amorphous Ca-polyP nano/microparticles, polyP retains its function to act as both an intra- and extracellular metabolic fuel and a stimulus eliciting morphogenetic signals. The method for synthesis of the nano/microparticles with the polyanionic polyP also allowed the fabrication of hybrid particles with the bisphosphonate zoledronic acid, a drug used in therapy of bone metastases in cancer patients. The r…

0301 basic medicineBone Regenerationlong bone defects; bone marrow cells; inorganic polyphosphate; microparticles; bisphosphonates; <i>Runx2</i>; <i>Sox9</i>; cathepsin-K; tumor metastases; human mesenchymal stem cellsmedicine.medical_treatmentBiocompatible MaterialsCore Binding Factor Alpha 1 SubunitZoledronic Acidlcsh:ChemistryMiceRunx2OsteogenesisPolyphosphatesFemurlcsh:QH301-705.5tumor metastasesSpectroscopymicroparticlescathepsin-KDiphosphonatesTissue ScaffoldsChemistryImidazolesBiomaterialSOX9 Transcription FactorGeneral MedicineUp-RegulationComputer Science ApplicationsCell biologyRUNX2medicine.anatomical_structureinorganic polyphosphateChondrogenesisSox9medicine.drugArticleCatalysisChondrocyteInorganic Chemistryhuman mesenchymal stem cells03 medical and health sciencesOsteoclastmedicineAnimalsHumansPhysical and Theoretical Chemistrybone marrow cellsbisphosphonatesMolecular BiologyOrganic ChemistryMesenchymal stem cellMesenchymal Stem CellsBisphosphonateRatslong bone defects030104 developmental biologyZoledronic acidlcsh:Biology (General)lcsh:QD1-999Gene Expression RegulationNanoparticlesBone marrowInternational Journal of Molecular Sciences

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Calcium Polyphosphate Nanoparticles Act as an Effective Inorganic Phosphate Source during Osteogenic Differentiation of Human Mesenchymal Stem Cells

2019

The ability of bone-marrow-derived mesenchymal stem/stromal cells (BM-MSCs) to differentiate into osteoblasts makes them the ideal candidate for cell-based therapies targeting bone-diseases. Polyphosphate (polyP) is increasingly being studied as a potential inorganic source of phosphate for extracellular matrix mineralisation. The aim of this study is to investigate whether polyP can effectively be used as a phosphate source during the in vitro osteogenic differentiation of human BM-MSCs. Human BM-MSCs are cultivated under osteogenic conditions for 28 days with phosphate provided in the form of organic &beta

0301 basic medicineCalcium PhosphatesCellCell Culture Techniques02 engineering and technologyExtracellular matrixlcsh:Chemistrychemistry.chemical_compoundOsteogenesisPolyphosphateslcsh:QH301-705.5SpectroscopyCells CulturedCell DifferentiationGeneral Medicine021001 nanoscience & nanotechnologyComputer Science ApplicationsCell biologymedicine.anatomical_structureGlycerophosphatesAlkaline phosphatase0210 nano-technologyinorganic polyphosphateStromal cellchemistry.chemical_elementosteogenic differentiationCalciumCatalysisArticleInorganic Chemistry03 medical and health sciencesmedicineHumansPhysical and Theoretical ChemistryMolecular Biologymesenchymal stem cellsPolyphosphateOrganic ChemistryMesenchymal stem cellβ-glycerolphosphateCa-polyphosphate nanoparticlesPhosphateAlkaline Phosphatase030104 developmental biologychemistrylcsh:Biology (General)lcsh:QD1-999Gene Expression RegulationNanoparticlesCalciumInternational Journal of Molecular Sciences

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Role of ATP during the initiation of microvascularization: acceleration of an autocrine sensing mechanism facilitating chemotaxis by inorganic polyph…

2018

The in vitro tube formation assay with human umbilical vein endothelial cells (HUVEC) was applied to identify the extra- and intracellular sources of metabolic energy/ATP required for cell migration during the initial stage of microvascularization. Extracellularly, the physiological energy-rich polymer, inorganic polyphosphate (polyP), applied as biomimetic amorphous calcium polyP microparticles (Ca-polyP-MP), is functioning as a substrate for ATP generation most likely via the combined action of the alkaline phosphatase (ALP) and the adenylate kinase (AK). The linear Ca-polyP-MP with a size of 40 phosphate units, close to the polyP in the acidocalcisomes in the blood platelets, were found …

0301 basic medicineOligomycinAdenylate kinaseNeovascularization PhysiologicBiochemistry03 medical and health scienceschemistry.chemical_compound0302 clinical medicineAdenosine TriphosphateX-Ray DiffractionPolyphosphatesSpectroscopy Fourier Transform InfraredExtracellularHuman Umbilical Vein Endothelial CellsHumansGlycolysisMolecular BiologyTube formationATP synthasebiologyChemistryApyraseAdenylate Kinase (AK) ; Alkaline Phosphatase (ALP) ; ATP ; F0F1-ATP synthase ; inorganic polyphosphate ; microvascularization ; tube formation ; Human Umbilical Vein Endothelial Cells (HUVEC) ; nano/microparticles ; chemotaxis ; autocrine sensing.ChemotaxisCell BiologyCell biologyAutocrine Communication030104 developmental biology030220 oncology & carcinogenesisMicrovesselsbiology.proteinIntracellular

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The Understanding of the Metazoan Skeletal System, Based on the Initial Discoveries with Siliceous and Calcareous Sponges

2017

Initiated by studies on the mechanism of formation of the skeletons of the evolutionary oldest still extant multicellular animals, the sponges (phylum Porifera) have provided new insights into the mechanism of formation of the Ca-phosphate/hydroxyapatite skeleton of vertebrate bone. Studies on the formation of the biomineral skeleton of sponges revealed that both the formation of the inorganic siliceous skeletons (sponges of the class of Hexactinellida and Demospongiae) and of the calcareous skeletons (class of Calcarea) is mediated by enzymes (silicatein: polymerization of biosilica; and carbonic anhydrase: deposition of Ca-carbonate). Detailed studies of the initial mineralization steps i…

Calcium Phosphates0301 basic medicineenzyme-mediated biomineral formationPolymerscarbonic anhydrasePharmaceutical ScienceMineralogyReviewBiologyMineralization (biology)Calcium Carbonateamorphous nanoparticles03 medical and health scienceschemistry.chemical_compoundPolyphosphatesCarbonic anhydraseDrug DiscoveryAnimalsHumansbone-hydroxyapatitebiosilicaPharmacology Toxicology and Pharmaceutics (miscellaneous)lcsh:QH301-705.5SkeletonCarbonic Anhydraseschemistry.chemical_classificationInorganic polymerPhylum PoriferaPolyphosphatePhosphatePoriferaDurapatite030104 developmental biologyEnzymechemistryBiochemistrylcsh:Biology (General)calcium carbonate bio-seedsbiology.proteinCalcareousalkaline phosphataseinorganic polyphosphateMarine Drugs

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Biomimetic Alginate/Gelatin Cross-Linked Hydrogels Supplemented with Polyphosphate for Wound Healing Applications

2020

In the present study, the fabrication of a biomimetic wound dressing that mimics the extracellular matrix, consisting of a hydrogel matrix composed of non-oxidized and periodate-oxidized marine alginate, was prepared to which gelatin was bound via Schiff base formation. Into this alginate/oxidized-alginate-gelatin hydrogel, polyP was stably but reversibly integrated by ionic cross-linking with Zn2+ ions. Thereby, a soft hybrid material is obtained, consisting of a more rigid alginate scaffold and porous structures formed by the oxidized-alginate-gelatin hydrogel with ionically cross-linked polyP. Two forms of the Zn-polyP-containing matrices were obtained based on the property of polyP to f…

Keratinocyteszinc ionscell migrationMetal NanoparticlesPharmaceutical ScienceBiocompatible Materials02 engineering and technologyGelatinAnalytical ChemistryExtracellular matrixchemistry.chemical_compoundBiomimeticsCell MovementPolyphosphatesSpectroscopy Fourier Transform InfraredDrug DiscoveryalginateSkinchemistry.chemical_classificationcoacervate0303 health sciencesCoacervateTissue ScaffoldsHydrogelsPolymerHydrogen-Ion Concentration021001 nanoscience & nanotechnologyExtracellular MatrixZincChemistry (miscellaneous)Self-healing hydrogelsMolecular Medicine0210 nano-technologyHybrid materialPorosityinorganic polyphosphatefood.ingredientionic cross-linkingAlginatesCell Survivalperiodate oxidationArticlegelatinlcsh:QD241-44103 medical and health sciencesfoodlcsh:Organic chemistryHumansPhysical and Theoretical Chemistry030304 developmental biologyIonsWound HealingTissue EngineeringPolyphosphateOrganic Chemistryhuman epidermal keratinocytestechnology industry and agricultureChemical engineeringchemistrynanoparticlesEpidermisWound healingMolecules

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An unexpected biomaterial against SARS-CoV-2: Bio-polyphosphate blocks binding of the viral spike to the cell receptor.

2021

Graphical abstract

PopulationSpike proteinmedicine.disease_causeVirusInorganic polyphosphate03 medical and health scienceschemistry.chemical_compoundResearch (Mid Blue)0302 clinical medicineNanoparticleViral envelopemedicineGeneral Materials ScienceReceptoreducation030304 developmental biologyCoronavirusComputingMethodologies_COMPUTERGRAPHICSHost cell surfacechemistry.chemical_classification0303 health scienceseducation.field_of_studySARS-CoV-2Mechanical EngineeringPolyphosphateCondensed Matter Physics3. Good healthCell biologyAmino acidchemistryMechanics of Materials030220 oncology & carcinogenesisPolyanionMaterials today (Kidlington, England)

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In Situ Polyphosphate Nanoparticle Formation in Hybrid Poly(vinyl alcohol)/Karaya Gum Hydrogels: A Porous Scaffold Inducing Infiltration of Mesenchym…

2018

Abstract The preparation and characterization of a porous hybrid cryogel based on the two organic polymers, poly(vinyl alcohol) (PVA) and karaya gum (KG), into which polyphosphate (polyP) nanoparticles have been incorporated, are described. The PVA/KG cryogel is prepared by intermolecular cross‐linking of PVA via freeze‐thawing and Ca2+‐mediated ionic gelation of KG to form stable salt bridges. The incorporation of polyP as amorphous nanoparticles with Ca2+ ions (Ca‐polyP‐NP) is achieved using an in situ approach. The polyP constituent does not significantly affect the viscoelastic properties of the PVA/KG cryogel that are comparable to natural soft tissue. The exposure of the Ca‐polyP‐NP w…

Vinyl alcoholGeneral Chemical EngineeringGeneral Physics and AstronomyMedicine (miscellaneous)Nanoparticle02 engineering and technologykaraya gum010402 general chemistry01 natural sciencesBiochemistry Genetics and Molecular Biology (miscellaneous)chemistry.chemical_compoundhuman mesenchymal stem cellsotorhinolaryngologic diseasesKaraya GumGeneral Materials Sciencechemistry.chemical_classificationcoacervateCoacervateintegumentary systemFull PaperChemistryPolyphosphateMesenchymal stem cellGeneral EngineeringPolymerFull Papers021001 nanoscience & nanotechnologydigestive system diseases0104 chemical sciencesChemical engineeringSelf-healing hydrogelsnanoparticles0210 nano-technologyinorganic polyphosphateAdvanced Science

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