Search results for "bone morphogenetic proteins"

showing 8 items of 28 documents

Neuroprotective Potential of GDF11: Myth or Reality?

2019

In the brain, aging is accompanied by cellular and functional deficiencies that promote vulnerability to neurodegenerative disorders. In blood plasma from young and old animals, various factors such as growth differentiation factor 11 (GDF11), whose levels are elevated in young animals, have been identified. The blood concentrations of these factors appear to be inversely correlated with the age-related decline of neurogenesis. The identification of GDF11 as a “rejuvenating factor” opens up perspectives for the treatment of neurodegenerative diseases. As a pro-neurogenic and pro-angiogenic agent, GDF11 may constitute a basis for novel therapeutic strategies.

OpinionNeurogenesisNeovascularization PhysiologicNeuroprotectionCatalysislcsh:ChemistryInorganic ChemistryBlood plasmaAnimalsHumansRejuvenationrejuvenating factorsMedicinePhysical and Theoretical Chemistrylcsh:QH301-705.5Molecular BiologySpectroscopybusiness.industryOrganic ChemistryNeurogenesisBrainGeneral MedicineComputer Science ApplicationsGrowth Differentiation Factorslcsh:Biology (General)lcsh:QD1-999Bone Morphogenetic ProteinsGDF11GDF11neuroprotectionbusinessNeuroscienceBiomarkersInternational Journal of Molecular Sciences
researchProduct

The interaction of recombinant subdomains of the procollagen C-proteinase with procollagen I provides a quantitative explanation for functional diffe…

2006

The procollagen C-proteinase (PCP) is a zinc peptidase of the astacin family and the metzincin superfamily. The enzyme removes the C-terminal propeptides of fibrillar procollagens and activates other matrix proteins. Besides its catalytic protease domain, the procollagen C-proteinase contains several C-terminal CUB modules (named after complement factors C1r and C1s, the sea urchin UEGF protein, and BMP-1) and EGF-like domains. The two major splice forms of the C-proteinase differ in their overall domain composition. The longer variant, termed mammalian tolloid (mTld, i.e., PCP-2), has the protease- CUB1-CUB2-EGF1-CUB3-EGF2-CUB4-CUB5 composition, whereas the shorter form termed bone morphog…

ProteasesProtein FoldingTolloid-Like Metalloproteinasesmedicine.medical_treatmentRNA SplicingBiologyAntiparallel (biochemistry)BiochemistryBone morphogenetic protein 1law.inventionBone Morphogenetic Protein 1lawmedicineAnimalsProtein precursorDNA PrimersProteaseBase SequenceCircular DichroismMetalloendopeptidasesSurface Plasmon ResonanceRecombinant ProteinsProcollagen peptidaseSpectrometry FluorescenceBiochemistryBone Morphogenetic ProteinsRecombinant DNAMetalloproteasesElectrophoresis Polyacrylamide GelAstacinProcollagenBiochemistry
researchProduct

The protease domain of procollagen C-proteinase (BMP1) lacks substrate selectivity, which is conferred by non-proteolytic domains.

2007

Abstract Procollagen C-proteinase (PCP) removes the C-terminal pro-peptides of procollagens and also processes other matrix proteins. The major splice form of the PCP is termed BMP1 (bone morphogenetic protein 1). Active BMP1 is composed of an astacin-like protease domain, three CUB (complement, sea urchin Uegf, BMP1) domains and one EGF-like domain. Here we compare the recombinant human full-length BMP1 with its isolated proteolytic domain to further unravel the functional influence of the CUB and EGF domains. We show that the protease domain alone cleaves truncated procollagen VII within the short telopeptide region into fragments of similar size as the full-length enzyme does. However, u…

Protein FoldingCollagen Type VIIDNA Complementarymedicine.medical_treatmentClinical BiochemistryAmino Acid MotifsGene ExpressionGlutamic AcidBiochemistryBone morphogenetic protein 1Mass SpectrometryBone Morphogenetic Protein 1Cell LineSubstrate SpecificityProtein structuremedicineEscherichia coliAnimalsHumansCysteineDisulfidesMolecular BiologyInclusion BodiesMetalloproteinaseProteasebiologyChemistryMetalloendopeptidasesRecombinant ProteinsProtein Structure TertiaryFibronectinProcollagen peptidaseDrosophila melanogasterBiochemistryBone Morphogenetic ProteinsMutationbiology.proteinProtein foldingAstacinBiological chemistry
researchProduct

Human germ cell differentiation from fetal- and adult-derived induced pluripotent stem cells

2010

Historically, our understanding of molecular genetic aspects of human germ cell development has been limited, at least in part due to inaccessibility of early stages of human development to experimentation. However, the derivation of pluripotent stem cells may provide the necessary human genetic system to study germ cell development. In this study, we compared the potential of human induced pluripotent stem cells (iPSCs), derived from adult and fetal somatic cells to form primordial and meiotic germ cells, relative to human embryonic stem cells. We found that ∼5% of human iPSCs differentiated to primordial germ cells (PGCs) following induction with bone morphogenetic proteins. Furthermore, …

Recombinant Fusion ProteinsInduced Pluripotent Stem CellsEmbryoid bodyHaploidyBiologyCell LineDEAD-box RNA Helicases03 medical and health sciences0302 clinical medicineGeneticsmedicineHumansInduced pluripotent stem cellMolecular BiologyEmbryonic Stem CellsGenetics (clinical)030304 developmental biology0303 health sciences030219 obstetrics & reproductive medicineSynaptonemal ComplexGene Expression ProfilingGene Expression Regulation DevelopmentalRNA-Binding ProteinsCell DifferentiationArticlesGeneral MedicineEmbryonic stem cellMolecular biologyGerm Cellsmedicine.anatomical_structureBone Morphogenetic ProteinsGerm line developmentStem cellReprogrammingGerm cellAdult stem cellHuman Molecular Genetics
researchProduct

BMP7v induces cancer stem cells differentiation and enhances chemotherapy response in colorectal cancer

2014

Cancer stem cells (CSCs), characterized by high levels of ATP-binding cassette, anti-apoptotic molecules, active DNA-repair and slow replication capacities, surviving to conventional anti-cancer therapies, able to eradicate only the highly proliferating tumor cells, represent the elective target for new therapies. Colorectal CSCs (CR-CSCs) represent a powerful tool for preclinical validation of target therapies. In particular the elucidation of the mechanisms that govern stem cell survival and differentiation appears very essential for the identification of new molecular targets in cancer therapy. Among the molecules that govern these processes there are the Bone Morphogenetic Proteins (BMP…

Settore MED/04 - Patologia GeneraleCancer stem cellBone Morphogenetic Proteins (BMPs)Colorectal cancer
researchProduct

Efficient differentiation of embryonic stem cells into mesodermal precursors by BMP, retinoic acid and Notch signalling

2012

The ability to direct differentiation of mouse embryonic stem (ES) cells into specific lineages not only provides new insights into the pathways that regulate lineage selection but also has translational applications, for example in drug discovery. We set out to develop a method of differentiating ES cells into mesodermal cells at high efficiency without first having to induce embryoid body formation. ES cells were plated on a feeder layer of PA6 cells, which have membrane-associated stromal-derived inducing activity (SDIA), the molecular basis of which is currently unknown. Stimulation of ES/PA6 co-cultures with Bone Morphogenetic Protein 4 (BMP4) both favoured self-renewal of ES cells and…

Stromal cellCellular differentiationMyocytes Smooth MuscleNotch signaling pathwaylcsh:MedicineDevelopmental SignalingTretinoinEmbryoid bodyBiologyCell LineMesoderm03 medical and health sciencesMice0302 clinical medicineRetinoic Acid Signaling CascadeMolecular Cell BiologyExpressió genèticaAnimalslcsh:ScienceBiologyEmbryonic Stem Cells030304 developmental biology0303 health sciencesMultidisciplinaryReceptors NotchStem Cellslcsh:RComputational BiologyCell DifferentiationNestinSignaling in Selected DisciplinesMolecular biologyEmbryonic stem cellSignaling CascadesSignaling NetworksP19 cellBone morphogenetic protein 4embryonic structuresBone Morphogenetic Proteinslcsh:QCellular TypesStromal CellsTranscriptomeCèl·lules mare030217 neurology & neurosurgeryResearch ArticleDevelopmental BiologySignal Transduction
researchProduct

Zebrafish Fins as a Model System for Skeletal Human Studies

2007

Recent studies on the morphogenesis of the fins ofDanio rerio(zebrafish) during development and regeneration suggest that a number of inductive signals involved in the process are similar to some of those that affect bone and cartilage differentiation in mammals and humans. Akimenko et al. (2002) has shown that bone morphogenetic protein-2b (BMP2b) is involved in the induction of dermal bone differentiation during fin regeneration. Many other groups have also shown that molecules from the transforming growth factor-beta superfamily (TGFβ), including BMP2, are effective in promoting chondrogenesis and osteogenesisin vivoin higher vertebrates, including humans. In the present study, we review…

collagenPathologylcsh:MedicineReview Articlebonelcsh:TechnologydentineExtracellular matrixbone regenerationOsteogenesisMorphogenesislcsh:ScienceZebrafishZebrafishGeneral Environmental Sciencetransforming growth factor betaDermal bonebiologyenamelGeneral MedicineCell biologyendochondral ossificationmedicine.anatomical_structureModels Animalmedicine.medical_specialtyextracellular matrixosteocyteregenerative medicineray dermal boneBone morphogenetic protein 2Bone and BonesGeneral Biochemistry Genetics and Molecular BiologyFin regenerationsonic hedgehogbone morphogenetic proteinsmedicineAnimalsHumansactinopterygian fishesmammalslepidotrichiascleroblastmesenchymal stem cellslcsh:TRegeneration (biology)Cartilagelcsh:RZebrafish Proteinsbone repairbiology.organism_classificationChondrogenesisCartilageregenerationintramembranous ossificationlcsh:Qcell therapyvertebratesThe Scientific World Journal
researchProduct

Growth and differentiation factor 11 (GDF11): Functions in the regulation of erythropoiesis and cardiac regeneration

2015

International audience; Members of the TGF-β superfamily transduce their signals through type I and II receptor serine/threonine kinases. The binding of activins to activin type IIA (ActRIIA) or type IIB (ActRIIB) receptors induces the recruitment and phosphorylation of an activin type I receptor (ALK4 and/or ALK7), which then phosphorylates the Smad2 and Smad3 intracellular signaling proteins. The regulation of members of the TGF-β family is known to be complex, because many proteins able to bind the ligands and inhibit their activities have been identified. Growth and differentiation factor 11 (Gdf11) belongs to the TGF-β family. GDF11, like other members of the TGF-β superfamily, is prod…

medicine.medical_specialtySmad2 ProteinProtein Serine-Threonine Kinases030204 cardiovascular system & hematologyBiology03 medical and health sciences0302 clinical medicine[SDV.MHEP.CSC]Life Sciences [q-bio]/Human health and pathology/Cardiology and cardiovascular systemInternal medicineTGF beta signaling pathway[SDV.BBM] Life Sciences [q-bio]/Biochemistry Molecular BiologymedicineHumansRegeneration[SDV.BBM]Life Sciences [q-bio]/Biochemistry Molecular BiologyPharmacology (medical)PhosphorylationCCL11Activin type 2 receptors030304 developmental biologyPharmacology0303 health sciencesR-SMADcardiac regenerationGrowth differentiation factorHeartActivins[SDV.MHEP.CSC] Life Sciences [q-bio]/Human health and pathology/Cardiology and cardiovascular systemCell biologyBMPR2Growth Differentiation FactorsEndocrinologyBone Morphogenetic ProteinsGDF11Smad2 ProteinSignal transductionActivin Receptors Type IerythropoiesisACVR2BSignal TransductionPharmacology & Therapeutics
researchProduct