Search results for "Cell Movement"

showing 10 items of 396 documents

Study of adult neurogenesis in the Gallotia galloti lizard during different seasons.

2011

In a previous study we found a seasonal distribution of cell proliferation (the first stage of adult neurogenesis) in the telencephalic ventricular walls of the adult Gallotia galloti lizard. The aim of the present work was to determine the influence of seasonality on the subsequent migration of the resulting immature neurons. We used wild animals injected with bromodeoxyuridine and kept in captivity within 30 days. To confirm the neuronal identity of these cells, we used double immunohistochemical 5-bromo-2'-deoxyuridine (BrdU) and doublecortin (DCX, an early neuronal marker) labeling, as well as autoradiography after the administration of methyl-[³H]thymidine ([³H]T). We found that: (1) t…

MaleTelencephalonCell divisionNeurogenesisCaptivityAndrologychemistry.chemical_compoundNeural Stem CellsCell MovementParenchymamedicineAnimalsMolecular BiologybiologyCerebrumGeneral NeuroscienceNeurogenesisAge FactorsGallotia gallotiCell DifferentiationLizardsAnatomybiology.organism_classificationDoublecortinmedicine.anatomical_structurechemistrybiology.proteinNeurology (clinical)SeasonsBromodeoxyuridineDevelopmental BiologyBrain research

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Postnatal neurogenesis in the telencephalon of turtles: evidence for nonradial migration of new neurons from distant proliferative ventricular zones …

1997

Postnatal neurogenesis in the the turtle telencephalon was investigated by using bromodeoxyuridine immunocytochemistry and [3H]thymidine autoradiography. Red-eared slider turtles Trachemys scripta elegans (Cryptodira, Emydidae) 2-3 months old were injected with the thymidine analogue 5'-bromodeoxyuridine (BrdU) and allowed to survive for 7, 30, 90, and 180 days. Results indicate that cells in the walls of the lateral ventricles continue to proliferate postnatally. Shortly after BrdU treatment (seven days) most labelled cells were found in the walls of the lateral ventricles (ventricular zone: VZ). Labelled cells were particularly abundant in and around the ventricular sulci. The same patter…

MaleTelencephalonCryptodiraTime FactorsAntimetabolitesImmunocytochemistryCell CountEmydidaeBiologyCerebral VentriclesAndrologyLateral ventricleschemistry.chemical_compoundDevelopmental NeuroscienceCell MovementmedicineAnimalsNeuronsCerebrumTurtle (syntax)Anatomybiology.organism_classificationImmunohistochemistryOlfactory BulbTurtlesMicroscopy Electronmedicine.anatomical_structurenervous systemchemistryBromodeoxyuridineFemaleThymidineBromodeoxyuridineDevelopmental BiologyThymidineBrain research. Developmental brain research

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Migration of Neuronal Precursors From the Telencephalic Ventricular Zone Into the Olfactory Bulb in Adult Zebrafish

2011

In the brain of adult mammals, neuronal precursors are generated in the subventricular zone in the lateral wall of the lateral ventricles and migrate into the olfactory bulbs (OBs) through a well-studied route called the rostral migratory stream (RMS). Recent studies have revealed that a comparable neural stem cell niche is widely conserved at the ventricular wall of adult vertebrates. However, little is known about the migration route of neuronal precursors in nonmammalian adult brains. Here, we show that, in the adult zebrafish, a cluster of neuronal precursors generated in the telencephalic ventricular zone migrates into the OB via a route equivalent to the mammalian RMS. Unlike the mamm…

MaleTelencephalonRostral migratory streamNeurogenesisSubventricular zoneBiologyAnimals Genetically Modifiedblood vesselsLateral ventriclesrostral migratory streamventricular zoneCell MovementLateral VentriclesmedicineAnimalsZebrafishZebrafishNeuronsneuronal migrationCerebrumStem CellsGeneral NeuroscienceNeurogenesisfungiAge Factorsbiology.organism_classificationzebrafishOlfactory BulbNeural stem cellOlfactory bulbadult neurogenesismedicine.anatomical_structurenervous systemFemaleNeuroscience

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Neuron regeneration reverses 3-acetylpyridine-induced cell loss in the cerebral cortex of adult lizards

1991

Systemic administration of the neurotoxin 3-acetylpyridine to adult lizards results in extensive loss of neurons in the medial cerebral cortex, other brain areas remaining largely unaffected. After the neurotoxic trauma, new cells are produced by mitotic division of cells in the ventricular wall. The new cells migrate along radial glial fibers and replace lost neurons in the medial cortex. Electron microscopic examination of cells labeled with [3H]thymidine confirms that the newly generated cells are neurons. Thus, neuron regeneration can occur in the cerebral cortex of adult lizards.

MaleTime FactorsPyridinesMedial cortexCentral nervous systemHippocampusBiologyCell MovementmedicineAnimalsNeurotoxinMolecular BiologyMitosisCerebral CortexNeuronsCell DeathStaining and LabelingGeneral NeuroscienceNeurogenesisLizardsNerve Regenerationmedicine.anatomical_structurenervous systemCerebral cortexNerve DegenerationFemaleNeurology (clinical)NeuronNeuroscienceCell DivisionDevelopmental BiologyBrain Research

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Estradiol induces endothelial cell migration and proliferation through estrogen receptor-enhanced RhoA/ROCK pathway

2010

Migration and proliferation of endothelial cells are involved in re-endothelialization and angiogenesis, two important cardiovascular processes that are increased in response to estrogens. RhoA, a small GTPase which controls multiple cellular processes, is involved in the control of cell migration and proliferation. Our aim was to study the role of RhoA on estradiol-induced migration and proliferation and its dependence on estrogen receptors activity. Human umbilical vein endothelial cells were stimulated with estradiol, in the presence or absence of ICI 182780 (estrogen receptors antagonist) and Y-27632 (Rho kinase inhibitor). Estradiol increased Rho GEF-1 gene expression and RhoA (gene an…

MaleTranscriptional ActivationRHOAAngiogenesismedicine.drug_classEstrogen receptorCell Cycle ProteinsBiochemistryUmbilical CordEndocrinologyCell MovementmedicineHumansReceptorMolecular BiologyCells CulturedCell ProliferationEnzyme Assaysrho-Associated KinasesEstradiolbiologyChemistryEndothelial CellsCell migrationUp-RegulationCell biologyEndothelial stem cellReceptors EstrogenRho kinase inhibitorEstrogenCancer researchbiology.proteinFemalerhoA GTP-Binding Proteinhormones hormone substitutes and hormone antagonistsSignal TransductionMolecular and Cellular Endocrinology

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Xanthine oxidase-induced oxidative stress causes activation of NF-κB and inflammation in the liver of type I diabetic rats

2009

We previously showed that xanthine oxidase activity increases in type I diabetic animals and that this is a significant cause of the oxidative stress which occurs in the disease. The aim of this work was to search for molecular links between xanthine oxidase-induced oxidative stress and inflammation in Type I diabetes and to assess the ability of allopurinol, a drug widely used in clinical practice, to prevent both processes. 3-month-old male Wistar rats were made diabetic by injection (i.p.) of either streptozotocin or alloxan. Allopurinol (32 mg/Kg) was administered (i.p) to diabetic rats after they had shown clear signs of diabetes such as glucosuria and polyuria. Hepatic phospho-IKKbeta…

MaleTranscriptional ActivationXanthine Oxidasemedicine.medical_specialtyNeutrophilsAllopurinolAllopurinolInterleukin 6Free radicalsInflammationmedicine.disease_causeBiochemistryStreptozocinDiabetes Mellitus ExperimentalDiabetic complicationsProinflammatory cytokineInterleukin 1βchemistry.chemical_compoundCell MovementPhysiology (medical)Internal medicineDiabetes mellitusAlloxanmedicineAnimalsRats WistarXanthine oxidasePolyuriabusiness.industryAllopurinol; Interleukin 1β; Interleukin 6; Diabetic complications; Free radicalsNF-kappa BXanthineStreptozotocinmedicine.diseaseRatsOxidative StressEndocrinologyLiverchemistryCytokinesInflammation Mediatorsmedicine.symptombusinessOxidative stressmedicine.drugFree Radical Biology and Medicine

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Subventricular zone localized irradiation affects the generation of proliferating neural precursor cells and the migration of neuroblasts

2012

Radiation therapy is a part of the standard treatment for brain tumor patients, often resulting in irreversible neuropsychological deficits. These deficits may be due to permanent damage to the neural stem cell (NSC) niche, damage to local neural progenitors, or neurotoxicity. Using a computed tomography-guided localized radiation technique, we studied the effects of radiation on NSC proliferation and neuroblast migration in the mouse brain. Localized irradiation of the subventricular zone (SVZ) eliminated the proliferating neural precursor cells and migrating neuroblasts. After irradiation, type B cells in the SVZ lacked the ability to generate migrating neuroblasts. Neuroblasts from the u…

Maleanimal structuresanimal diseasesSubventricular zoneCell CountBiologyArticleCerebral VentriclesMiceNeuroblastNeural Stem CellsCell MovementPrecursor cellNeuroblast migrationSpheroids CellularmedicineAnimalsreproductive and urinary physiologyCells CulturedCell ProliferationNeurogenesisCell migrationCell BiologyOlfactory BulbNeural stem cellCell biologyMice Inbred C57BLmedicine.anatomical_structurenervous systemAstrocytesImmunologyMolecular MedicineGanglion mother cellDevelopmental Biology

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Zoledronic acid induces a significant decrease of circulating endothelial cells and circulating endothelial precursor cells in the early prostate can…

2012

Purpose: Published data demonstrated that zoledronic acid (ZOL) exhibits antiangiogenetic effects. A promising tool for monitoring antiangiogenic therapies is the measurement of circulating endothelial cells (CECs) and circulating endothelial precursor cells (CEPs) in the peripheral blood of patients. Our aim was to investigate the effects of ZOL on levels of CECs and CEPs in localized prostate cancer. Methods: Ten consecutive patients with a histologic diagnosis of low-risk prostate adenocarcinoma were enrolled and received an intravenous infusion of ZOL at baseline (T0), 28 days (T28) and 56 days (T56). Blood samp…

Malemedicine.medical_specialtyPathologyCancer ResearchBone Density Conservation AgentAngiogenesismedicine.medical_treatmentUrologyAngiogenesis InhibitorsAngiogenesis; Circulating endothelial cells; Circulating endothelial precursor cells; Prostate cancer; Zoledronic acid; Aged; Angiogenesis Inhibitors; Bone Density Conservation Agents; Cell Movement; Diphosphonates; Endothelial Cells; Humans; Imidazoles; Male; Middle Aged; Neoadjuvant Therapy; Prostatic Neoplasms; Stem Cells; Medicine (all); Oncology; Cancer ResearchFlow cytometryProstate cancerCirculating endothelial cellCell MovementStem CellPrecursor cellMedicineHumansImidazoleNeoadjuvant therapyZoledronic acidAgedEndothelial CellProstate cancermedicine.diagnostic_testBone Density Conservation AgentsDiphosphonatesbusiness.industryStem CellsMedicine (all)ImidazolesEndothelial CellsProstatic NeoplasmsGeneral MedicineMiddle Agedmedicine.diseasePeripheral bloodNeoadjuvant TherapyAngiogenesiZoledronic acidDiphosphonateOncologyCirculating endothelial precursor cellProstatic NeoplasmStem cellbusinessmedicine.drugAngiogenesis InhibitorHuman

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Contributions of ACE and mast cell chymase to endogenous angiotensin II generation and leucocyte recruitment in vivo

2011

Aims In vitro studies suggest that mast cell chymase (MCP) is more important than angiotensin-converting enzyme (ACE) for generating angiotensin II (Ang II) within the cardiovascular system. We investigated in vivo the relative contributions of ACE and MCP to leucocyte recruitment induced by endogenously generated Ang II. Methods and results Exposure of the murine cremasteric microcirculation of C57BL/6 mice to Ang I (100 nM for 4 h) induced leucocyte–endothelium interactions. Either losartan (an Ang II receptor-1 antagonist, AT1) or enalapril (an ACE inhibitor), but not chymostatin (a chymase inhibitor), inhibited Ang I-induced responses. Mast cell degranulation with compound 48/80 (CMP48/…

Malemedicine.medical_specialtyPhysiologymedicine.drug_classReceptor expressionPeptidyl-Dipeptidase AReceptor Angiotensin Type 1MiceChymasesCell MovementPhysiology (medical)Internal medicineLeukocytesmedicineAnimalsp-Methoxy-N-methylphenethylamineMast CellsMast cell stabilizerEnalaprilAngiotensin II receptor type 1ChemistryAngiotensin IIChymaseAngiotensin IIMice Inbred C57BLEndocrinologyLosartanACE inhibitorcardiovascular systemAngiotensin ICardiology and Cardiovascular Medicinehormones hormone substitutes and hormone antagonistsmedicine.drugCardiovascular Research

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UNC-52/perlecan affects gonadal leader cell migrations in C. elegans hermaphrodites through alterations in growth factor signaling.

2003

0012-1606 doi: DOI: 10.1016/S0012-1606(03)00014-9; The unc-52 gene of Claenorhabditis elegans encodes a homologue of the basement membrane heparan sulfate proteoglycan perlecan. Viable alleles reduce the abundance of UNC-52 in late larval stages and increase the frequency of distal tip cell (DTC) migration defects caused by mutations disrupting the UNC-6/netrin guidance system. These unc-52 alleles do not cause circumferential DTC migration defects in an otherwise wild-type genetic background. The effects of unc-52 mutations on DTC migrations are distinct from effects on myofilament organization and can be partially suppressed by mutations in several genes encoding growth factor-like molecu…

Malemedicine.medical_treatmentOrganogenesisCellDisorders of Sex DevelopmentReceptor-Like Protein Tyrosine PhosphatasesFibroblast growth factorAnimals Genetically ModifiedCell MovementNetrinGrowth SubstancesGenes HelminthGeneticsMusclesCell migrationsWnt signaling pathwayHelminth Proteinsmedicine.anatomical_structurePhenotypeLarvaC. elegansFemaleNetrinsProteoglycansSignal transductionSignal TransductionUNC-52Nerve Tissue ProteinsReceptors Cell SurfacePerlecanmacromolecular substancesBiologymedicineAnimalsCaenorhabditis elegansCaenorhabditis elegans ProteinsGonadsGeneMolecular BiologyGrowth factorfungiMembrane ProteinsCell BiologyPerlecanReceptors Fibroblast Growth Factornervous systemMutationbiology.proteinProtein Tyrosine PhosphatasesDevelopmental BiologyDevelopmental biology

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