0000000000326133

AUTHOR

Carmen Ruiz De Almodovar

showing 4 related works from this author

The angiopoietin-Tie2 pathway regulates Purkinje cell dendritic morphogenesis in a cell-autonomous manner.

2021

Neuro-vascular communication is essential to synchronize central nervous system development. Here, we identify angiopoietin/Tie2 as a neuro-vascular signaling axis involved in regulating dendritic morphogenesis of Purkinje cells (PCs). We show that in the developing cerebellum Tie2 expression is not restricted to blood vessels, but it is also present in PCs. Its ligands angiopoietin-1 (Ang1) and angiopoietin-2 (Ang2) are expressed in neural cells and endothelial cells (ECs), respectively. PC-specific deletion of Tie2 results in reduced dendritic arborization, which is recapitulated in neural-specific Ang1-knockout and Ang2 full-knockout mice. Mechanistically, RNA sequencing reveals that Tie…

CerebellumalphaCytoskeleton organizationAngiogenesisPurkinje cellprotocadherinsMorphogenesisneural progenitor cellsMice Transgenicself-avoidanceBiologyModels BiologicalGeneral Biochemistry Genetics and Molecular BiologyAngiopoietinAngiopoietin-2Purkinje Cellsddc:570CerebellumexpressionGene expressionmedicineAngiopoietin-1MorphogenesisAnimalsmouseMice KnockoutIntegrasessubventricular zonedifferentiationDendritesmtorc2Angiopoietin receptorReceptor TIE-2Cell biologyMice Inbred C57BLmedicine.anatomical_structuremessenger-rnaGene Expression RegulationOrgan Specificityembryonic structurescardiovascular systembiology.proteinGene DeletionSignal TransductionCell reports
researchProduct

Role of retinal pigment epithelium-derived exosomes and autophagy in new blood vessel formation

2018

Autophagy and exosome secretion play important roles in a variety of physiological and disease states, including the development of age‐related macular degeneration. Previous studies have demonstrated that these cellular mechanisms share common pathways of activation. Low oxidative damage in ARPE‐19 cells, alters both autophagy and exosome biogenesis. Moreover, oxidative stress modifies the protein and genetic cargo of exosomes, possibly affecting the fate of surrounding cells. In order to understand the connection between these two mechanisms and their impact on angiogenesis, stressed ARPE‐19 cells were treated with a siRNA‐targeting Atg7, a key protein for the formation of autophagosomes.…

0301 basic medicineautophagyretinaAngiogenesisretinal pigment epitheliumNeovascularization PhysiologicexosomesExosomeMacular Degeneration03 medical and health sciencesangiogenesismedicineHumansGene silencingoxidative stressSecretionCells CulturedTube formationRetinal pigment epitheliumBiología molecularChemistryAutophagyAutophagosomesOriginal ArticlesCell BiologyVascular Endothelial Growth Factor Receptor-2MicrovesiclesCell biologyOxidative Stress030104 developmental biologymedicine.anatomical_structureVEGFR2siRNAMolecular MedicineOriginal Article
researchProduct

CNS Macrophages Control Neurovascular Development via CD95L.

2017

The development of neurons and vessels shares striking anatomical and molecular features, and it is presumably orchestrated by an overlapping repertoire of extracellular signals. CNS macrophages have been implicated in various developmental functions, including the morphogenesis of neurons and vessels. However, whether CNS macrophages can coordinately influence neurovascular development and the identity of the signals involved therein is unclear. Here, we demonstrate that activity of the cell surface receptor CD95 regulates neuronal and vascular morphogenesis in the post-natal brain and retina. Furthermore, we identify CNS macrophages as the main source of CD95L, and macrophage-specific del…

0301 basic medicineFas Ligand ProteinAngiogenesisMorphogenesisvesselmicrogliaBiologyGeneral Biochemistry Genetics and Molecular BiologyRetina03 medical and health sciencesangiogenesisMiceCell surface receptorExtracellularmedicineHuman Umbilical Vein Endothelial CellsNeuritesAnimalsHumansfas Receptorlcsh:QH301-705.5Cell ProliferationRetinaMicrogliaKinaseMacrophagesneurovascular developmentBrainNeurovascular bundle030104 developmental biologymedicine.anatomical_structurecortexsrc-Family Kinasesnervous systemlcsh:Biology (General)ImmunologySynapsesCD95CD95LNeuroscienceCNS macrophagesProtein BindingSignal TransductionCell reports
researchProduct

Neuronal LRP4 regulates synapse formation in the developing CNS

2017

The low-density lipoprotein receptor-related protein 4 (LRP4) is essential in muscle fibers for the establishment of the neuromuscular junction. Here, we show that LRP4 is also expressed by embryonic cortical and hippocampal neurons, and that downregulation of LRP4 in these neurons causes a reduction in density of synapses and number of primary dendrites. Accordingly, overexpression of LRP4 in cultured neurons had the opposite effect inducing more but shorter primary dendrites with an increased number of spines. Transsynaptic tracing mediated by rabies virus revealed a reduced number of neurons presynaptic to the cortical neurons in which LRP4 was knocked down. Moreover, neuron-specific kno…

0301 basic medicineDendritic spineRabiesSynaptogenesisHippocampusBiologyHippocampal formationHippocampusNeuromuscular junctionGene Knockout TechniquesMice03 medical and health sciences0302 clinical medicinemedicineAnimalsLrp4 ; Central Nervous System Development ; Synapse Formation ; Dendritogenesis ; Transsynaptic Tracing ; Agrin ; In Utero Electroporation ; Psd95 ; Bassoon ; MouseMolecular BiologyCells CulturedLDL-Receptor Related ProteinsCerebral CortexGene knockdownAgrinDendritesCortex (botany)Cell biologyMice Inbred C57BL030104 developmental biologymedicine.anatomical_structureReceptors LDLnervous systemRabies virusSynapsesImmunology030217 neurology & neurosurgeryDevelopmental Biology
researchProduct