0000000000563552

AUTHOR

Pablo Vicente-munuera

showing 3 related works from this author

A Quantitative Biophysical Principle to Explain the 3D Cellular Connectivity in Curved Epithelia

2021

Epithelial cell organization and the mechanical stability of tissues are closely related. In this context, it has been recently shown that packing optimization in bended/folded epithelia is achieved by a surface tension energy minimization mechanism that leads to a novel cellular shape: the scutoid. However, further cellular and tissue level implications of this new developmental paradigm remain unknown. Here we focus on the relation of this complex cellular shape and the connectivity between cells. We address this problem using a combination of computational, experimental, and biophysical approaches in tubular epithelia. We dissect the contribution of the energetic drivers inducing the com…

Mechanical stabilityMechanism (biology)ChemistryBiophysicsTissue levelContext (language use)SSRN Electronic Journal
researchProduct

Unraveling the extracellular matrix-tumor cell interactions to aid better targeted therapies for neuroblastoma

2021

Treatment in children with high-risk neuroblastoma remains largely unsuccessful due to the development of metastases and drug resistance. The biological complexity of these tumors and their microenvironment represent one of the many challenges to face. Matrix glycoproteins such as vitronectin act as bridge elements between extracellular matrix and tumor cells and can promote tumor cell spreading. In this study, we established through a clinical cohort and preclinical models that the interaction of vitronectin and its ligands, such as αv integrins, are related to the stiffness of the extracellular matrix in high-risk neuroblastoma. These marked alterations found in the matrix led us to speci…

Combination therapyPharmaceutical ScienceCilengitideAntineoplastic AgentsCell CommunicationExtracellular matrixchemistry.chemical_compoundNeuroblastomaNeuroblastomamedicineTumor MicroenvironmentHumansVitronectinEtoposideEtoposidechemistry.chemical_classificationTumor microenvironmentbiologyCilengitidemedicine.diseaseExtracellular MatrixNanomedicinechemistryTumor microenvironmentbiology.proteinCancer researchVitronectinGlycoproteinmedicine.drug
researchProduct

The topology of vitronectin: A complementary feature for neuroblastoma risk classification based on computer‐aided detection

2019

Tumors are complex networks of constantly interacting elements: tumor cells, stromal cells, immune and stem cells, blood/lympathic vessels, nerve fibers and extracellular matrix components. These elements can influence their microenvironment through mechanical and physical signals to promote tumor cell growth. To get a better understanding of tumor biology, cooperation between multidisciplinary fields is needed. Diverse mathematic computations and algorithms have been designed to find prognostic targets and enhance diagnostic assessment. In this work, we use computational digital tools to study the topology of vitronectin, a glycoprotein of the extracellular matrix. Vitronectin is linked to…

RiskCancer ResearchStromal celltopologyTumor Markers and SignaturesComputer scienceAngiogenesisTopologyTopologyvitronectinExtracellular matrixComputational biology03 medical and health sciencesNeuroblastoma0302 clinical medicinecomputational biologyNeuroblastNeuroblastomamedicineTumor MicroenvironmentHumansVitronectinCell ProliferationbiologyNeovascularization PathologicComplex networkmedicine.diseasePrognosisExtracellular MatrixOncology030220 oncology & carcinogenesisnetworksbiology.proteinVitronectinStem cellNetworksStromal CellsAlgorithmsInternational Journal of Cancer
researchProduct