Search results for "sea urchin."

showing 10 items of 317 documents

The sea urchin embryo: a model to study Alzheimer's beta amyloid induced toxicity.

2009

Abstract Alzheimer’s disease (AD) is the most common form of dementia. The cause of AD is closely related to the accumulation of amyloid beta peptide in the neuritic plaques. The use of animal model systems represents a good strategy to elucidate the molecular mechanism behind the development of this pathology. Here we use the Paracentrotus lividus embryo to identify molecules and pathways that can be involved in the degenerative process. As a first step, we identified the presence of an antigen related to the human APP, called Pl APP. This antigen, after gastrula stage, is processed producing a polypeptide of about 10 kDa. By immunohistochemistry we localized the Pl APP antigen in some ser…

AmyloidAmyloid betaBiophysicsApoptosisBiochemistryNervous SystemParacentrotus lividusAlzheimer Diseasebiology.animalAnimalsHumansSenile plaquesAntigensMolecular BiologySea urchinCaspaseTUNEL assayAmyloid beta-Peptidesbiologybiology.organism_classificationPeptide FragmentsRecombinant ProteinsCell biologyBiochemistryApoptosisCaspasesModels Animalbiology.proteinParacentrotusParacentrotus lividusAmyloid-betaOligomers Fibrillar aggregatesApoptosisAnimal modelArchives of biochemistry and biophysics
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Effects of diclofenac on the gametes and embryonic development of Arbacia lixula

2022

Diclofenac (DCF), a non-steroidal anti-inflammatory drug (NSAID), is among the main pollutants of aquatic environments. Nevertheless, even if several authors evaluated its effects on marine organisms, no work has ever analysed its impact on the sea urchin Arbacia lixula. The purpose of this study was to analyse, for the first time, the impact of DCF at different concentrations (50 mg/l, 5 mg/l, 0.5 mg/l, 0.05 mg/l) on A. lixula embryos and gametes to indicate possible safe minimum levels of release of this drug in marine environments. Our results showed significant concentration-dependent effects on embryonic development (decrease in the number of developed embryos and increase in the quant…

Anti-inflammatory developed embryos drugs marine pollution sea urchinSettore BIO/05 - ZoologiaAnimal Science and ZoologySettore BIO/06 - Anatomia Comparata E Citologia
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From stress proteins to apoptosis and autophagy in sea urchin embryos

2019

Marine invertebrates inhabit a key position as intermediate consumers in the pelagic as well as in the benthonic food chains, making them suitable model systems for ecotoxicological studies. Among benthonic organisms, echinoderms represent a simple, though significant, model system to test how specific stress can simultaneously provoke dangerous effects on growth and vitality of organisms. Sea urchins provide an attractive and exceptional model for investigating environmental pollution. Most studies investigating the effects of Cd stress were conducted on Paracentrotus lividus, one of the most important marine invertebrates used as bioindicator of metal/heavy metal pollution and an importan…

ApoptosiSettore BIO/06 - Anatomia Comparata E CitologiaSea Urchin Embryos HSPS AutophagyCadmium Stress
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Toxicological Impact of Rare Earth Elements (REEs) on the Reproduction and Development of Aquatic Organisms Using Sea Urchins as Biological Models

2022

The growing presence of lanthanides in the environment has drawn the attention of the scientific community on their safety and toxicity. The sources of lanthanides in the environment include diagnostic medicine, electronic devices, permanent magnets, etc. Their exponential use and the poor management of waste disposal raise serious concerns about the quality and safety of the ecosystems at a global level. This review focused on the impact of lanthanides in marine organisms on reproductive fitness, fertilization and embryonic development, using the sea urchin as a biological model system. Scientific evidence shows that exposure to lanthanides triggers a wide variety of toxic insults, includi…

Aquatic OrganismsCalcium uptakeReproductionOrganic ChemistryGadoliniumGeneral MedicineModels BiologicalCatalysisComputer Science ApplicationsInorganic Chemistrysea urchin embryo developmental biology reproductive toxicology rare earth elements lanthanides gadolinium gene expression echinopluteus calcium uptake.LarvaSea UrchinsAnimalsMetals Rare EarthGene expressionSettore BIO/06 - Anatomia Comparata E CitologiaPhysical and Theoretical ChemistrySea urchin embryonic developmentMolecular BiologyEcosystemSpectroscopyInternational Journal of Molecular Sciences
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Correction to: Echinodermata: The complex immune system in echinoderms (Advances in Comparative Immunology, 10.1007/978-3-319-76768-0_13)

2018

This chapter was inadvertently published with an incorrect spelling of the author's name as V. Arriza whereas it should be V. Arizza. In addition to this the affiliation of one of the chapter authors Elisse Sutton was published incorrectly and it has now been corrected to read as Department of Biological Sciences, Macquarie University, Sydney, NSW, Australia.

Asteroidea Brittle stars Coelomocytes Crinoidea Diseases Echinoidea Genomics Holothuroidea Immune development Immune responses Immuno-toxicology Larval immune cells Ophiuroidea Proteomics Sea cucumbers Sea lilies Sea stars Sea urchins SenescenceSettore CHIM/03 - Chimica Generale E InorganicaSettore BIO/05 - ZoologiaSettore BIO/19 - Microbiologia Generale
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Autophagy during development of sea urchin embryos

2009

Autophagy is a highly regulated mechanism that enhances cell eukaryotic survival under various environmental and cellular stresses, by breakdown and recycling of macromolecules and organelles. Here we report that in Paracentrotus lividus embryos autophagic process occur, at a lesser extend during physiological development and at greater levels after a cadmium treatment. By Acridine Orange staining, we found that embryonic cells exposed to cadmium display green fluorescence in cytoplasm and nucleus, and show considerable red fluorescent dots in cytoplasm. This evidence suggests formation of acidic auto-phagolysosomal vacuoles. By Neutral Red vital staining, specific for lysosomes and cellula…

Autofagy sea urchin development cadmiumSettore BIO/06 - Anatomia Comparata E Citologia
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Autophagy is related to apoptosis in Paracentrotus lividus embryos cadmium exposed

2012

P. lividus embryo offers an excellent opportunity to investigate the adaptive response of cells exposed to different stress. We previously demonstrated that cadmium treatment triggers the accumulation of metal in embryonic cells and the activation of defense system depending on concentration and exposure time, through the synthesis of HSPs and/or the initiation of apoptosis. Analysing autophagy, by neutral red, acridine orange and LC3-detection, we demonstrated that Cd-exposed embryos adopt this process as an additional stratagem to safeguard the developmental program. We observed that embryos treated at subletal Cd concentration activate a massive autophagic response after 18h, which decre…

Autophagy apoptosis cadmium stress sea urchin embryosSettore BIO/06 - Anatomia Comparata E Citologia
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Influenza della protezione sulla struttura dei popolamenti algali dell’AMP “Isola di Ustica”, un caso di studio.

2008

Barren grazing sea urchins
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“BEP” RNAs and Proteins Are Situated in the Animal Side of Sea Urchin Unfertilized Egg, Which Can Be Recognized by Female Pronuclear Localization

1996

Microsurgery experiments demonstrate that the animal side of the unfertilized sea urchin Paracentrotus lividus egg coincides with the side of the egg pronucleus location. It is demonstrated by means of in situ hybridization and immunostaining of whole mounts of animal or vegetal halves that the previously identified bep 1 and bep4 RNAs and their proteins are located in the animal part of the unfertilized egg and much less in the vegetal part. The addition of Fabs against BEP1 and BEP4 causes exogastrulation.

BiophysicsIn situ hybridizationBiochemistryParacentrotus lividusbiology.animalBotanyMorphogenesismedicineAnimalsRNA MessengerMolecular BiologySea urchinOvumCell NucleusbiologyPronucleusMembrane ProteinsRNACell Biologybiology.organism_classificationCell biologyCell nucleusmedicine.anatomical_structureMembrane proteinSea Urchinsembryonic structuresRNAFemaleImmunostainingBiochemical and Biophysical Research Communications
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Specific expression of a TRIM-containing factor in ectoderm cells affects the skeletal morphogenetic program of the sea urchin embryo

2011

In the indirect developing sea urchin embryo, the primary mesenchyme cells (PMCs) acquire most of the positional and temporal information from the overlying ectoderm for skeletal initiation and growth. In this study, we characterize the function of the novel gene strim1, which encodes a tripartite motif-containing (TRIM) protein, that adds to the list of genes constituting the epithelial-mesenchymal signaling network. We report that strim1 is expressed in ectoderm regions adjacent to the bilateral clusters of PMCs and that its misexpression leads to severe skeletal abnormalities. Reciprocally, knock down of strim1 function abrogates PMC positioning and blocks skeletogenesis. Blastomere tran…

BlastomeresDNA Complementaryanimal structuresTRIM Sea urchin embryo Ectoderm Skeleton biomineralization Morpholino oligonucleotides Primary mesenchyme Cell migration Guidance otp pax2/5/8 sm30MesenchymeMolecular Sequence DataMorphogenesisSettore BIO/11 - Biologia MolecolareEctodermBiologyLigandsModels BiologicalBone and BonesMesodermCell MovementEctodermGene expressionmedicineAnimalsAmino Acid SequenceMolecular BiologyGeneGeneticsBone DevelopmentSequence Homology Amino AcidGene Expression Regulation DevelopmentalEmbryoBlastomereProtein Structure TertiaryCell biologyTransplantationmedicine.anatomical_structureSea Urchinsembryonic structuresCarrier ProteinsDevelopmental BiologyDevelopment
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