0000000000625239

AUTHOR

Beatriz Porto

0000-0003-4281-5438

showing 3 related works from this author

Bone marrow cell transcripts from Fanconi anaemia patients revealin vivoalterations in mitochondrial, redox and DNA repair pathways

2013

Fanconi anaemia (FA) is a genetic cancer predisposition disorder associated with cytogenetic instability, bone marrow failure and a pleiotropic cellular phenotype, including low thresholds of responses to oxidative stress, cross-linking agents and selected cytokines. This study was aimed at defining the scope of abnormalities in gene expression using the publicly available FA Transcriptome Consortium (FTC) database (Gene Expression Omnibus, 2009 and publicly available as GSE16334). We evaluated the data set that included transcriptomal analyses on RNA obtained from low-density bone marrow cells (BMC) from 20 patients with FA and 11 healthy volunteers, by seeking to identify changes in expre…

MaleDNA Repairiron-chelating proteinsTranscriptome0302 clinical medicineFanconi anemiaGene expressioncytokineoxidative stressChildbioenergetic pathwayRegulation of gene expression0303 health sciencesHematologyGeneral Medicineheat-shock proteinMitochondria3. Good health030220 oncology & carcinogenesisFemaleFanconi anaemiaOxidation-ReductionSignal TransductionAdultiron-chelating proteinDNA repairDNA repairBone Marrow CellsBiologyProinflammatory cytokine03 medical and health sciencesmedicineHumanstranscriptsGene030304 developmental biologyoxidative streGene Expression Profilingheat-shock proteinsMolecular Sequence Annotationmedicine.diseaseMolecular biologycytokinesDNA repair Fanconi anaemia bioenergetic pathways cytokines heat-shock proteins iron-chelating proteins oxidative stress transcriptsGene expression profilingOxidative StressFanconi AnemiaCase-Control Studiesbioenergetic pathwaysTranscriptomeEuropean Journal of Haematology
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From clinical description, to in vitro and animal studies, and backward to patients: Oxidative stress and mitochondrial dysfunction in Fanconi anemia

2013

Fanconi anemia (FA) is a rare genetic disease associated with deficiencies in DNA repair pathways. A body of literature points to a pro-oxidant state in FA patients, along with evidence for oxidative stress (OS) in the FA phenotype reported by in vitro, molecular, and animal studies. A highlight arises from the detection of mitochondrial dysfunction (MDF) in FA cell lines of complementation groups A, C, D2, and G. As yet lacking, in vivo studies should focus on FA-associated MDF, which may help in the understanding of the mitochondrial basis of OS detected in cells and body fluids from FA patients. Beyond the in vitro and animal databases, the available analytical devices may prompt the dir…

Pathologymedicine.medical_specialtyDNA RepairFree RadicalsDNA repairmitochondrial nutrientsCell Cycle ProteinsFree radicalsDiseaseBiologymedicine.disease_causeBioinformaticsBiochemistryChemopreventionPathogenesis03 medical and health sciencesMice0302 clinical medicineIn vivoFanconi anemiaPhysiology (medical)medicineAnimalsHumans030304 developmental biology0303 health sciencesMitochondrial nutrientNuclear ProteinsFanconi anemia Mitochondrial dysfunction Mitochondrial nutrients Chemoprevention Free radicalsmedicine.diseasePhenotype3. Good healthMitochondriaOxidative StressFanconi Anemia030220 oncology & carcinogenesisFanconi anemiaAnimal studiesReactive Oxygen SpeciesMitochondrial dysfunctionOxidative stress
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Mitoprotective Clinical Strategies in Type 2 Diabetes and Fanconi Anemia Patients: Suggestions for Clinical Management of Mitochondrial Dysfunction

2020

Oxidative stress (OS) and mitochondrial dysfunction (MDF) occur in a number of disorders, and several clinical studies have attempted to counteract OS and MDF by providing adjuvant treatments against disease progression. The present review is aimed at focusing on two apparently distant diseases, namely type 2 diabetes (T2D) and a rare genetic disease, Fanconi anemia (FA). The pathogenetic links between T2D and FA include the high T2D prevalence among FA patients and the recognized evidence for OS and MDF in both disorders. This latter phenotypic/pathogenetic feature—namely MDF—may be regarded as a mechanistic ground both accounting for the clinical outcomes in both diseases, and…

0301 basic medicinePhysiologymedicine.medical_treatmentClinical Biochemistrymitochondrial nutrientsDiseaseType 2 diabetesReviewBioinformaticsmedicine.disease_causeBiochemistry03 medical and health scienceschemistry.chemical_compound0302 clinical medicineIn vivoFanconi anemiamitochondrial dysfunctionmedicineoxidative stressMolecular Biologyfanconi anemiaCoenzyme Q10business.industrylcsh:RM1-950Mitochondrial nutrientCell Biologymedicine.diseasePhenotype030104 developmental biologylcsh:Therapeutics. Pharmacologychemistry030220 oncology & carcinogenesisOxidative stretype 2 diabetesbusinessAdjuvantOxidative stressAntioxidants
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