2022
Postmortem Human Dura Mater Cells Exhibit Phenotypic, Transcriptomic and Genetic Abnormalities that Impact their Use for Disease Modeling
Argouarch A, Schultz N, Yang A, Jang Y, Garcia K, Cosme C, Corrales C, Nana A, Karydas A, Spina S, Grinberg L, Miller B, Wyss-Coray T, Abyzov A, Goodarzi H, Seeley W, Kao A. Postmortem Human Dura Mater Cells Exhibit Phenotypic, Transcriptomic and Genetic Abnormalities that Impact their Use for Disease Modeling. Stem Cell Reviews And Reports 2022, 18: 3050-3065. PMID: 35809166, PMCID: PMC9622518, DOI: 10.1007/s12015-022-10416-x.Peer-Reviewed Original ResearchConceptsDivergent gene expression profilesDefective DNA damage repairDisease modelingDNA damage repairGene expression profilesSpecific cell typesCell linesDura mater cellsDermal fibroblastsSomatic mutation signaturesPatient-derived cellsNormal biologyDamage repairExpression profilesSlow growth rateDifferentiation protocolsCell typesFibroblast-like cellsMutation signaturesProtein markersHuman dermal fibroblastsExhibit phenotypicNeurodegenerative diseasesDura materFibroblasts
2016
Colorectal Cancer with Residual Polyp of Origin: A Model of Malignant Transformation
Druliner B, Rashtak S, Ruan X, Bae T, Vasmatzis N, O’Brien D, Johnson R, Felmlee-Devine D, Washechek-Aletto J, Basu N, Liu H, Smyrk T, Abyzov A, Boardman L. Colorectal Cancer with Residual Polyp of Origin: A Model of Malignant Transformation. Translational Oncology 2016, 9: 280-286. PMID: 27567950, PMCID: PMC4941582, DOI: 10.1016/j.tranon.2016.06.002.Peer-Reviewed Original ResearchColorectal cancerResidual polypBiopsy-proven colorectal cancerEquivalent hazard ratiosEarly-stage diseaseSame disease stageRemnant polypsHazard ratioOverall survivalCancer Genome AtlasClinical coursePathologic characteristicsDisease stageMayo ClinicAdenomatous polypsColorectal carcinogenesisMalignant transformationCarcinoma transitionPolypsGenome AtlasGene expression profilesGenomic profilesWhole-genome sequencingCancerAge
2012
Regulatory element copy number differences shape primate expression profiles
Iskow RC, Gokcumen O, Abyzov A, Malukiewicz J, Zhu Q, Sukumar AT, Pai AA, Mills RE, Habegger L, Cusanovich DA, Rubel MA, Perry GH, Gerstein M, Stone AC, Gilad Y, Lee C. Regulatory element copy number differences shape primate expression profiles. Proceedings Of The National Academy Of Sciences Of The United States Of America 2012, 109: 12656-12661. PMID: 22797897, PMCID: PMC3411951, DOI: 10.1073/pnas.1205199109.Peer-Reviewed Original ResearchConceptsCopy number differencesExpression differencesExpression profilesLong intergenic noncoding RNAsCopy numberIntergenic noncoding RNAsGene expression differencesSignificant expression differencesGene expression profilesLevel of RNAUltraconserved elementsRegulatory regionsNoncoding RNAsSelective pressureDifferent genesRegulatory moleculesDevelopmental pathwaysPhenotypic differencesPrimate speciesGenesRNANumber differenceSpeciesExpressionPseudogenes