2019
Transcription factor binding at Ig enhancers is linked to somatic hypermutation targeting
Dinesh RK, Barnhill B, Ilanges A, Wu L, Michelson DA, Senigl F, Alinikula J, Shabanowitz J, Hunt DF, Schatz DG. Transcription factor binding at Ig enhancers is linked to somatic hypermutation targeting. European Journal Of Immunology 2019, 50: 380-395. PMID: 31821534, PMCID: PMC7202714, DOI: 10.1002/eji.201948357.Peer-Reviewed Original ResearchConceptsActivation-induced cytidine deaminaseGene conversionSomatic hypermutationIg genesTranscription factor family membersTrans-acting factorsFactor family membersClass switch recombinationEnhancer-like sequenceRamos B cell lineIgH intronic enhancerSecondary diversificationTranscription factorsE-boxFactor bindingChIP assaysIntronic enhancerReporter assaysB cell linesSpecific DNASwitch recombinationSHM targetingIg enhancersCytidine deaminaseNovel insightsTET enzymes augment AID expression via 5hmC modifications at the Aicda superenhancer
Lio C, Shukla V, Samaniego-Castruita D, Avalos E, Chakraborty A, Yue X, Schatz D, Rao A. TET enzymes augment AID expression via 5hmC modifications at the Aicda superenhancer. The Journal Of Immunology 2019, 202: 123.15-123.15. DOI: 10.4049/jimmunol.202.supp.123.15.Peer-Reviewed Original ResearchClass switch recombinationChromatin accessibilityTranscription factorsBasic region-leucine zipper (bZIP) transcription factorsBZIP transcription factorsZipper transcription factorAID expressionCytidine deaminase AIDExpression of AicdaTet-responsive elementEpigenetic marksTET enzymesEnhancer dynamicsAicda locusDNA demethylationGenomic regionsAicda expressionMurine B cellsEnhancer activitySwitch recombinationB cellsSuperenhancersTetExpressionCell activationTET enzymes augment activation-induced deaminase (AID) expression via 5-hydroxymethylcytosine modifications at the Aicda superenhancer
Lio CJ, Shukla V, Samaniego-Castruita D, González-Avalos E, Chakraborty A, Yue X, Schatz DG, Ay F, Rao A. TET enzymes augment activation-induced deaminase (AID) expression via 5-hydroxymethylcytosine modifications at the Aicda superenhancer. Science Immunology 2019, 4 PMID: 31028100, PMCID: PMC6599614, DOI: 10.1126/sciimmunol.aau7523.Peer-Reviewed Original ResearchMeSH Keywords5-MethylcytosineAnimalsBasic-Leucine Zipper Transcription FactorsB-LymphocytesCell DifferentiationCells, CulturedCytidine DeaminaseDioxygenasesDNA DemethylationDNA-Binding ProteinsGene Expression RegulationGenetic LociImmunoglobulin Class SwitchingLymphocyte ActivationMiceMice, TransgenicPrimary Cell CultureProto-Oncogene ProteinsResponse ElementsConceptsClass switch recombinationTranscription factorsChromatin accessibilityDNA demethylationBasic region-leucine zipper (bZIP) transcription factorsBZIP transcription factorsZipper transcription factorKey transcription factorEpigenetic marksTET enzymesEnhancer dynamicsGenomic regionsDeficient B cellsMurine B cellsEnhancer activityEnzyme essentialEnhancer elementsSwitch recombinationActivation-induced deaminase (AID) expressionAID expressionB cellsSuperenhancersTetDemethylationExpression
2017
Immature Lymphocytes Inhibit Rag1 and Rag2 Transcription and V(D)J Recombination in Response to DNA Double-Strand Breaks
Fisher MR, Rivera-Reyes A, Bloch NB, Schatz DG, Bassing CH. Immature Lymphocytes Inhibit Rag1 and Rag2 Transcription and V(D)J Recombination in Response to DNA Double-Strand Breaks. The Journal Of Immunology 2017, 198: 2943-2956. PMID: 28213501, PMCID: PMC5360515, DOI: 10.4049/jimmunol.1601639.Peer-Reviewed Original ResearchConceptsDNA double-strand breaksDNA damage responseRAG1/RAG2Double-strand breaksRAG DNA double-strand breaksMultiple genomic locationsTranscription of genesNF-κB transcription factorsDSB responseGenomic integrityGenomic locationATM kinaseTranscriptional repressionRAG cleavageCellular functionsDamage responseLocus recombinationMammalian cellsRAG1 proteinTranscription factorsModulator proteinRAG expressionAtaxia telangiectasiaTranscriptional inhibitionDevelopmental stages
2013
Multiple Transcription Factor Binding Sites Predict AID Targeting in Non-Ig Genes
Duke JL, Liu M, Yaari G, Khalil AM, Tomayko MM, Shlomchik MJ, Schatz DG, Kleinstein SH. Multiple Transcription Factor Binding Sites Predict AID Targeting in Non-Ig Genes. The Journal Of Immunology 2013, 190: 3878-3888. PMID: 23514741, PMCID: PMC3689293, DOI: 10.4049/jimmunol.1202547.Peer-Reviewed Original ResearchConceptsTranscription Factor Binding SitesAID-induced lesionsNon-Ig genesGenome instabilityTranscription factorsAberrant targetingSequence dataCertain genesGenesAID targetingGerminal center B cellsSomatic mutationsLikely targetBinding sitesAID targetsTargetingClassification tree modelMistargetingB cellsLociMechanismTargetMutationsSites
2008
Ebf1-dependent control of the osteoblast and adipocyte lineages
Hesslein DG, Fretz JA, Xi Y, Nelson T, Zhou S, Lorenzo JA, Schatz DG, Horowitz MC. Ebf1-dependent control of the osteoblast and adipocyte lineages. Bone 2008, 44: 537-546. PMID: 19130908, PMCID: PMC2657874, DOI: 10.1016/j.bone.2008.11.021.Peer-Reviewed Original ResearchConceptsNumber of osteoclastsBone formation parametersBone formation rateAdipocyte lineageBone marrow cellsOlfactory sensory neuronsSerum osteocalcinOsteoid volumeSensory neuronsAdipocyte numberBone marrowOsteoclast developmentMutant miceMarrow cellsMiceSubcutaneous sitesBone formationAdipocyte developmentStriking increaseDecreased depositionTranscription factorsOsteoblastsB cell fate specificationEBF1Adiposity
2004
B cell–specific loss of histone 3 lysine 9 methylation in the VH locus depends on Pax5
Johnson K, Pflugh DL, Yu D, Hesslein DG, Lin KI, Bothwell AL, Thomas-Tikhonenko A, Schatz DG, Calame K. B cell–specific loss of histone 3 lysine 9 methylation in the VH locus depends on Pax5. Nature Immunology 2004, 5: 853-861. PMID: 15258579, PMCID: PMC1635547, DOI: 10.1038/ni1099.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBase SequenceB-LymphocytesCell LineageCells, CulturedDNA-Binding ProteinsFlow CytometryGene Rearrangement, B-LymphocyteHematopoietic Stem CellsHistonesImmunoglobulin Heavy ChainsImmunoglobulin Variable RegionLysineMethylationMiceModels, ImmunologicalMolecular Sequence DataPAX5 Transcription FactorPrecipitin TestsReverse Transcriptase Polymerase Chain ReactionTranscription FactorsConceptsH3-K9 methylationDJH recombinationVH locusHistone 3 lysine 9 methylationLysine 9 methylationFunction of Pax5Non-B lineage cellsB cell-specific lossB cell commitmentHistone exchangeInactive chromatinLysine 9Histone H3Transcription factorsCell commitmentCell-specific lossInhibitory modificationMethylationLineage cellsLociPAX5B cellsHeavy chain rearrangementRecombinationChain rearrangement