grant

The Role of Immature Tumor Subpopulations In Pediatric Rhabdomyosarcoma

Organization ST. JUDE CHILDREN'S RESEARCH HOSPITALLocation MEMPHIS, UNITED STATESPosted 4 Mar 2022Deadline 28 Feb 2027
NIHUS FederalResearch GrantFY20260-11 years old21+ years oldAdultAdult HumanAfter CareAfter-TreatmentAftercareArchivesBar CodesBayesian AnalysisBayesian computationBayesian inferenceBayesian network analysisBayesian spatial analysisBayesian statistical analysisBayesian statistical inferenceBayesian statisticsBiopsyBiopsy SampleBiopsy SpecimenCancersCell BodyCell CycleCell Division CycleCell NucleusCell SurvivalCell ViabilityCellsCharacteristicsChildChild YouthChildhoodChildhood CancersChildhood RhabdomyosarcomaChildhood Solid NeoplasmChildhood Solid TumorChildren (0-21)ChromatinClinicalCollaborationsComputational toolkitComputer AnalysisConvNetDNA MethylationDataDevelopmentDiagnosisDifferential Gene ExpressionDisease remissionEmbryonic Muscle CellsEnhancersEpigeneticEpigenetic ChangeEpigenetic MechanismEpigenetic ProcessEvaluationEwing's Family of TumoursEwing's Sarcoma/Peripheral Primitive Neuroectodermal TumorEwing's TumorEwings sarcomaFormalinFreezingGene ExpressionGene TranscriptionGenesGenetic TranscriptionGenomicsGlial Cell TumorsGlial NeoplasmGlial TumorGliomaGoalsGovernmentHematologic CancerHematologic MalignanciesHematologic NeoplasmsHematological MalignanciesHematological NeoplasmsHematological TumorHematopoietic CancerHeterogeneityIndividualIntratumoral heterogeneityMachine LearningMalignant Childhood NeoplasmMalignant Childhood TumorMalignant Hematologic NeoplasmMalignant NeoplasmsMalignant Pediatric NeoplasmMalignant Pediatric TumorMalignant TumorMalignant childhood cancerMeasuresMesoderm CellMesodermal CellMethodsModelingMolecularMonitorMorphologyMuscle CellsMyoblastsMyocytesNetwork-basedNeuroglial NeoplasmNeuroglial TumorNormal CellNucleusOrphan DiseaseOrthopticsOutcomePDX modelParaffin EmbeddingParaxial MesodermPathway interactionsPatient derived xenograftPatientsPediatric RhabdomyosarcomaPediatric Solid TumorPersonsPilot ProjectsPleopticPopulationPositionPositioning AttributePrecursor Muscle CellsProductivityRNA ExpressionRNA SeqRNA sequencingRNAseqRare DiseasesRare DisorderRecurrenceRecurrentRecurrent NeoplasmRecurrent diseaseRecurrent tumorRelapseRelapsed DiseaseRemissionResearchResearch ProposalsResearch SpecimenResistanceRhabdomyosarcomaRiskRisk FactorsRisk ReductionRoleSaint JudeSaint Jude Children's Cancer CenterSaint Jude Children's Research HospitalSamplingSingle-Nucleus SequencingSkeletal MuscleSolidSpecimenSt. JudeSt. Jude Children's Cancer CenterSt. Jude Children's Research HospitalSt. Jude Children's Research Hospital Comprehensive Cancer CenterSt.Jude Children's Cancer CenterSt.Jude Children's Research HospitalSt.Jude Children's Research Hospital Comprehensive Cancer CenterTestingTissue-Specific Differential Gene ExpressionTissue-Specific Gene ExpressionTranscriptionTranslational ResearchTranslational ScienceTumor CellVoluntary Muscleactivity markeradulthoodanti-cancer researchbarcodebiomarker developmentcancer in a childcancer in childrencancer researchchemotherapychild with cancerchildhood malignancycomputational analysescomputational analysiscomputational toolboxcomputational toolscomputational toolsetcomputer analysescomputerized toolsconvolutional networkconvolutional neural netsconvolutional neural networkdata miningdataminingdeep learningdeep learning methoddeep learning strategydevelopmentaldisease riskdisorder riskepigeneticallyepigenomicsexperienceglial-derived tumorheterogeneity in tumorsimprovedimproved outcomein vivoin vivo Modelinnovateinnovationinnovativeintra-tumoral heterogeneityintratumor heterogeneitykidsleukemiamachine based learningmachine learned algorithmmachine learning algorithmmachine learning based algorithmmalignancymethylation patternmethylomemultidisciplinarymyogenesisneoplasm recurrenceneoplasm/cancerneoplastic cellneuroglia neoplasmneuroglia tumornovelorphan disorderpathwaypatient derived xenograft modelpediatricpediatric cancerpediatric malignancypilot studypost treatmentpreservationprognostic significancepromoterpromotorprototypereconstitutereconstitutionreduce riskreduce risksreduce that riskreduce the riskreduce these risksreduces riskreduces the riskreducing riskreducing the riskresistance to therapyresistantresistant to therapyresponserisk-reducingsNuc-SeqscATAC sequencingscATAC-seqscRNA sequencingscRNA-seqsingle cell ATAC-seqsingle cell ATAC-sequencingsingle cell Assay for Transposase Accessible Chromatin sequencingsingle cell RNA-seqsingle cell RNAseqsingle cell expression profilingsingle cell sequencing assay for transposase accessible chromatinsingle cell transcriptomic profilingsingle nucleus RNA-sequencingsingle nucleus seqsingle-cell Assay for Transposase-Accessible Chromatin with sequencingsingle-cell RNA sequencingsingle-cell assay for transposase-accessible chromatin using sequencingsingle-cell assay for transposase-accessible chromatin-seqsingle-nucleus RNA-seqsnRNA sequencingsnRNA-seqsocial rolesoft tissuetherapeutic resistancetherapy resistanttranscriptome sequencingtranscriptomic sequencingtranscriptomicstranslation researchtranslational investigationtreatment resistancetumortumor DNAtumor cell DNAtumor heterogeneitytumor-specific DNAyoungster
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Full Description

PROJECT SUMMARY / ABSTRACT
Rhabdomyosarcoma (RMS) is a devastating pediatric soft tissue cancer with morphological features of develop-
ing skeletal muscles. Although most patients with RMS achieve a complete remission, one third will develop
disease recurrence which is associated with a dismal clinical outcome. These clinical challenges underscore an
urgent need to identify patients at risk for resistance and develop better therapy to reduce the risk of recurrence.
Our pilot study revealed that rhabdomyosarcoma tumors have developmental intratumoral heterogeneity: differ-
ent cells in a single tumor harbor transcriptomic feature of different myogenic stages. Moreover, tumor cells with
developmentally immature characteristics are enriched in post-therapy specimens and have the potential to rep-
licate and reconstitute the entire developmental trajectory after therapy. In this application, we will develop com-
putational analysis methods to unambiguously identify immature tumor subpopulations in single cell RNA-seq
data and to reveal their master deregulated genes (Aim 1); In Aim 2, we will characterize the changes in those
transcriptional networks and cellular states during treatment in orthoptic patient derived xenograft models (O-
PDXs) in vivo. And in Aim 3, we will develop an innovative deep-learning data mining approach to evaluate the
prognostic significance of the myogenic transcriptional networks that underly RMS cellular heterogeneity in pa-
tient tumors. The proposed study integrates computational, statistical and experimental approaches to study the
role of immature cell populations in rhabdomyosarcoma recurrence. Building upon our computational expertise,
research experience in rhabdomyosarcoma, robust preliminary results and highly productive collaborations with
multi-disciplinary expertise in genomics/epigenomics, machine learning, Bayesian statistics and translational re-
search in rhabdomyosarcoma, we are in a unique position to achieve the goals of this research proposal. The
proposed research will be impactful because it will potentially change how we treat children with rhabdomyosar-
coma and the developed computational/statistical approaches will be broadly applicable to cancer research.

Grant Number: 5R01CA262790-05
NIH Institute/Center: NIH
Principal Investigator: Xiang Chen

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