Project description:Comprehensive expression profiling of disseminated neuroblastoma with favorable and unfavorable outcome using SAGE. Results provide insight into the molecular pathogenesis of spontaneous regression and progression of metastatic neuroblastoma and may be used for improving risk estimation of patients with disseminated neuroblastoma. Keywords: gene expression SAGE-based, neuroblastoma, primary tumor, disseminated disease Samples analyzed: 9 (stage 4S neuroblastoma: n=5, stage 4 neuroblastoma: n=3, neuroblastoma cell line: n=1)

Project description:Comprehensive expression profiling of disseminated neuroblastoma with favorable and unfavorable outcome using SAGE. Results provide insight into the molecular pathogenesis of spontaneous regression and progression of metastatic neuroblastoma and may be used for improving risk estimation of patients with disseminated neuroblastoma. Keywords: gene expression SAGE-based, neuroblastoma, primary tumor, disseminated disease

Project description:The stabilization of MYCN by FOXR2 represents an alternative mechanism to MYCN amplification to increase MYCN protein levels. As such, FOXR2 expression identifies another subset of neuroblastoma patients with unfavorable clinical outcome. Background: Clinical outcomes of neuroblastoma patients range from spontaneous tumor regression to fatality. Hence, understanding the mechanisms that cause tumor progression are crucial for the treatment of patients. In this study, we show that FOXR2 activation identifies a subset of neuroblastoma tumors with unfavorable outcome and we investigate the mechanism how FOXR2 relates to poor outcome in patients.

Project description:Background: Early prognostication is a major challenge after out-of-hospital cardiac arrest (OHCA). Aims: We hypothesized that a genome-wide analysis of blood gene expression could offer new prognostic tools and lines of research. Methods: Sixty-nine patients were enrolled from an ancillary study of the clinical trial NCT00999583 that tested the effect of erythropoietin (EPO) after OHCA. Blood samples were collected in comatose survivors of OHCA at hospital admission and 1 and 3 days after resuscitation. Gene expression profiles were analyzed (Illumina HumanHT-12 V4 BeadChip; >34,000 genes). Patients were classified into two categories representing neurologically favorable outcome (Cerebral Performance Category [CPC] = 1-2) vs unfavorable outcome (CPC>2) at Day 60 after OHCA. Differential and functional enrichment analyses were performed to compare transcriptomic profiles between these two categories. Results: Among the 69 enrolled patients, 33 and 36 patients were treated or not by EPO, respectively. Among them, 42% had a favorable neurological outcome in both groups. EPO did not affect the transcriptomic response at Day-0 and 1 after OHCA. In contrast, 76 transcripts differed at Day-0 between patients with unfavorable vs favorable neurological outcome. This signature persisted at Day-1 after OHCA. Functional enrichment analysis revealed a down-regulation of adaptive immunity with concomitant up-regulation of innate immunity and inflammation in patients with unfavorable vs favorable neurological outcome. The transcription of many genes of the HLA family was decreased in patients with unfavorable vs favorable neurological outcome. Concomitantly, neutrophil activation and inflammation were observed. Up-stream regulators analysis showed the implication of numerous factors involved in cell cycle and damages. A logistic regression including a set of genes allowed a reliable prediction of the clinical outcomes (Specificity=88%; Hit Rate=83%). Conclusions: A transcriptomic signature involving a counterbalance between adaptive and innate immune responses is able to predict neurological outcome very early after hospital admission after OHCA. This deserves confirmation in a larger population.

Project description:Patients with INSS stage 3, MYCN–non-amplified, unfavorable histology neuroblastoma represent a rare subset of children with outcomes that are inferior to those of most patients with advanced locoregional disease, and superior to those of most high-risk patients. We evaluated the impact of clinical variables on outcome and used available tumor samples from subjects within this subgroup to correlate whole exome sequencing (WES) and RNA sequencing (RNASeq) profiles with outcome. We found that subjects with tumors harboring chromosome 11q losses had inferior outcomes and describe an expression profile with universally favorable outcomes. These findings provide a framework for a refined risk stratification where patients with 11q loss could be included with traditional high-risk groups and patients with a favorable expression profile could be considered to have non-high-risk disease.

Project description:The prognosis of the patients with neuroblastoma largely depends on the biological characteristics. Neuroblastoma tissues obtained before any treatments were analyzed for gene expression using Affymetrix array. We used microarrays to detail the global programme of gene expression distinguishing tumor biology of neuroblastoma tissues from the prognosis of the patients. Experiment Overall Design: 51 neuroblastoma samples were selected those resected from the patients who died of tumor progression and those whose tumor regressed or matured spontaneously. Total RNA was extracted from these tissues samples and hybridized on Affymetrix microarrays. We sought to obtain genes to distinguish unfavorable tumors from favorable tumors.

Project description:FOXR2 stabilizes MYCN protein and identifies non-MYCN-amplified neuroblastoma patients with unfavorable outcome

Project description:Long noncoding RNAs (lncRNAs), one type of endogenous RNA longer than 200 nucleotides, play emerging roles in tumorigenesis and aggressiveness. However, the functions and underlying mechanisms of lncRNAs in regulating neuroblastoma progression still remain elusive. We identify HNF4A antisense RNA 1 (HNF4A-AS1), a lncRNA derived from upstream region of hepatocyte nuclear factor 4 alpha (HNF4A), as a novel driver of neuroblastoma progression. To investigate the mechanisms underlying the oncogenic functions of HNF4A-AS1, we employed the Illumina HiSeq X Ten as a discovery platform to analyze the transcriptome profiling changes of human neuroblastoma SH-SY5Y cells in response to stable over-expression of HNF4A-AS1. The results showed that stable over-expression of HNF4A-AS1 led to altered expression of 4296 human mRNAs, including 2169 up-regulated genes and 2127 down-regulated genes. Furthermore, we validated the RNA-seq results by real-time RT-PCR with high identity. Overall, our results provided fundamental information about the transcriptomic changes in response to HNF4A-AS1 over-expression in human tumor cells, and these findings will help us understand the pathogenesis of tumor progression.

Project description:Long noncoding RNAs (lncRNAs), one type of endogenous RNA longer than 200 nucleotides, play emerging roles in tumorigenesis and aggressiveness. However, the functions and underlying mechanisms of lncRNAs in regulating neuroblastoma progression still remain elusive. We identify GATA2 antisense RNA 1 (GATA2-AS1), a lncRNA derived from GATA binding protein 2 (GATA2), as a novel suppressor of neuroblastoma progression. To investigate the mechanisms underlying the oncogenic functions of GATA2-AS1, we employed the Illumina HiSeq X Ten as a discovery platform to analyze the transcriptome profiling changes of human neuroblastoma BE(2)-C cells in response to stable over-expression of GATA2-AS1. The results showed that stable over-expression of GATA2-AS1 led to altered expression of 1933 human mRNAs, including 857 up-regulated genes and 1076 down-regulated genes. Furthermore, we validated the RNA-seq results by real-time RT-PCR with high identity. Overall, our results provided fundamental information about the transcriptomic changes in response to GATA2-AS1 over-expression in human tumor cells, and these findings will help us understand the pathogenesis of tumor progression.

Project description:Genomic information from human patient samples of pediatric neuroblastoma cancers and known outcomes have led to specific gene lists put forward as high risk for disease progression. However, the reliance on gene expression correlations rather than mechanistic insight has shown limited potential and suggests a critical need for molecular network models that better predict neuroblastoma progression. In this study, we construct and simulate a molecular network of developmental genes and downstream signals in a 6-gene input logic model that predicts a favorable/unfavorable outcome based on the outcome of the four cell states including cell differentiation, proliferation, apoptosis, and angiogenesis. We simulate the mis-expression of the tyrosine receptor kinases, trkA and trkB, two prognostic indicators of neuroblastoma, and find differences in the number and probability distribution of steady state outcomes. We validate the mechanistic model assumptions using RNAseq of the SHSY5Y human neuroblastoma cell line to define the input states and confirm the predicted outcome with antibody staining. Lastly, we apply input gene signatures from 77 published human patient samples and show that our model makes more accurate disease outcome predictions for early stage disease than any current neuroblastoma gene list. These findings highlight the predictive strength of a logic-based model based on developmental genes and offer a better understanding of the molecular network interactions during neuroblastoma disease progression.