Project description: Not available

Project description:To explore the mechanism underlying anti-leukaemia effect of sodium valproate, the growth and survival of the K562 cell line were investigated using the Annexin V/PI dual staining method. Global profiles of gene expression in K562 cells exposed to sodium valproate were assessed using gene expression microarray and validated by qRT-PCR. Gene ontology analysis was performed to establish the function of differentially expressed genes. The differentially expressed genes identified by using gene expression array were further used to query the CMAP database to retrieve a ranked list of compounds that act on the same intracellular targets as sodium valproate. A significant increase in cell apoptosis was observed in valproate exposed K562 cells using flow cytometry. A total of 706 transcripts were identified as being significantly differentially expressed. Eight differentially expressed genes that might be involved in apoptosis were verified by qRT-PCR. The significant enrichment analysis of gene ontology terms for the differentially expressed genes revealed that these genes are involved in many important biological processes such as apoptosis. The connectivity map analysis showed gene expression profile in K562 cells exposed to sodium valproate observed in this study was most similar to that of HDACi and PI3K inhibitor in the connectivity map database, suggesting that sodium valproate might exert anti-leukaemic action by inhibiting HDAC as well as inhibiting PI3K pathway. In conclusion, the data obtained in this study might provide the ground for further studies to elucidate the molecular and therapeutic potential of VPA in leukaemia treatment.

Project description:To explore the mechanism underlying anti-leukaemia effect of sodium valproate, the growth and survival of the K562 cell line were investigated using the Annexin V/PI dual staining method. Global profiles of gene expression in K562 cells exposed to sodium valproate were assessed using gene expression microarray and validated by qRT-PCR. Gene ontology analysis was performed to establish the function of differentially expressed genes. The differentially expressed genes identified by using gene expression array were further used to query the CMAP database to retrieve a ranked list of compounds that act on the same intracellular targets as sodium valproate. A significant increase in cell apoptosis was observed in valproate exposed K562 cells using flow cytometry. A total of 706 transcripts were identified as being significantly differentially expressed. Eight differentially expressed genes that might be involved in apoptosis were verified by qRT-PCR. The significant enrichment analysis of gene ontology terms for the differentially expressed genes revealed that these genes are involved in many important biological processes such as apoptosis. The connectivity map analysis showed gene expression profile in K562 cells exposed to sodium valproate observed in this study was most similar to that of HDACi and PI3K inhibitor in the connectivity map database, suggesting that sodium valproate might exert anti-leukaemic action by inhibiting HDAC as well as inhibiting PI3K pathway. In conclusion, the data obtained in this study might provide the ground for further studies to elucidate the molecular and therapeutic potential of VPA in leukaemia treatment. Gene expression in K562 cell line were measured after exposure to 2 mM valproate for 12 hours or left untreated as a control using Agilent SurePrint G3 Human GE 8x60K Microarray.

Project description:Preeclampsia (PE), which affects 2-7% of human pregnancies, causes significant maternal and neonatal morbidity and mortality. To better understand the pathophysiology of PE, gene expression profiling of placental tissue from 5 controls and 5 PEs were assessed using microarray. A total of 224 transcripts were identified as being significantly differentially expressed (fold change > 2 and q value < 0.05 in the SAM software), GO enrichment analysis indicated that genes involved hypoxia, oxidative and reductive processes were significantly changed. Ten differentially expressed genes (DEGs) involved in these biological process were further verified by quantitative real-time PCR. Finally, the potential therapeutic agents for PE were explored via Connectivity Map database . In conclusion, the data obtained in this study might provide clues to better understand the pathophysiology of PE and found potential therapeutic agents for PE patients.

Project description:Preeclampsia (PE), which affects 2-7% of human pregnancies, causes significant maternal and neonatal morbidity and mortality. To better understand the pathophysiology of PE, gene expression profiling of placental tissue from 5 controls and 5 PEs were assessed using microarray. A total of 224 transcripts were identified as being significantly differentially expressed (fold change > 2 and q value < 0.05 in the SAM software), GO enrichment analysis indicated that genes involved hypoxia, oxidative and reductive processes were significantly changed. Ten differentially expressed genes (DEGs) involved in these biological process were further verified by quantitative real-time PCR. Finally, the potential therapeutic agents for PE were explored via Connectivity Map database . In conclusion, the data obtained in this study might provide clues to better understand the pathophysiology of PE and found potential therapeutic agents for PE patients. gene expression profiling of placental tissue from 5 controls and 5 PEs were assessed using microarray.

Project description:To investigate the effect of valproate (VPA) treatment on K562 cell line, the growth and survival of the K562 cell line were investigated using the Annexin V/PI dual staining method, and global profiles of gene expression and alternative splicing in K562 cells were assessed using exon microarray. A significant increase in cell apoptosis was observed in valproate exposed K562 cells using flow cytometry. A total of 628 transcripts were identified as being significantly differentially expressed. The number of genes demonstrating increased expression levels was greater than the number of genes demonstrating decreased expression levels (445 genes vs. 183 genes, respectively). The significant enrichment analysis of GO terms for the differentially expressed genes revealed that these genes are involved in many important biological processes such as apoptosis. Six of observed differentially expressed genes that might be involved in apoptosis were selected to undergo qRT-PCR validation. In total, 198 candidates of alternative splicing variants were identified. Among them, three alternative splicing events were selected for validation, and CBLC and TBX1 were confirmed as alternative splicing by semi-nested PCR. In conclusion, valproate exposure facilitated cell apoptosis, altered mRNA expression and alternative splicing events in the K562 cell line. Gene expression/alternative splicing in K562 cell line were measured after exposure to 2 mM valproate for 12 hours or left untreated as a control using exon array.

Project description:To investigate the effect of valproate (VPA) treatment on K562 cell line, the growth and survival of the K562 cell line were investigated using the Annexin V/PI dual staining method, and global profiles of gene expression and alternative splicing in K562 cells were assessed using exon microarray. A significant increase in cell apoptosis was observed in valproate exposed K562 cells using flow cytometry. A total of 628 transcripts were identified as being significantly differentially expressed. The number of genes demonstrating increased expression levels was greater than the number of genes demonstrating decreased expression levels (445 genes vs. 183 genes, respectively). The significant enrichment analysis of GO terms for the differentially expressed genes revealed that these genes are involved in many important biological processes such as apoptosis. Six of observed differentially expressed genes that might be involved in apoptosis were selected to undergo qRT-PCR validation. In total, 198 candidates of alternative splicing variants were identified. Among them, three alternative splicing events were selected for validation, and CBLC and TBX1 were confirmed as alternative splicing by semi-nested PCR. In conclusion, valproate exposure facilitated cell apoptosis, altered mRNA expression and alternative splicing events in the K562 cell line.

Project description:This study provides an evaluation of changes in gene expression associated with sodium valproate treatment of rat hepatocytes in vitro. Primary rat hepatocytes were treated for 24 and 48 hours with two doses (500 uM and 10 mM) of sodium valproate and water vehicle control. Five replicates of each treatment were performed. Cells were then extracted and RNA processed for microarray analysis.

Project description:Hirschsprung disease (HD) is a congenital intestinal anomaly, which derives from a failure to form enteric ganglia in the lower bowel. Surgery is a major therapeutic strategy and neural stem cells transplantation is believed as a promising approach. However, we still face many challenges. To better characterize the pathology of HD, we used Agilent microarrays to analyze the gene expression profiles of surgically resected bowel tissue from 8 HD patients and 8 controls. A total of 253 genes were differentially expressed between the two groups using SAM software with threshold set at fold-change >2.0 and q-value <0.05. Gene Ontology analysis demonstrated that genes related to regulation of neuron development were significantly enriched. Differentially expressed genes (DEGs) involved in neuron development were further validated by quantitative real-time PCR (qRT-PCR) and immunohistochemistry. Moreover, in an attempt to seek potential drugs for HD, we correlated the observed gene expression patterns in HD to those of small molecule compounds via the Connectivity Map (cMap) database. Several compounds were screened that could rescue the dysregulated molecular signature in HD, proposing a testable hypothesis about possible therapeutic agents as a novel remedy for HD. In conclusion, our work may enhance our understanding the molecular changes in HD. More importantly, this study opens new fields of investigation into pharmacological intervention for HD.

Project description: Not available