Your search keyword '"XIAO Pei-fang"' showing total 16 results

1. Effect of Mediterranean diet on brain and heart comorbidity in the elderly

Author

XIAO Pei⁃fang

Subjects

diet, mediterranean, healthy aging, review, Neurology. Diseases of the nervous system, RC346-429

Abstract

With the aggravation of population aging, the health of the elderly has become an important issue in the aging society. The Mediterranean diet (MD) contributes to healthy aging by changing dietary patterns to delay and prevent disease onset. This paper summarizes the concepts related to the MD pattern and its relationship with cardiovascular diseases, cognitive dysfunction, depression, chronic inflammation and other brain and heart comorbidity in the elderly, so as to provide thinking and reference for the optimization and upgrading of the elderly, and contribute to the development of healthy China.

Published

2024

2. Molecular Mechanism of the Cell Death Induced by the Histone Deacetylase Pan Inhibitor LBH589 (Panobinostat) in Wilms Tumor Cells.

Author

Tao Yan-Fang, Li Zhi-Heng, Xu Li-Xiao, Fang Fang, Lu Jun, Li Gang, Cao Lan, Wang Na-Na, Du Xiao-Juan, Sun Li-Chao, Zhao Wen-Li, Xiao Pei-Fang, Zhao He, Su Guang-Hao, Li Yan-Hong, Li Yi-Ping, Xu Yun-Yun, Zhou Hui-Ting, Wu Yi, Jin Mei-Fang, Liu Lin, Ni Jian, Hu Shao-Yan, Zhu Xue-Ming, Feng Xing, Wang Jian, and Pan Jian

Subjects

Medicine, Science

Abstract

Wilms tumor (WT) is an embryonic kidney cancer, for which histone acetylation might be a therapeutic target. LBH589, a novel targeted agent, suppresses histone deacetylases in many tumors. This study investigated the antitumor activity of LBH589 in SK-NEP-1 and G401 cells.SK-NEP-1 and G401 cell growth was assessed by CCK-8 and in nude mice experiments. Annexin V/propidium iodide staining followed by flow cytometry detected apoptosis in cell culture. Gene expressions of LBH589-treated tumor cells were analyzed using an Arraystar Human LncRNA Array. The Multi Experiment View cluster software analyzed the expression data. Differentially expressed genes from the cluster analyses were imported into the Ingenuity Pathway Analysis tool.LBH589 inhibited cell proliferation of SK-NEP-1 and G401 cells in a dose-dependent manner. Annexin V, TUNEL and Hochest 33342 staining analysis showed that LBH589-treated cells showed more apoptotic features compared with the control. LBH589 treatment inhibited the growth of SK-NEP-1 xenograft tumors in nude mice. Arraystar Human LncRNA Array analysis of genes and lncRNAs regulated by LBH589 identified 6653 mRNAs and 8135 lncRNAs in LBH589-treated SK-NEP-1 cells. The most enriched gene ontology terms were those involved in nucleosome assembly. KEGG pathway analysis identified cell cycle proteins, including CCNA2, CCNB2, CCND1, CCND2, CDK4, CDKN1B and HDAC2, etc. Ingenuity Pathway Analysis identified important upstream molecules: HIST2H3C, HIST1H4A, HIST1A, HIST1C, HIST1D, histone H1, histone H3, RPRM, HSP70 and MYC.LBH589 treatment caused apoptosis and inhibition of cell proliferation of SK-NEP-1and G401 cells. LBH589 had a significant effect and few side effects on SK-NEP-1 xenograft tumors. Expression profiling, and GO, KEGG and IPA analyses identified new targets and a new "network" of genes responding to LBH589 treatment in SK-NEP-1 cells. RPRM, HSP70 and MYC may be important regulators during LBH589 treatment. Our results provide new clues to the proapoptotic mechanism of LBH589.

Published

2015

3. Survivin selective inhibitor YM155 induce apoptosis in SK-NEP-1 Wilms tumor cells

Author

Tao Yan-Fang, Lu Jun, Du Xiao-Juan, Sun Li-Chao, Zhao Xuan, Peng Liang, Cao Lan, Xiao Pei-Fang, Pang Li, Wu Dong, Wang Na, Feng Xing, Li Yan-Hong, Ni Jian, Wang Jian, and Pan Jian

Subjects

YM155, SK-NEP-1, Survivin, Apoptosis, Real-time PCR array, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Survivin, a member of the family of inhibitor of apoptosis proteins, functions as a key regulator of mitosis and programmed cell death. YM155, a novel molecular targeted agent, suppresses survivin, which is overexpressed in many tumor types. The aim of this study was to determine the antitumor activity of YM155 in SK-NEP-1 cells. Methods SK-NEP-1 cell growth in vitro and in vivo was assessed by MTT and nude mice experiments. Annexin V/propidium iodide staining followed by flow cytometric analysis was used to detect apoptosis in cell culture. Then gene expression profile of tumor cells treated with YM155 was analyzed with real-time PCR arrays. We then analyzed the expression data with MEV (Multi Experiment View) cluster software. Datasets representing genes with altered expression profile derived from cluster analyses were imported into the Ingenuity Pathway Analysis tool. Results YM155 treatment resulted in inhibition of cell proliferation of SK-NEP-1cells in a dose-dependent manner. Annexin V assay, cell cycle, and activation of caspase-3 demonstrates that YM155 induced apoptosis in SK-NEP-1 cells. YM155 significantly inhibited growth of SK-NEP-1 xenografts (YM155 5 mg/kg: 1.45 ± 0.77 cm3; YM155 10 mg/kg: 0.95 ± 0.55 cm3) compared to DMSO group (DMSO: 3.70 ± 2.4 cm3) or PBS group cells (PBS: 3.78 ± 2.20 cm3, ANOVA P < 0.01). YM155 treatment decreased weight of tumors (YM155 5 mg/kg: 1.05 ± 0.24 g; YM155 10 mg/kg: 0.72 ± 0.17 g) compared to DMSO group (DMSO: 2.06 ± 0.38 g) or PBS group cells (PBS: 2.36 ± 0.43 g, ANOVA P < 0.01). Real-time PCR array analysis showed between Test group and control group there are 32 genes significantly up-regulated and 54 genes were significantly down-regulated after YM155 treatment. Ingenuity pathway analysis (IPA) showed cell death was the highest rated network with 65 focus molecules and the significance score of 44. The IPA analysis also groups the differentially expressed genes into biological mechanisms that are related to cell death, cellular function maintenance, cell morphology, carbohydrate metabolism and cellular growth and proliferation. Death receptor signaling (3.87E-19), TNFR1 signaling, induction of apoptosis by HIV1, apoptosis signaling and molecular mechanisms of cancer came out to be the top four most significant pathways. IPA analysis also showed top molecules up-regulated were BBC3, BIRC3, BIRC8, BNIP1, CASP7, CASP9, CD5, CDKN1A, CEBPG and COL4A3, top molecules down-regulated were ZNF443, UTP11L, TP73, TNFSF10, TNFRSF1B, TNFRSF25, TIAF1, STK17A, SST and SPP1, upstream regulator were NR3C1, TP53, dexamethasone , TNF and Akt. Conclusions The present study demonstrates that YM155 treatment resulted in apoptosis and inhibition of cell proliferation of SK-NEP-1cells. YM155 had significant role and little side effect in the treatment of SK-NEP-1 xenograft tumors. Real-time PCR array analysis firstly showed expression profile of genes dyes-regulated after YM155 treatment. IPA analysis also represents new molecule mechanism of YM155 treatment, such as NR3C1 and dexamethasone may be new target of YM155. And our results may provide new clues of molecular mechanism of apoptosis induced by YM155.

Published

2012

4. Clinical presentation and outcome of pediatric patients with hemophagocytic lymphohistiocytosis in China: A retrospective multicenter study.

Author

Xu, Xiao‐Jun, Wang, Hong‐Sheng, Ju, Xiu‐Li, Xiao, Pei‐Fang, Xiao, Yan, Xue, Hong‐Man, Shi, Hong‐Yu, Gao, Yi‐Jin, Jia, Guo‐Cun, Li, Xue‐Rong, Zhao, Wei‐Hong, Wang, Ning‐Ling, Tang, Yong‐Min, Xu, Xiao-Jun, Wang, Hong-Sheng, Ju, Xiu-Li, Xiao, Pei-Fang, Xue, Hong-Man, Shi, Hong-Yu, and Gao, Yi-Jin

Published

2017

5. Molecular Mechanism of the Cell Death Induced by the Histone Deacetylase Pan Inhibitor LBH589 (Panobinostat) in Wilms Tumor Cells

Author

Su Guang-Hao, Xu Li-Xiao, Liu Lin, Zhu Xue-ming, Fang Fang, Hu Shao-Yan, Xiao Pei-Fang, Li Zhi-Heng, Jin Mei-fang, Ni Jian, Du Xiao-Juan, Cao Lan, Wang Jian, Xu Yun-Yun, Lu Jun, Tao Yan-Fang, Wu Yi, Li Yan-Hong, Zhou Hui-Ting, Zhao He, Feng Xing, Li Yi-Ping, Zhao Wen-Li, Wang Na-Na, Li Gang, Pan Jian, and Sun Lichao

Subjects

Indoles, Mice, Nude, lcsh:Medicine, Apoptosis, Hydroxamic Acids, Wilms Tumor, Mice, chemistry.chemical_compound, Cell Line, Tumor, Panobinostat, medicine, Animals, Humans, Cancer epigenetics, lcsh:Science, Cell Proliferation, Histone deacetylase 5, Multidisciplinary, biology, HDAC11, fungi, lcsh:R, Wilms' tumor, medicine.disease, Xenograft Model Antitumor Assays, Molecular biology, Gene Expression Regulation, Neoplastic, Histone Deacetylase Inhibitors, Gene Ontology, Histone, chemistry, Acetylation, biology.protein, RNA, Long Noncoding, lcsh:Q, Histone deacetylase, Research Article

Abstract

Background Wilms tumor (WT) is an embryonic kidney cancer, for which histone acetylation might be a therapeutic target. LBH589, a novel targeted agent, suppresses histone deacetylases in many tumors. This study investigated the antitumor activity of LBH589 in SK-NEP-1 and G401 cells. Methods SK-NEP-1 and G401 cell growth was assessed by CCK-8 and in nude mice experiments. Annexin V/propidium iodide staining followed by flow cytometry detected apoptosis in cell culture. Gene expressions of LBH589-treated tumor cells were analyzed using an Arraystar Human LncRNA Array. The Multi Experiment View cluster software analyzed the expression data. Differentially expressed genes from the cluster analyses were imported into the Ingenuity Pathway Analysis tool. Results LBH589 inhibited cell proliferation of SK-NEP-1 and G401 cells in a dose-dependent manner. Annexin V, TUNEL and Hochest 33342 staining analysis showed that LBH589-treated cells showed more apoptotic features compared with the control. LBH589 treatment inhibited the growth of SK-NEP-1 xenograft tumors in nude mice. Arraystar Human LncRNA Array analysis of genes and lncRNAs regulated by LBH589 identified 6653 mRNAs and 8135 lncRNAs in LBH589-treated SK-NEP-1 cells. The most enriched gene ontology terms were those involved in nucleosome assembly. KEGG pathway analysis identified cell cycle proteins, including CCNA2, CCNB2, CCND1, CCND2, CDK4, CDKN1B and HDAC2, etc. Ingenuity Pathway Analysis identified important upstream molecules: HIST2H3C, HIST1H4A, HIST1A, HIST1C, HIST1D, histone H1, histone H3, RPRM, HSP70 and MYC. Conclusions LBH589 treatment caused apoptosis and inhibition of cell proliferation of SK-NEP-1and G401 cells. LBH589 had a significant effect and few side effects on SK-NEP-1 xenograft tumors. Expression profiling, and GO, KEGG and IPA analyses identified new targets and a new “network” of genes responding to LBH589 treatment in SK-NEP-1 cells. RPRM, HSP70 and MYC may be important regulators during LBH589 treatment. Our results provide new clues to the proapoptotic mechanism of LBH589.

Published

2015

6. The Outcome of Childhood Acute Lymphoblastic Leukemia with MLL Gene Rearrangement Treated with the Protocol (CCLG-ALL2008)

Author

SUN, Yina, Chai, Yi-huan, He, Hai-long, LU, Jun, WANG, Yi, Zhao, Wen-li, Xiao, Pei-fang, Fan, Jun-jie, and Hu, Shaoyan

Published

2014

7. The promoter of miR-663 is hypermethylated in Chinese pediatric acute myeloid leukemia (AML).

Author

Tao Yan-Fang, Ni Jian, Lu Jun, Wang Na, Xiao Pei-Fang, Zhao Wen-Li, Wu Dong, Pang Li, Wang Jian, Feng Xing, and Pan Jian

Subjects

MICRORNA, EPIGENETICS, LEUKEMIA, BONE marrow, CELL culture

Abstract

Background: There is growing evidence supporting a role for microRNAs (miRNA) as targets in aberrant mechanisms of DNA hypermethylation. Epigenetic silencing of tumor suppressor miRNAs, including miR-663, which has recently been reported to be inactivated by hypermethylation in several cancers, may play important roles in pediatric acute myeloid leukemia (AML). However, expression of miR-663 and its promoter methylation remain status unclear in childhood leukemia. Methods: Promoter methylation status of miR-663 was investigated by methylation specific PCR (MSP) and bisulfate genomic sequencing (BGS). Transcriptional expression of miR-663 was evaluated by semi-quantitative and real-time PCR, and the relationship between expression of miR-663 and promoter methylation was confirmed using 5-aza-2'-deoxycytidine (5-Aza) demethylation reagent. Results: MiR-663 was aberrantly methylated in 45.5% (5/11) leukemia cell lines; BGS showed that the promoter was significantly methylated in three AML cell lines; methylation of miR-663 was significantly higher in Chinese pediatric AML patients [41.4% (29/70)] compared to normal bone marrow (NBM) control samples [10.0% (3/30)]. These results were confirmed by both BGS and 5-Aza demethylation analysis. In addition, miR-663 transcript expression was significantly lower in AML patients, both with and without miR-663 methylation, compared to controls; however, there were no significant differences in clinical features or French-American-British (FAB) classification between patients with and without miR-663 methylation. Conclusions: Expression of miR-663 was significantly lower in pediatric AML cells compared to NBM controls; furthermore, a high frequency of miR-663 promoter hypermethylation was observed in both AML cell lines and pediatric AML samples. Inactivation of miR-663 by promoter hypermethylation could be affected by 5-Aza demethylation. These findings suggest that hypermethylation of the miR-663 promoter may be an early event in the development of pediatric AML. [ABSTRACT FROM AUTHOR]

Published

2013

8. Metallothionein III (MT3) is a putative tumor suppressor gene that is frequently inactivated in pediatric acute myeloid leukemia by promoter hypermethylation.

Author

Tao, Yan-Fang, Xu, Li-Xiao, Lu, Jun, Cao, Lan, Li, Zhi-Heng, Hu, Shao-Yan, Wang, Na-Na, Du, Xiao-Juan, Sun, Li-Chao, Zhao, Wen-Li, Xiao, Pei-Fang, Fang, Fang, Li, Yan-Hong, Li, Gang, Zhao, He, Li, Yi-Ping, Xu, Yun-Yun, Ni, Jian, Wang, Jian, and Feng, Xing

Abstract

Background: Acute myeloid leukemia (AML) is the second most common form of leukemia in children. Aberrant DNA methylation patterns are a characteristic feature in various tumors, including AML. Metallothionein III (MT3) is a tumor suppresser reported to show promoter hypermethylated in various cancers. However, the expression and molecular function of MT3 in pediatric AML is unclear.Methods: Eleven human leukemia cell lines and 41 pediatric AML samples and 20 NBM/ITP (Norma bone marrow/Idiopathic thrombocytopenic purpura) control samples were analyzed. Transcription levels of MT3 were evaluated by semi-quantitative and real-time PCR. MT3 methylation status was determined by methylation specific PCR (MSP) and bisulfite genomic sequencing (BSG). The molecular mechanism of MT3 was investigated by apoptosis assays and PCR array analysis.Results: The MT3 promoter was hypermethylated in leukemia cell lines. More CpG's methylated of MT3 was observed 39.0% pediatric AML samples compared to 10.0% NBM controls. Transcription of MT3 was also significantly decreased in AML samples compared to NBM/ITP controls (P < 0.001); patients with methylated MT3 exhibited lower levels of MT3 expression compared to those with unmethylated MT3 (P = 0.049). After transfection with MT3 lentivirus, proliferation was significantly inhibited in AML cells in a dose-dependent manner (P < 0.05). Annexin V assay showed that apoptosis was significantly upregulated MT3-overexpressing AML cells compared to controls. Real-time PCR array analysis revealed 34 dysregulated genes that may be implicated in MT3 overexpression and apoptosis in AML, including FOXO1.Conclusion: MT3 may be a putative tumor suppressor gene in pediatric AML. Epigenetic inactivation of MT3 via promoter hypermethylation was observed in both AML cell lines and pediatric AML samples. Overexpression of MT3 may inhibit proliferation and induce apoptosis in AML cells. FOXO1 was dysregulated in MT3-overexpressing cells, offering an insight into the mechanism of MT3-induced apoptosis. However, further research is required to determine the underlying molecular details. [ABSTRACT FROM AUTHOR]

Published

2014

9. Proteomic analysis for identifying the differences in molecular profiling between fanconi anaemia and aplastic anaemia.

Author

Hou H, Li D, Yao YH, Lu J, Sun YN, Hu YX, Wu SY, Chu XR, Xiao PF, Xu GQ, and Hu SY

Abstract

Treatment and prognosis of Fanconi anaemia (FA) and acquired aplastic anaemia (AA) differ. However, delayed and inappropriate treatments are administered in FA due to its similarities to AA in presentation. The objective of the current study was to elucidate differences between the molecular mechanisms underlying FA and AA as well as to identify biomarkers and pathways associated with FA via bioinformatics analyses. Proteomic data were obtained from bone marrow samples of patients with FA and AA. Gene ontology analysis was performed using a Database for Annotation, Visualization and Integrated Discovery. KEGG pathway enrichment analyses were conducted using the ClueGO plug-in in Cytoscape. A DEP-associated protein-protein interaction (PPI) network was constructed using STRING and visualized in Cytoscape. A total of 114 DEPs, including 71 upregulated proteins and 43 downregulated proteins, were present in the FA samples, compared with those in the AA samples. Upregulated proteins were enriched in the nucleosome assembly, canonical glycolysis, glycolytic process, and the glycolysis/gluconeogenesis pathway, whereas downregulated proteins were enriched in relation to immune response, negative regulation of apoptosis, proteolysis and CoA biosynthesis. Eight hub proteins with a high degree of connectivity were obtained as follows: alpha-enolase (ENO1), HSP90AA1, phosphoglycerate kinase 1 (PGK1), HSP90AB1, ACTC1, ACTBL2, EEF1A1 and CFL1. Upregulation of ENO1 and CFL1 in patients with FA was confirmed through a WB experiment, and substantiated by the results of data analyses. Bioinformatics analyses are useful for identification of biomarkers and pathways associated with FA and AA. Some crucial DEPs, such as ENO1, PGK1, ACTC1, ACTBL2, EEF1A1 and CFL1, may play an important role in FA and show potential as serological markers for its early diagnosis., Competing Interests: None., (AJTR Copyright © 2019.)

Published

2019

10. mRNA expression profiling of histone modifying enzymes in pediatric acute monoblastic leukemia.

Author

Xiao PF, Tao YF, Hu SY, Cao L, Lu J, Wang J, Feng X, Pan J, and Chai YH

Subjects

Case-Control Studies, Child, Down-Regulation, Enzymes metabolism, Gene Expression Profiling, Gene Expression Regulation, Neoplastic, Humans, Leukemia, Monocytic, Acute enzymology, Leukemia, Monocytic, Acute pathology, Prognosis, Real-Time Polymerase Chain Reaction, Up-Regulation, Enzymes genetics, Histones metabolism, Leukemia, Monocytic, Acute genetics, RNA, Messenger genetics

Abstract

Histone modification is dysregulated in various types of cancers, including hematological malignancies. However, the expression profile of histone-modifying enzymes in pediatric acute monoblastic leukemia (AML FAB M5) has not been investigated. In this study, we evaluated the mRNA expression profile of 85 genes that encode enzymes involved in histone-modification in 27 pediatric AML FAB M5 samples by using a novel real-time PCR array. We obtained a gene cluster consisting of a total of 28 genes (15 up-regulated genes and 13 down-regulated genes). This gene signature revealed up-regulated expression of putative oncogenes GCN5L2, SETD8, KDM5C, AURKA and AURKB, and downregulated putative tumor suppressor genes (TSGs) EP300, PRMT3, PRMT8 and NOTCH2. We investigated possible biological interactions between differentially expressed genes using ingenuity pathway analysis (IPA) and found 12 significant networks. Among these, gene expression, cancer, and embryonic development showed the highest number of networks with 39 focus molecules and had an associated significance score of 68. Further, Rb, CDKN2C, and E2F1 were found to be upstream regulators of histone-modifying enzymes. This study provides additional insights into the molecular pathogenesis of pediatric AML FAB M5. These genes represent interesting targets with potential for diagnostic, prognostic and therapeutic application in pediatric AML patients.

Published

2017

11. Microarray profiling of bone marrow long non-coding RNA expression in Chinese pediatric acute myeloid leukemia patients.

Author

Cao L, Xiao PF, Tao YF, Hu SY, Lu J, Zhao WL, Li ZH, Wang NN, Wang J, Feng X, Chai YH, Pan J, and Gu GX

Subjects

Adolescent, Asian People genetics, Bone Marrow, Child, Child, Preschool, Female, Gene Expression Profiling, Gene Regulatory Networks, Humans, Male, Oligonucleotide Array Sequence Analysis, Polymerase Chain Reaction, RNA, Long Noncoding analysis, Transcriptome, Leukemia, Myeloid, Acute genetics, RNA, Long Noncoding genetics

Abstract

Long non-coding RNA (lncRNA) plays a role in gene transcription, protein expression and epigenetic regulation; and altered expression results in cancer development. Acute myeloid leukemia (AML) is rare in children; and thus, this study profiled lncRNA expression in bone marrow samples from pediatric AML patients. Arraystar Human LncRNA Array V3.0 was used to profile differentially expressed lncRNAs in three bone marrow samples obtained from each pediatric AML patient and normal controls. Quantitative polymerase chain reaction (qRT-PCR) was performed to confirm dysregulated lncRNA expressions in 22 AML bone marrow samples. Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway analyses were performed to construct the lncRNA-mRNA co-expression network. A total of 372 dysregulated lncRNAs (difference ≥10-fold) were found in pediatric AML patients compared to normal controls. Fifty-one mRNA levels were significantly upregulated, while 85 mRNA levels were significantly downregulated by >10-fold in pediatric AML, compared to normal controls. GO terms and KEGG pathway annotation data revealed that cell cycle pathway-related genes were significantly associated with pediatric AML. As confirmed by qRT-PCR, expression of 24 of 97 lncRNA was altered in pediatric AML compared to normal controls. In pediatric AML, ENST00000435695 was the most upregulated lncRNA, while ENST00000415964 was the most downregulated lncRNA. Data from this study revealed dysregulated lncRNAs and mRNAs in pediatric AML versus normal controls that could form gene pathways to regulate cell cycle progression and immunoresponse. Further studies are required to determine whether these lncRNAs could serve as novel therapeutic targets and bbdiagnostic biomarkers in pediatric AML.

Published

2016

12. Hypermethylation of the GATA binding protein 4 (GATA4) promoter in Chinese pediatric acute myeloid leukemia.

Author

Tao YF, Fang F, Hu SY, Lu J, Cao L, Zhao WL, Xiao PF, Li ZH, Wang NN, Xu LX, Du XJ, Sun LC, Li YH, Li YP, Xu YY, Ni J, Wang J, Feng X, and Pan J

Subjects

Adolescent, Child, Child, Preschool, CpG Islands genetics, Female, GATA4 Transcription Factor biosynthesis, Gene Expression Regulation, Leukemic, HL-60 Cells, Humans, Kaplan-Meier Estimate, Leukemia, Myeloid, Acute pathology, Male, Promoter Regions, Genetic, DNA Methylation genetics, GATA4 Transcription Factor genetics, Leukemia, Myeloid, Acute genetics, Prognosis

Abstract

Background: Acute myeloid leukemia (AML) is the second-most common form of leukemia in children. Aberrant DNA methylation patterns are a characteristic feature of AML. GATA4 has been suggested to be a tumor suppressor gene regulated by promoter hypermethylation in various types of human cancers although the expression and promoter methylation of GATA4 in pediatric AML is still unclear., Methods: Transcriptional expression levels of GATA4 were evaluated by semi-quantitative and real-time PCR. Methylation status was investigated by methylation-specific PCR (MSP) and bisulfate genomic sequencing (BGS). The prognostic significance of GATA4 expression and promoter methylation was assessed in 105 cases of Chinese pediatric acute myeloid leukemia patients with clinical follow-up records., Results: MSP and BGS analysis showed that the GATA4 gene promoter is hypermethylated in AML cells, such as the HL-60 and MV4-11 human myeloid leukemia cell lines. 5-Aza treatment significantly upregulated GATA4 expression in HL-60 and MV4-11 cells. Aberrant methylation of GATA4 was observed in 15.0 % (3/20) of the normal bone marrow control samples compared to 56.2 % (59/105) of the pediatric AML samples. GATA4 transcript levels were significantly decreased in AML patients (33.06 ± 70.94; P = 0.011) compared to normal bone marrow/idiopathic thrombocytopenic purpura controls (116.76 ± 105.39). GATA4 promoter methylation was correlated with patient leukocyte counts (WBC, white blood cells) (P = 0.035) and minimal residual disease MRD (P = 0.031). Kaplan-Meier survival analysis revealed significantly shorter overall survival time in patients with GATA4 promoter methylation (P = 0.014)., Conclusions: Epigenetic inactivation of GATA4 by promoter hypermethylation was observed in both AML cell lines and pediatric AML samples; our study implicates GATA4 as a putative tumor suppressor gene in pediatric AML. In addition, our findings imply that GATA4 promoter methylation is correlated with WBC and MRD. Kaplan-Meier survival analysis revealed significantly shorter overall survival in pediatric AML with GATA4 promoter methylation but multivariate analysis shows that it is not an independent factor. However, further research focusing on the mechanism of GATA4 in pediatric leukemia is required.

Published

2015

13. Analyzing the gene expression profile of anaplastic histology Wilms' tumor with real-time polymerase chain reaction arrays.

Author

Lu J, Tao YF, Li ZH, Cao L, Hu SY, Wang NN, Du XJ, Sun LC, Zhao WL, Xiao PF, Fang F, Xu LX, Li YH, Li G, Zhao H, Ni J, Wang J, Feng X, and Pan J

Abstract

Background: Wilms' tumor (WT) is one of the most common malignant neoplasms of the urinary tract in children. Anaplastic histology (unfavorable histology) accounts for about 10% of whole WTs, and it is the single most important histologic predictor of treatment response and survival in patients with WT; however, until now the molecular basis of this phenotype is not very clearly., Methods: A real-time polymerase chain reaction (PCR) array was designed and tested. Next, the gene expression profile of pediatric anaplastic histology WT and normal adjacent tissues were analyzed. These expression data were anlyzed with Multi Experiment View (MEV) cluster software further. Datasets representing genes with altered expression profiles derived from cluster analyses were imported into the Ingenuity Pathway Analysis Tool (IPA)., Results: 88 real-time PCR primer pairs for quantitative gene expression analysis of key genes involved in pediatric anaplastic histology WT were designed and tested. The gene expression profile of pediatric anaplastic histology WT is significantly different from adjacent normal controls; we identified 15 genes that are up-regulated and 16 genes that are down-regulated in the former. To investigate biological interactions of these differently regulated genes, datasets representing genes with altered expression profiles were imported into the IPA for further analysis, which revealed three significant networks: Cancer, Hematological Disease, and Gene Expression, which included 27 focus molecules and a significance score of 43. The IPA analysis also grouped the differentially expressed genes into biological mechanisms related to Cell Death and Survival 1.15E(-12), Cellular Development 2.84E(-11), Cellular Growth and Proliferation 2.84E(-11), Gene Expression 4.43E(-10), and DNA Replication, Recombination, and Repair 1.39E(-07). The important upstream regulators of pediatric anaplastic histology WT were TP53 and TGFβ1 signaling (P = 1.15E(-14) and 3.79E(-13), respectively)., Conclusions: Our study demonstrates that the gene expression profile of pediatric anaplastic histology WT is significantly different from adjacent normal tissues with real-time PCR array. We identified some genes that are dysregulated in pediatric anaplastic histology WT for the first time, such as HDAC7, and IPA analysis showed the most important pathways for pediatric anaplastic histology WT are TP53 and TGFβ1 signaling. This work may provide new clues into the molecular mechanisms behind pediatric anaplastic histology WT.

Published

2015

14. Early B-cell factor 3 (EBF3) is a novel tumor suppressor gene with promoter hypermethylation in pediatric acute myeloid leukemia.

Author

Tao YF, Xu LX, Lu J, Hu SY, Fang F, Cao L, Xiao PF, Du XJ, Sun LC, Li ZH, Wang NN, Su GH, Li YH, Li G, Zhao H, Li YP, Xu YY, Zhou HT, Wu Y, Jin MF, Liu L, Zhu XM, Ni J, Wang J, Xing F, Zhao WL, and Pan J

Subjects

Adolescent, Age Factors, Apoptosis genetics, Cell Line, Tumor, Child, Child, Preschool, Cluster Analysis, Epigenesis, Genetic, Female, Gene Expression Profiling, Gene Expression Regulation, Leukemic, HL-60 Cells, Humans, Kaplan-Meier Estimate, Leukemia, Myeloid, Acute diagnosis, Leukemia, Myeloid, Acute mortality, Male, Prognosis, Signal Transduction, DNA Methylation, Genes, Tumor Suppressor, Leukemia, Myeloid, Acute genetics, Promoter Regions, Genetic, Transcription Factors genetics

Abstract

Background: Pediatric acute myeloid leukemia (AML) comprises up to 20% of all childhood leukemia. Recent research shows that aberrant DNA methylation patterning may play a role in leukemogenesis. The epigenetic silencing of the EBF3 locus is very frequent in glioblastoma. However, the expression profiles and molecular function of EBF3 in pediatric AML is still unclear., Methods: Twelve human acute leukemia cell lines, 105 pediatric AML samples and 30 normal bone marrow/idiopathic thrombocytopenic purpura (NBM/ITP) control samples were analyzed. Transcriptional level of EBF3 was evaluated by semi-quantitative and real-time PCR. EBF3 methylation status was determined by methylation specific PCR (MSP) and bisulfite genomic sequencing (BGS). The molecular mechanism of EBF3 was investigated by apoptosis assays and PCR array analysis., Results: EBF3 promoter was hypermethylated in 10/12 leukemia cell lines. Aberrant EBF3 methylation was observed in 42.9% (45/105) of the pediatric AML samples using MSP analysis, and the BGS results confirmed promoter methylation. EBF3 expression was decreased in the AML samples compared with control. Methylated samples revealed similar survival outcomes by Kaplan-Meier survival analysis. EBF3 overexpression significantly inhibited cell proliferation and increased apoptosis. Real-time PCR array analysis revealed 93 dysregulated genes possibly implicated in the apoptosis of EBF3-induced AML cells., Conclusion: In this study, we firstly identified epigenetic inactivation of EBF3 in both AML cell lines and pediatric AML samples for the first time. Our findings also showed for the first time that transcriptional overexpression of EBF3 could inhibit proliferation and induce apoptosis in AML cells. We identified 93 dysregulated apoptosis-related genes in EBF3-overexpressing, including DCC, AIFM2 and DAPK1. Most of these genes have never been related with EBF3 over expression. These results may provide new insights into the molecular mechanism of EBF3-induced apoptosis; however, further research will be required to determine the underlying details. Our findings suggest that EBF3 may act as a putative tumor suppressor gene in pediatric AML.

Published

2015

15. Molecular targeting of the oncoprotein PLK1 in pediatric acute myeloid leukemia: RO3280, a novel PLK1 inhibitor, induces apoptosis in leukemia cells.

Author

Wang NN, Li ZH, Zhao H, Tao YF, Xu LX, Lu J, Cao L, Du XJ, Sun LC, Zhao WL, Xiao PF, Fang F, Su GH, Li YH, Li G, Li YP, Xu YY, Zhou HT, Wu Y, Jin MF, Liu L, Ni J, Wang J, Hu SY, Zhu XM, Feng X, and Pan J

Subjects

Azepines chemistry, Cell Cycle Checkpoints drug effects, Cell Cycle Proteins metabolism, Child, Child, Preschool, Cluster Analysis, DNA Fragmentation drug effects, Down-Regulation drug effects, Female, HL-60 Cells, Humans, K562 Cells, Kaplan-Meier Estimate, Leukemia, Myeloid, Acute metabolism, Leukemia, Myeloid, Acute mortality, Male, Protein Serine-Threonine Kinases metabolism, Proto-Oncogene Proteins metabolism, Pyrimidines chemistry, Tumor Cells, Cultured, Up-Regulation drug effects, Polo-Like Kinase 1, Apoptosis drug effects, Azepines toxicity, Cell Cycle Proteins antagonists & inhibitors, Leukemia, Myeloid, Acute pathology, Protein Kinase Inhibitors toxicity, Protein Serine-Threonine Kinases antagonists & inhibitors, Proto-Oncogene Proteins antagonists & inhibitors, Pyrimidines toxicity

Abstract

Polo-like kinase 1 (PLK1) is highly expressed in many cancers and therefore a biomarker of transformation and potential target for the development of cancer-specific small molecule drugs. RO3280 was recently identified as a novel PLK1 inhibitor; however its therapeutic effects in leukemia treatment are still unknown. We found that the PLK1 protein was highly expressed in leukemia cell lines as well as 73.3% (11/15) of pediatric acute myeloid leukemia (AML) samples. PLK1 mRNA expression was significantly higher in AML samples compared with control samples (82.95 ± 110.28 vs. 6.36 ± 6.35; p < 0.001). Kaplan-Meier survival analysis revealed that shorter survival time correlated with high tumor PLK1 expression (p = 0.002). The 50% inhibitory concentration (IC50) of RO3280 for acute leukemia cells was between 74 and 797 nM. The IC50 of RO3280 in primary acute lymphocytic leukemia (ALL) and AML cells was between 35.49 and 110.76 nM and 52.80 and 147.50 nM, respectively. RO3280 induced apoptosis and cell cycle disorder in leukemia cells. RO3280 treatment regulated several apoptosis-associated genes. The regulation of DCC, CDKN1A, BTK, and SOCS2 was verified by western blot. These results provide insights into the potential use of RO3280 for AML therapy; however, the underlying mechanisms remain to be determined.

Published

2015

16. Zinc finger protein 382 is downregulated by promoter hypermethylation in pediatric acute myeloid leukemia patients.

Author

Tao YF, Hu SY, Lu J, Cao L, Zhao WL, Xiao PF, Xu LX, Li ZH, Wang NN, Du XJ, Sun LC, Zhao H, Fang F, Su GH, Li YH, Li YP, Xu YY, Ni J, Wang J, Feng X, and Pan J

Subjects

Acute Disease, Azacitidine analogs & derivatives, Azacitidine pharmacology, Cell Line, Tumor, Child, Decitabine, Enzyme Inhibitors pharmacology, Female, Gene Expression Regulation, Leukemic drug effects, HL-60 Cells, Humans, Jurkat Cells, K562 Cells, Kaplan-Meier Estimate, Leukemia, Myeloid metabolism, Male, Neoplasm, Residual, Prognosis, Proportional Hazards Models, Reverse Transcriptase Polymerase Chain Reaction statistics & numerical data, U937 Cells, DNA Methylation, DNA-Binding Proteins genetics, Down-Regulation, Leukemia, Myeloid genetics, Promoter Regions, Genetic genetics, Transcription Factors genetics

Abstract

Acute myeloid leukemia (AML) is the second-most common form of leukemia in children. Aberrant DNA methylation patterns are characteristic of AML. Zinc finger protein 382 (ZNF382) has been suggested to be a tumor suppressor gene possibly regulated by promoter hypermethylation in various types of human cancer. However, ZNF382 expression and methylation status in pediatric AML is unknown. In the present study, ZNF382 transcription levels were evaluated by quantitative reverse-transcription PCR. Methylation status was investigated by methylation-specific (MSP) PCR and bisulfate genomic sequencing (BGS). The prognostic significance of ZNF382 expression and promoter methylation was assessed in 105 cases of pediatric AML. The array data suggested that the ZNF382 promoter was hypermethylated in the AML cases examined. MSP PCR and BGS analysis revealed that ZNF382 was hypermethylated in leukemia cell lines. Furthermore, treatment with 5-aza-2'-deoxycytidine (5-Aza) upregulated ZNF382 expression in the selected leukemia cell lines. The aberrant methylation of ZNF382 was observed in 10% (2/20) of the control samples compared with 26.7% (28/105) of the AML samples. ZNF382 expression was significantly decreased in the 105 AML patients compared with the controls. Patients with ZNF382 methylation showed lower ZNF382 transcript levels compared with patients exhibiting no methylation. There were no significant differences in clinical characteristics or cytogenetic analysis between the patients with or without ZNF382 methylation. ZNF382 methylation correlated with minimal residual disease (MRD). Kaplan-Meier survival analysis revealed similar survival times in the samples with ZNF382 methylation, and multivariate analysis revealed that ZNF382 methylation was not an independent prognostic factor in pediatric AML. The epigenetic inactivation of ZNF382 by promoter hypermethylation can be observed in AML cell lines and pediatric AML samples. Therefore, our study suggests that ZNF382 may be considered a putative tumor suppressor gene in pediatric AML. However, further studies focusing on the mechanisms responsible for ZNF382 downregulation in pediatric leukemia are required.

Published

2014