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ABSTRACT: BACKGROUND: Somitogenesis is a fundamental characteristic feature of development in various animal embryos. Molecular evidence has proved that the Notch and Wnt pathways play important roles in regulating the process of somitogenesis and there is crosstalk between these two pathways. However, it is difficult to investigate the detailed mechanism of these two pathways and their interactions in somitogenesis through biological experiments. In recent years some mathematical models have been proposed for the purpose of studying the dynamics of the Notch and Wnt pathways in somitogenesis. Unfortunately, only a few of these models have explored the interactions between them. RESULTS: In this study, we have proposed three mathematical models for the Notch signalling pathway alone, the Wnt signalling pathway alone, and the interactions between them. These models can simulate the dynamics of the Notch and Wnt pathways in somitogenesis, and are capable of reproducing the observations derived from wet experiments. They were used to investigate the molecular mechanisms of the Notch and Wnt pathways and their crosstalk in somitogenesis through the model simulations. CONCLUSIONS: Three mathematical models are proposed for the Notch and Wnt pathways and their interaction during somitogenesis. The simulations demonstrate that the extracellular Notch and Wnt signals are essential for the oscillating expressions of both Notch and Wnt target genes. Moreover, the internal negative feedback loops and the three levels of crosstalk between these pathways play important but distinct roles in maintaining the system oscillation. In addition, the results of the parameter sensitivity analysis of the models indicate that the Notch pathway is more sensitive to perturbation in somitogenesis.
Theoretical Biology and Medical Modelling 04/2013; 10(1):27. · 1.86 Impact Factor
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Jianchao Zhang,
Yang Lei,
Xiaoge Gao,
Qian Liang,
Lili Li,
Jingxin Feng,
Pingfu Hou,
Liping Han, Yu Zhang,
Baiqu Huang,
Jun Lu
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ABSTRACT: Inactivation of the tumor suppressor p53 and activation of the oncogene Ras are the two most pivotal events in tumor development. However, potential intersection between p53 and Ras activity during an EMT process, which plays a crucial role during malignant tumour progression, remains elusive. Here, we report that increased expression of wild type p53 suppressed H-Ras(V12)-induced EMT phenotypes and restrained stem cell properties, through downregulation of MEK-ERK signaling pathways. In vivo experiments showed that p53 was able to inhibit H-Ras(V12)-induced tumor growth of human mammary epithelial cells. This study elucidates a novel correlation between the tumor suppressor gene p53 and the oncogene Ras in regulating EMT program, and expands the knowledge about the function of p53 in EMT process.
Biochemical and Biophysical Research Communications 04/2013; · 2.48 Impact Factor
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Yun-Feng Qi,
Yan-Xin Huang,
Hong-Yan Wang, Yu Zhang,
Yong-Li Bao,
Lu-Guo Sun,
Yin Wu,
Chun-Lei Yu,
Zhen-Bo Song,
Li-Hua Zheng,
Ying Sun,
Guan-Nan Wang,
Yu-Xin Li
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ABSTRACT: BACKGROUND: Interferon-gamma (IFN-gamma) and interleukin-6 (IL-6) are multifunctional cytokines that regulate immune responses, cell proliferation, and tumour development and progression, which frequently have functionally opposing roles. The cellular responses to both cytokines are activated via the Janus kinase/signal transducer and activator of transcription (JAK/STAT) pathway. During the past 10 years, the crosstalk mechanism between the IFN-gamma and IL-6 pathways has been studied widely and several biological hypotheses have been proposed, but the kinetics and detailed crosstalk mechanism remain unclear. RESULTS: Using established mathematical models and new experimental observations of the crosstalk between the IFN-gamma and IL-6 pathways, we constructed a new crosstalk model that considers three possible crosstalk levels: (1) the competition between STAT1 and STAT3 for common receptor docking sites; (2) the mutual negative regulation between SOCS1 and SOCS3; and (3) the negative regulatory effects of the formation of STAT1/3 heterodimers. A number of simulations were tested to explore the consequences of cross-regulation between the two pathways. The simulation results agreed well with the experimental data, thereby demonstrating the effectiveness and correctness of the model. CONCLUSION: In this study, we developed a crosstalk model of the IFN-gamma and IL-6 pathways to theoretically investigate their cross-regulation mechanism. The simulation experiments showed the importance of the three crosstalk levels between the two pathways. In particular, the unbalanced competition between STAT1 and STAT3 for IFNR and gp130 led to preferential activation of IFN-gamma and IL-6, while at the same time the formation of STAT1/3 heterodimers enhanced preferential signal transduction by sequestering a fraction of the activated STATs. The model provided a good explanation of the experimental observations and provided insights that may inform further research to facilitate a better understanding of the cross-regulation mechanism between the two pathways.
BMC Bioinformatics 02/2013; 14(1):41. · 2.75 Impact Factor
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Yun-Chao Wang,
Yu-Wei Zhang,
Li-Hua Zheng,
Yong-Li Bao,
Yin Wu,
Chun-Lei Yu,
Lu-Guo Sun, Yu Zhang,
Yan-Xin Huang,
Ying Sun,
Yu-Xin Li
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ABSTRACT: A new 2,5-diketopiperazine, (R)-2-(2-(furan-2-yl)-oxoethyl)-octahydropyrrolo[1,2-a]pyrazine-1,4-dione, and seven known compounds were isolated from the ethyl acetate extract of liquid fermentation broth of Armillaria mellea. The structures of the isolated compounds were established from NMR and HR-MS data. The absolute configuration of the new compound was established by comparing the experimental electronic circular dichroism (ECD) spectrum with the calculated ECD data.
Journal of Asian natural products research 01/2013; · 0.61 Impact Factor
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ABSTRACT: The tumor suppressor p16(INK4A) (p16) blocks the cell cycle progression by inhibiting phosphorylation of the retinoblastoma protein. We describe here a novel aspect of the posttranslational control that has an important functional consequence on p16 protein. We first discovered that the p16 protein was methylated in various cell lineages. We then determined that the arginine 22, 131 and 138 of p16 were the main methylation sites. Western blotting and TUNEL analyses revealed that the p16 protein bearing these point mutations induced a higher apoptosis ratio than wild-type p16 in A549 cells. Furthermore, co-immunoprecipitation assays suggested that decrease of p16 arginine methylation level promoted the association of p16 with CDK4. Additionally, we determined that the protein arginine methyltransferase 6 (PRMT6) was responsible for the p16 arginine methylation. Results from flow cytometric analysis demonstrated that PRMT6 overexpression counteracted the cell cycle arrest at G1 phase induced by wild-type p16 in A549 cells. We also provided evidence that PRMT6 was able to interact with p16, and that the intensity of p16-CDK4 association was reduced upon PRMT6 overexpression. Together, data presented in this report establish that methylation at specific arginine residues of p16 protein by PRMT6 may be critical for the activity of p16.
The international journal of biochemistry & cell biology 09/2012; · 4.89 Impact Factor
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Jianchao Zhang,
Qian Liang,
Yang Lei,
Min Yao,
Lili Li,
Xiaoge Gao,
Jingxin Feng, Yu Zhang,
Hongwen Gao,
Dong-Xu Liu,
Jun Lu,
Baiqu Huang
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ABSTRACT: Epithelial-mesenchymal transition (EMT) is a developmental program, which is associated with breast cancer progression and metastasis. Here, we report that ectopic overexpression of SOX4 in immortalized human mammary epithelial cells is sufficient for acquisition of mesenchymal traits, enhanced cell migration, and invasion, along with epithelial stem cell properties defined by the presence of a CD44(high)/CD24(low) cell subpopulation. SOX4 positively regulated expression of known EMT inducers, also activating the TGF-β pathway to contribute to EMT. SOX4 itself was induced by TGF-β in mammary epithelial cells and was required for TGF-β-induced EMT. Murine xenograft experiments showed that SOX4 cooperated with oncogenic Ras to promote tumorigenesis in vivo. Finally, in clinical specimens of human breast cancer, we found that SOX4 was abnormally overexpressed and correlated with the triple-negative breast cancer subtype (ER(-)/PR(-)/HER2(-)). Our findings define an important function for SOX4 in the progression of breast cancer by orchestrating EMT, and they implicate this gene product as a marker of poor prognosis in this disease.
Cancer Research 07/2012; 72(17):4597-608. · 7.86 Impact Factor
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Yao Yao,
Yu-Wei Zhang,
Lu-Guo Sun,
Biao Liu,
Yong-Li Bao,
Hua Lin, Yu Zhang,
Li-Hua Zheng,
Ying Sun,
Chun-Lei Yu,
Yin Wu,
Guan-Nan Wang,
Yu-Xin Li
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ABSTRACT: Juglanthraquinone C (1,5-dihydroxy-9,10-anthraquinone-3-carboxylic acid, JC), a naturally occurring anthraquinone isolated from the stem bark of Juglans mandshurica, shows strong cytotoxicity in various human cancer cells in vitro. Here, we first performed a structure-activity relationship study of six anthraquinone compounds (JC, rhein, emodin, aloe-emodin, physcion and chrysophanol) to exploit the relationship between their structural features and activity. The results showed that JC exhibited the strongest cytotoxicity of all compounds evaluated. Next, we used JC to treat several human cancer cell lines and found that JC showed an inhibitory effect on cell viability in dose-dependent (2.5-10 μg/ml JC) and time-dependent (24-48 h) manners. Importantly, the inhibitory effect of JC on HepG2 (human hepatocellular carcinoma) cells was more significant as shown by an IC(50) value of 9 ± 1.4 μg/ml, and 36 ± 1.2 μg/ml in L02 (human normal liver) cells. Further study suggested that JC-induced inhibition HepG2 cell proliferation was associated with S phase arrest, decreased protein expression of proliferation marker Ki67, cyclin A and cyclin-dependent kinase (CDK) 2, and increased expression of cyclin E and CDK inhibitory protein Cip1/p21. In addition, JC significantly triggered apoptosis in HepG2 cells, which was characterized by increased chromatin condensation and DNA fragmentation, activation of caspase-9 and -3, and induction of a higher Bax/Bcl2 ratio. Collectively, our study demonstrated that JC can efficiently inhibit proliferation and induce apoptosis in HepG2 cells.
Apoptosis 04/2012; 17(8):832-41. · 4.07 Impact Factor
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Shan Zhu,
Yueyang Li,
Li Zhao,
Pingfu Hou,
Chenyan Shangguan,
Ruosi Yao,
Weina Zhang, Yu Zhang,
Jiang Tan,
Baiqu Huang,
Jun Lu
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ABSTRACT: Histone deacetylase (HDAC) inhibitors are emerging as a novel class of anti-tumor agents and have manifested the ability to induce apoptosis of cancer cells, and a significant number of genes have been identified as potential effectors responsible for HDAC inhibitor-induced apoptosis. However, the mechanistic actions of these HDAC inhibitors in this process remain largely undefined. We here report that the treatment of LNCap prostate cancer cells with HDAC inhibitor trichostatin A (TSA) resulted in downregulation of the Jumonji domain-containing protein 2B (JMJD2B). We also found that the TSA-mediated decrease in survivin expression in LNCap cells was partly attributable to downregulation of JMJD2B expression. This effect was attributable to the promoted degradation of survivin protein through inhibition of Cyclin B1/Cdc2 complex-mediated survivin Thr34 phosphorylation. Consequently, knockdown of JMJD2B enhanced TSA-induced apoptosis by regulating the Cyclin B1-dependent survivin degradation to potentiate the apoptosis pathways.
Journal of Cellular Biochemistry 03/2012; 113(7):2375-82. · 2.87 Impact Factor
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Zhiwei Liu,
Guoling Ren,
Chenyan Shangguan,
Lijing Guo,
Zhixiong Dong,
Yueyang Li,
Weina Zhang,
Li Zhao,
Pingfu Hou, Yu Zhang,
Xiuli Wang,
Jun Lu,
Baiqu Huang
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ABSTRACT: All-trans retinoic acid (ATRA) has been widely investigated for treatments of many cancers including prostate cancer. HOXB13, silenced in androgen receptor-negative (AR(-)) prostate cancer cells, plays a role in AR(-) prostate cancer cell growth arrest. In this study we intended to elucidate the mechanisms that are involved in the proliferation inhibition of AR(-) prostate cancer cells triggered by ATRA. We discovered that ATRA was able to induce the growth arrest and to increase HOXB13 expression in AR(-) prostate cancer cells. Both EZH2 and DNMT3b participated in the repression of HOXB13 expression through an epigenetic mechanism involving DNA and histone methylation modifications. Specifically, EZH2 recruited DNMT3b to HOXB13 promoter to form a repression complex. Moreover, ATRA could upregulate HOXB13 through decreasing EZH2 and DNMT3b expressions and reducing their interactions with the HOXB13 promoter. Concurrently, the methylation level of the HOXB13 promoter was reduced upon the treatment of ATRA. Results from this study implicated a novel effect of ATRA in inhibition of the growth of AR(-) resistant human prostate cancer cells through alteration of HOXB13 expression as a result of epigenetic modifications.
PLoS ONE 01/2012; 7(7):e40943. · 4.09 Impact Factor
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Cong Fan,
Yan-Xin Huang,
Yong-Li Bao,
Lu-Guo Sun,
Yin Wu,
Chun-Lei Yu, Yu Zhang,
Zhen-Bo Song,
Li-Hua Zheng,
Ying Sun,
Guan-Nan Wang,
Yu-Xin Li
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ABSTRACT: Insulin-like growth factor 1 receptor (IGF1R) is an attractive drug target for cancer therapy and research on IGF1R inhibitors has had success in clinical trials. A particular challenge in the development of specific IGF1R inhibitors is interference from insulin receptor (IR), which has a nearly identical sequence. A few potent inhibitors that are selective for IGF1R have been discovered experimentally with the aid of computational methods. However, studies on the rapid identification of IGF1R-selective inhibitors using virtual screening and confidence-level inspections of ligands that show different interactions with IGF1R and IR in docking analysis are rare. In this study, we established virtual screening and binding-mode prediction workflows based on benchmark results of IGF1R and several kinase receptors with IGF1R-like structures. We used comprehensive analysis of the known complexes of IGF1R and IR with their binding ligands to screen specific IGF1R inhibitors. Using these workflows, 17 of 139,735 compounds in the NCI (National Cancer Institute) database were identified as potential specific inhibitors of IGF1R. Calculations of the potential of mean force (PMF) with GROMACS were further conducted for three of the identified compounds to assess their binding affinity differences towards IGF1R and IR.
International Journal of Molecular Sciences 01/2012; 13(12):17185-209. · 2.60 Impact Factor
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Yu-Yin Li,
Yong-Li Bao,
Zhen-Bo Song,
Lu-Guo Sun,
Ping Wu, Yu Zhang,
Cong Fan,
Yan-Xin Huang,
Yin Wu,
Chun-Lei Yu,
Ying Sun,
Li-Hua Zheng,
Guan-Nan Wang,
Yu-Xin Li
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ABSTRACT: Testes-specific protease 50 (TSP50), a newly discovered threonine enzyme, has similar amino acid sequences and enzymatic structures to those of many serine proteases. It may be an oncogene. TSP50 is up-regulated in breast cancer epithelial cells, and ectopic expression of TSP50 in TSP50-deficient Chinese hamster ovary (CHO) cells has been found to promote cell proliferation. However, the mechanisms by which TSP50 exerts its growth-promoting effects are not yet fully understood.
To delineate whether the threonine protease activity of TSP50 is essential to its function in cell proliferation, we constructed and characterized a mutant TSP50, called TSP50 T310A, which was identified as a protease-dead mutant of TSP50. By a series of proliferation analyses, colony formation assays and apoptosis analyses, we showed that T310A mutation significantly depresses TSP50-induced cell proliferation in vitro. Next, the CHO stable cell line expressing either wild-type or T310A mutant TSP50 was injected subcutaneously into nude mice. We found that the T310A mutation could abolish the tumorigenicity of TSP50 in vivo. A mechanism investigation revealed that the T310A mutation prevented interaction between TSP50 and the NF-κBIκBα complex, which is necessary for TSP50 to perform its function in cell proliferation.
Our data highlight the importance of threonine 310, the most critical protease catalytic site in TSP50, to TSP50-induced cell proliferation and tumor formation.
PLoS ONE 01/2012; 7(5):e35030. · 4.09 Impact Factor
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ABSTRACT: To confirm the role of sex-determining region Y-box 7 (Sox7) in aspirin-mediated growth inhibition of COX-independent human colorectal cancer cells.
The cell survival percentage was examined by MTT (Moto-nuclear cell direc cytotoxicity) assay. SOX7 expression was assessed by using reverse transcription-polymerase chain reaction and Western blotting. SB203580 was used to inhibit the p38MAPK signal pathway. SOX7 promoter activity was detected by Luciferase reporter assay.
SOX7 was upregulated by aspirin and was involved in aspirin-mediated growth inhibition of SW480 human colorectal cancer cells. The p38MAPK pathway played a role in aspirin-induced SOX7 expression, during which the AP1 transcription factors c-Jun and c-Fos upregulated SOX7 promoter activities.
SOX7 is upregulated by aspirin and is involved in aspirin-mediated growth inhibition of human colorectal cancer SW480 cells.
World Journal of Gastroenterology 11/2011; 17(44):4922-7. · 2.47 Impact Factor
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Zhixiong Dong,
Ruikang Tan,
Jian Cao,
Yang Yang,
Chenfei Kong,
Juan Du,
Shan Zhu, Yu Zhang,
Jun Lu,
Baiqu Huang,
Shuxia Liu
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ABSTRACT: We obtained 5 positive novel histone deacetylase inhibitors (HDACIs) from a polyoxometalate (POM) library by using a cell-based screening system targeting the p21 gene promoter. Among them, PAC-320, a new tri-organic-tin-substitute germanotungstate, displayed remarkable extracellular inhibitory activity. Meanwhile, the crystal structure of PAC-320 was characterized by X-ray crystallography. PAC-320 could stably exist under physiological conditions as revealed by UV spectrum, CV and TG. PAC-320 possessed a strong inhibitory effect to intracellular HDAC activity. More significantly, PAC-320 inhibited the growth of a variety of cancer cells, and exhibited remarkable anticancer effect in a hepatocarcinoma H22 cell mice model. This study revealed, for the first time, that the HDAC inhibitory activity is a mechanism by which POMs exert their anticancer effect.
European journal of medicinal chemistry 06/2011; 46(6):2477-84. · 3.27 Impact Factor
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Juan Du,
Lin Li,
Zhouluo Ou,
Chenfei Kong, Yu Zhang,
Zhixiong Dong,
Shan Zhu,
Hao Jiang,
Zhimin Shao,
Baiqu Huang,
Jun Lu
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ABSTRACT: Polycomb group (PcG) proteins have recently been shown related to cancer development. The PcG protein EZH2 is involved in progression of prostate and breast cancers, and has been identified as a molecular marker in breast cancer. Nevertheless, the molecular mechanism by which PcG proteins regulate cancer progression and malignant metastasis is still unclear. PcG proteins methylate H3K27 in undifferentiated epithelial cells, resulting in the repression of differentiation genes such as HOX. FOXC1 is a member of the Forkhead box transcription factor family, which plays an important role in differentiation, and is involved in eye development. We discovered in this study that the expression of FOXC1 gene was negatively correlated to that of PcG genes, i.e., Bmi1, EZH2, and SUZ12, in MCF-7 and MDA-MB-231 cells. To investigate the regulatory effects of PcG proteins on FOXC1 gene, the two cell lines were transfected with either expression plasmids or siRNA plasmids of Bmi1, EZH2, and SUZ12, and we found that PcGs, especially EZH2, could repress the transcription of FOXC1 gene. Chromatin immunoprecipitation (ChIP) assay showed that histone methylation and acetylation modifications played critical roles in this regulatory process. When FOXC1 was stably transfected into MDA-MB-231 cells, the migration and invasion of the cells were repressed. Moreover, the tumorigenicity and the spontaneous metastatic capability regulated by FOXC1 were determined by using an orthotropic xenograft tumor model of athymic mice with the FOXC1-MDA-MB-231HM and the GFP-MDA-MB-231HM cells, and the results showed that FOXC1 in MDA-MB-231HM cells inhibited migration and invasion in vitro and reduced the pulmonary metastasis in vivo. Data presented in this report contribute to the understanding of the mechanisms by which EZH2 participates in tumor development.
Breast Cancer Research and Treatment 04/2011; 131(1):65-73. · 4.43 Impact Factor
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Zhen-Bo Song,
Yong-Li Bao, Yu Zhang,
Xu-Guang Mi,
Ping Wu,
Yin Wu,
Chun-Lei Yu,
Ying Sun,
Li-Hua Zheng,
Yan-Xin Huang,
Biao Liu,
Yu-Xin Li
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ABSTRACT: TSP50 (testes-specific protease 50) is a testis-specific expression protein, which is expressed abnormally at high levels in breast cancer tissues. This makes it an attractive molecular marker and a potential target for diagnosis and therapy; however, the biological function of TSP50 is still unclear. In the present study, we show that overexpression of TSP50 in CHO (Chinese-hamster ovary) cells markedly increased cell proliferation and colony formation. Mechanistic studies have revealed that TSP50 can enhance the level of TNFα (tumour necrosis factor α)- and PMA-induced NF-κB (nuclear factor κB)-responsive reporter activity, IκB (inhibitor of NF-κB) α degradation and p65 nuclear translocation. In addition, the knockdown of endogenous TSP50 in MDA-MB-231 cells greatly inhibited NF-κB activity. Co-immunoprecipitation studies demonstrated an interaction of TSP50 with the NF-κB-IκBα complex, but not with the IKK (IκB kinase) α/β-IKKγ complex, which suggested that TSP50, as a novel type of protease, promoted the degradation of IκBα proteins by binding to the NF-κB-IκBα complex. Our results also revealed that TSP50 can enhance the expression of NF-κB target genes involved in cell proliferation. Furthermore, overexpression of a dominant-negative IκB mutant that is resistant to proteasome-mediated degradation significantly reversed TSP50-induced cell proliferation, colony formation and tumour formation in nude mice. Taken together, the results of the present study suggest that TSP50 promotes cell proliferation, at least partially, through activation of the NF-κB signalling pathway.
Biochemical Journal 03/2011; 436(2):457-67. · 4.90 Impact Factor
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Yu Zhang,
Yanyan Gao,
Guoping Zhang,
Shuyan Huang,
Zhixiong Dong,
Chenfei Kong,
Dongmei Su,
Juan Du,
Shan Zhu,
Qian Liang,
Jianchao Zhang,
Jun Lu,
Baiqu Huang
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ABSTRACT: The DNA-damaging drug doxorubicin (Dox) induces cell senescence at concentrations significantly lower than those required for induction of apoptosis. At low Dox concentrations, tumor suppressor p53 is activated, which enhances the expression of p21(Waf1/Cip1) (p21). At high concentrations, Dox activates p53 leading to apoptosis without enhancing p21 expression. The underlying mechanisms and factors that govern the differential effects of Dox in inducing senescence and apoptosis are unclear. Here, we report that the DNA methyltransferase (DNMT) DNMT3a was upregulated by Dox especially at concentrations that induced apoptosis in HCT116 colorectal cancer cells, and this process was regulated by p53. Meanwhile, p21 expression was significantly upregulated at senescence-inducing concentrations and kept low on treatment with apoptosis-inducing concentrations of Dox. The differential expression of DNMT3a and p21 in response to Dox suggests that DNMT3a may be a key factor in switches between Dox-induced senescence and apoptosis. Moreover, when DNMT3a was silenced, treatment of HCT116 cells with apoptosis-inducing concentration of Dox increased the percentage of cells undergoing senescence, accompanied by upregulation of p21. Contrarily, senescence-inducing concentration of Dox promoted apoptosis rate, and p21 expression was repressed. Surprisingly, no changes in DNA methylation status at p21 promoter were detected at either ranges of Dox, although DNMT3a and HDAC1 were recruited to p21 promoter at apoptosis-inducing Dox concentration, where they were present in the same complex. Overall, these data demonstrate that DNMT3a impacts the expression of p21 and plays a role in determining the Dox-induced senescence and apoptosis in HCT116 cells.
International Journal of Cancer 02/2011; 128(3):551-61. · 5.44 Impact Factor
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ABSTRACT: SLC5A8 (Solute carrier family 5, member 8), proposed to be a potential tumor suppressor gene, is down-regulated by epigenetic changes in some colorectal cancer cells, and ectopic expression of SLC5A8 in SLC5A8-deficient colon cancer cell lines leads to suppression of the colony-forming ability of these cells. Activin A, a member of the transforming growth factor-β (TGF-β) superfamily, has been shown to inhibit the proliferation of a variety of tumor (and normal) human cell types. However, the mechanism(s) by which activin A exerts its inhibitory effects are not yet understood. In this study, we showed that activin A up-regulated SLC5A8 expression in colorectal cancer RKO cells and human embryonic kidney (HEK) 293T cells. To elucidate the underlying mechanism involved in this process, we investigated the activation of the Smad signaling pathway, and analyzed the effects of dominant negative Smad3 and Smad2 proteins on activin A-induced SLC5A8 expression. The results indicated that activin A-induced SLC5A8 expression was dependent on activation of Smad3. Further analysis showed that activin A induced SLC5A8 expression via transcriptional activation. Deletion analysis indicated that the CAGA elements located within the -273/-222 region of the human SLC5A8 promoter were responsive to activin A. Taken together, our results strongly suggest that activin A up-regulates SLC5A8 expression through the Smad signaling pathway, which also partially explains the inhibitory effects of activin A in RKO cells.
The international journal of biochemistry & cell biology 12/2010; 42(12):1964-72. · 4.89 Impact Factor
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ABSTRACT: BMP4 (bone morphogenetic protein 4) is a multifunctional cytokine known to exert its biological effects through a variety of signalling pathways. The diverse function of BMP4 appears to be due to multiple pathways activated by BMP4 itself. Our previous studies have demonstrated that BMP4 is able to drive lung cancer cells into a process of premature senescence; however, the signalling pathways, as well their interplays and roles associated with this process, are not well understood. To address these questions, in the present study we investigated the signalling and molecular mechanisms underlying the BMP4-induced senescence, and our data demonstrated that p38 MAPK (mitogen-activated protein kinase) and Smad pathways were necessary for this process. Meanwhile, the ERK1/2 (extracellular-signal-regulated kinase 1/2) pathway, which is required for senescence, was not activated by BMP4 in the lung cancer cell line NCI-H460. We also showed that the BMP4-responsive R-Smads (receptor-regulated Smads), i.e. Smad1 and Smad5, were necessary for the up-regulation of p16(INK)⁴(a) and p21(WAF)¹(/cip)¹ and for the induction of premature senescence. Furthermore, we found that activation of the p38 MAPK pathway by BMP4 was essential for the full activation of transcription potential of Smad1/5. Overall, the results of the present study implicate a complex co-operation between p38 MAPK and Smad pathways in BMP4-mediated premature senescence.
Biochemical Journal 11/2010; 433(2):333-43. · 4.90 Impact Factor
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ABSTRACT: Earlier studies identified testes-specific protease 50 (TSP50), which encodes a threonine protease, and showed that it was abnormally reactivated in many breast cancer biopsies. Further, it was shown to be negatively regulated by the p53 gene. However, little is known about the biological function of TSP50. In this study, we applied RNA interference to knockdown TSP50 gene expression in P19 murine embryonal carcinoma stem cells and tested whether this modulated the cell phenotype. The results showed that downregulation of TSP50 expression not only reduced cell proliferation, colony formation, and migration but also induced cell apoptosis. Further investigation revealed that knockdown of TSP50 resulted in greater sensitivity to doxorubicin-induced apoptosis and that activation of caspase-3 was involved in this process.
International Union of Biochemistry and Molecular Biology Life 11/2010; 62(11):825-32. · 3.51 Impact Factor
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ABSTRACT: Butyrate has been shown to display anti-cancer activity through the induction of apoptosis in various cancer cells. However, the underlying mechanism involved in butyrate-induced apoptosis is still not fully understood. Here, we investigated the cytotoxicity mechanism of butyrate in human colon cancer RKO cells. The results showed that butyrate induced a strong growth inhibitory effect against RKO cells. Butyrate also effectively induced apoptosis in RKO cells, which was characterized by DNA fragmentation, nuclear staining of DAPI, and the activation of caspase-9 and caspase-3. The expression of anti-apoptotic protein Bcl-2 decreased, whereas the apoptotic protein Bax increased in a dose-dependent manner during butyrate-induced apoptosis. Moreover, treatment of RKO cells with butyrate induced a sustained activation of the phosphorylation of c-jun N-terminal kinase (JNK) in a dose- and time-dependent manner, and the pharmacological inhibition of JNK MAPK by SP600125 significantly abolished the butyrate-induced apoptosis in RKO cells. These results suggest that butyrate acts on RKO cells via the JNK but not the p38 pathway. Butyrate triggered the caspase apoptotic pathway, indicated by an enhanced Bax-to-Bcl-2 expression ratio and caspase cascade reaction, which was blocked by SP600125. Taken together, our data indicate that butyrate induces apoptosis through JNK MAPK activation in colon cancer RKO cells.
Chemico-biological interactions 03/2010; 185(3):174-81. · 2.46 Impact Factor
