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1. The m6A Methylation-Regulated AFF4 Promotes Self-Renewal of Bladder Cancer Stem Cells

Author

Qian Gao, Jin Zheng, Zegui Ni, Pengli Sun, Congcong Yang, Maosheng Cheng, Mingqing Wu, Xiuhong Zhang, Lin Yuan, Yingyin Zhang, and Yang Li

Subjects
Internal medicine, RC31-1245
Abstract

The dynamic N6-methyladenosine (m6A) modification of mRNA plays a role in regulating gene expression and determining cell fate. However, the functions of m6A mRNA modification in bladder cancer stem cells (BCSCs) have not been described. Here, we show that global RNA m6A abundance and the expression of m6A-forming enzyme METTL3 are higher in BCSCs than those in non-CSCs of bladder cancer (BCa) cells. The depletion of the METTL3 inhibited the self-renewal of BCSCs, as evidenced by decreased ALDH activity and sphere-forming ability. Mechanistically, METTL3 regulates the m6A modification and thereby the expression of AF4/FMR2 family member 4 (AFF4), knockdown of which phenocopies the METTL3 ablation and diminishes the tumor-initiating capability of BCSCs in vivo. AFF4 binds to the promoter regions and sustains the transcription of SOX2 and MYC which have critical biological functions in BCSCs. Collectively, our results demonstrate the critical roles of m6A modification in self-renewal and tumorigenicity of BCSCs through a novel signaling axis of METTL3-AFF4-SOX2/MYC.

Published
2020
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2. SOX2 Is a Marker for Stem-like Tumor Cells in Bladder Cancer

Author

Fengyu Zhu, Weiqing Qian, Haojie Zhang, Yu Liang, Mingqing Wu, Yingyin Zhang, Xiuhong Zhang, Qian Gao, and Yang Li

Subjects
Medicine (General), R5-920, Biology (General), QH301-705.5
Abstract

Summary: It has been reported that functionally distinct cancer stem cells (CSCs) exist in human bladder cancer (BCa). Here, we found that Sox2, a transcription factor that is well characterized as a marker for stem cells, is upregulated in both mouse and human BCa. Sox2 expression is absent in normal urothelial cells, but it begins to be expressed in pre-neoplastic bladder tumors and continues to be expressed in invasive mouse BCa. Using s as a reporter of Sox2 transcriptional expression, we demonstrated that Sox2-expressing cells mark a subpopulation of tumor cells that fuel the growth of established BCa. SOX2-positive cells also expressed other previously reported BCa CSC markers, including Keratin14 (KRT14) and CD44v6. Ablation of Sox2-expressing cells within primary invasive BCa led to enhanced tumor regression, supporting the essential role of SOX2-positive cells in regulating BCa maintenance and progression. Our data show that Sox2 is a marker of bladder CSCs and indicate it as a potential clinical target for BCa therapy. : In this article, Yang and colleagues assess the renewal and differentiation potential of Sox2-expressing cells in bladder cancer, by in vitro clonogenic assays, in vivo transplantation, and lineage-tracing experiments. Their data indicate that Sox2 expression marks the bladder cancer stem cells, which are necessary for tumor growth and maintenance. Keywords: bladder cancer, Sox2, cancer stem cell

Published
2017
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3. Inhibitors of phosphatidylinositol 3'-kinases promote mitotic cell death in HeLa cells.

Author

Heli Hou, Yingyin Zhang, Yun Huang, Qiyi Yi, Lei Lv, Tianwei Zhang, Dawei Chen, Qiaomei Hao, and Qinghua Shi

Subjects
Medicine, Science
Abstract

The phosphatidylinositol 3-kinase (PI3K) pathway plays an important role in many biological processes, including cell cycle progression, cell growth, survival, actin rearrangement and migration, and intracellular vesicular transport. However, the involvement of the PI3K pathway in the regulation of mitotic cell death remains unclear. In this study, we treated HeLa cells with the PI3K inhibitors, 3-methyladenine (3-MA, as well as a widely used autophagy inhibitor) and wortmannin to examine their effects on cell fates using live cell imaging. Treatment with 3-MA decreased cell viability in a time- and dose-dependent manner and was associated with caspase-3 activation. Interestingly, 3-MA-induced cell death was not affected by RNA interference-mediated knockdown (KD) of beclin1 (an essential protein for autophagy) in HeLa cells, or by deletion of atg5 (an essential autophagy gene) in mouse embryonic fibroblasts (MEFs). These data indicate that cell death induced by 3-MA occurs independently of its ability to inhibit autophagy. The results from live cell imaging studies showed that the inhibition of PI3Ks increased the occurrence of lagging chromosomes and cell cycle arrest and cell death in prometaphase. Furthermore, PI3K inhibitors promoted nocodazole-induced mitotic cell death and reduced mitotic slippage. Overexpression of Akt (the downstream target of PI3K) antagonized PI3K inhibitor-induced mitotic cell death and promoted nocodazole-induced mitotic slippage. These results suggest a novel role for the PI3K pathway in regulating mitotic progression and preventing mitotic cell death and provide justification for the use of PI3K inhibitors in combination with anti-mitotic drugs to combat cancer.

Published
2012
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4. Regulation of asymmetrical cytokinesis by cAMP during meiosis I in mouse oocytes.

Author

Dawei Chen, Yuanwei Zhang, Qiyi Yi, Yun Huang, Heli Hou, Yingyin Zhang, Qiaomei Hao, Howard J Cooke, Lei Li, Qingyuan Sun, and Qinghua Shi

Subjects
Medicine, Science
Abstract

Mammalian oocytes undergo an asymmetrical first meiotic division, extruding half of their chromosomes in a small polar body to preserve maternal resources for embryonic development. To divide asymmetrically, mammalian oocytes relocate chromosomes from the center of the cell to the cortex, but little is known about the underlying mechanisms. Here, we show that upon the elevation of intracellular cAMP level, mouse oocytes produced two daughter cells with similar sizes. This symmetrical cell division could be rescued by the inhibition of PKA, a cAMP-dependent protein kinase. Live cell imaging revealed that a symmetrically localized cleavage furrow resulted in symmetrical cell division. Detailed analyses demonstrated that symmetrically localized cleavage furrows were caused by the inappropriate central positioning of chromosome clusters at anaphase onset, indicating that chromosome cluster migration was impaired. Notably, high intracellular cAMP reduced myosin II activity, and the microinjection of phospho-myosin II antibody into the oocytes impeded chromosome migration and promoted symmetrical cell division. Our results support the hypothesis that cAMP plays a role in regulating asymmetrical cell division by modulating myosin II activity during mouse oocyte meiosis I, providing a novel insight into the regulation of female gamete formation in mammals.

Published
2012
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5. p53 dependent centrosome clustering prevents multipolar mitosis in tetraploid cells.

Author

Qiyi Yi, Xiaoyu Zhao, Yun Huang, Tieliang Ma, Yingyin Zhang, Heli Hou, Howard J Cooke, Da-Qing Yang, Mian Wu, and Qinghua Shi

Subjects
Medicine, Science
Abstract

BACKGROUND: p53 abnormality and aneuploidy often coexist in human tumors, and tetraploidy is considered as an intermediate between normal diploidy and aneuploidy. The purpose of this study was to investigate whether and how p53 influences the transformation from tetraploidy to aneuploidy. PRINCIPAL FINDINGS: Live cell imaging was performed to determine the fates and mitotic behaviors of several human and mouse tetraploid cells with different p53 status, and centrosome and spindle immunostaining was used to investigate centrosome behaviors. We found that p53 dominant-negative mutation, point mutation, or knockout led to a 2∼ 33-fold increase of multipolar mitosis in N/TERT1, 3T3 and mouse embryonic fibroblasts (MEFs), while mitotic entry and cell death were not significantly affected. In p53-/- tetraploid MEFs, the ability of centrosome clustering was compromised, while centrosome inactivation was not affected. Suppression of RhoA/ROCK activity by specific inhibitors in p53-/- tetraploid MEFs enhanced centrosome clustering, decreased multipolar mitosis from 38% to 20% and 16% for RhoA and ROCK, respectively, while expression of constitutively active RhoA in p53+/+ tetraploid 3T3 cells increased the frequency of multipolar mitosis from 15% to 35%. CONCLUSIONS: p53 could not prevent tetraploid cells entering mitosis or induce tetraploid cell death. However, p53 abnormality impaired centrosome clustering and lead to multipolar mitosis in tetraploid cells by modulating the RhoA/ROCK signaling pathway.

Published
2011
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8. The m6A methyltransferase METTL3 promotes bladder cancer progression via AFF4/NF-κB/MYC signaling network

Author

Xiuhong Zhang, Yang Li, Mingqing Wu, Quan Yuan, Yu Liang, Maosheng Cheng, Fengyu Zhu, Qiuchan Xiong, Yingyin Zhang, Haojie Zhang, Lu Sheng, and Qian Gao

Subjects
0301 basic medicine, Regulation of gene expression, Cancer Research, Gene knockdown, Methyltransferase, Cell growth, RNA, NF-κB, Biology, Cell biology, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, 0302 clinical medicine, chemistry, 030220 oncology & carcinogenesis, Genetics, Epigenetics, Signal transduction, skin and connective tissue diseases, Molecular Biology
Abstract

N6-methyladenosine (m6A) is the most abundant modification in eukaryotic messenger RNAs (mRNAs), and plays important roles in many bioprocesses. However, its functions in bladder cancer (BCa) remain elusive. Here, we discovered that methyltransferase-like 3 (METTL3), a major RNA N6-adenosine methyltransferase, was significantly up-regulated in human BCa. Knockdown of METTL3 drastically reduced BCa cell proliferation, invasion, and survival in vitro and tumorigenicity in vivo. On the other hand, overexpression of METTL3 significantly promoted BCa cell growth and invasion. Through transcriptome sequencing, m6A sequencing and m6A methylated RNA immuno-precipitation quantitative reverse-transcription polymerase chain reaction, we revealed the profile of METTL3-mediated m6A modification in BCa cells for the first time. AF4/FMR2 family member 4 (AFF4), two key regulators of NF-κB pathway (IKBKB and RELA) and MYC were further identified as direct targets of METTL3-mediated m6A modification. In addition, we showed that besides NF-κB, AFF4 binds to the promoter of MYC and promotes its expression, implying a novel multilevel regulatory network downstream of METTL3. Our results uncovered an AFF4/NF-κB/MYC signaling network operated by METTL3-mediated m6A modification and provided insight into the mechanisms of BCa progression.

Published
2019

10. The m

Author

Qian, Gao, Jin, Zheng, Zegui, Ni, Pengli, Sun, Congcong, Yang, Maosheng, Cheng, Mingqing, Wu, Xiuhong, Zhang, Lin, Yuan, Yingyin, Zhang, and Yang, Li

Subjects
Research Article
Abstract

The dynamic N6-methyladenosine (m6A) modification of mRNA plays a role in regulating gene expression and determining cell fate. However, the functions of m6A mRNA modification in bladder cancer stem cells (BCSCs) have not been described. Here, we show that global RNA m6A abundance and the expression of m6A-forming enzyme METTL3 are higher in BCSCs than those in non-CSCs of bladder cancer (BCa) cells. The depletion of the METTL3 inhibited the self-renewal of BCSCs, as evidenced by decreased ALDH activity and sphere-forming ability. Mechanistically, METTL3 regulates the m6A modification and thereby the expression of AF4/FMR2 family member 4 (AFF4), knockdown of which phenocopies the METTL3 ablation and diminishes the tumor-initiating capability of BCSCs in vivo. AFF4 binds to the promoter regions and sustains the transcription of SOX2 and MYC which have critical biological functions in BCSCs. Collectively, our results demonstrate the critical roles of m6A modification in self-renewal and tumorigenicity of BCSCs through a novel signaling axis of METTL3-AFF4-SOX2/MYC.

Published
2020

11. Microsatellite records for volume 9, issue 4

Author

Zhaosheng Cai, Wenxuan Cao, Jie Chen, Jiayin Dai, Ge Ding, Samantha Gray, Jiasheng Hao, Xiayun Jiang, B. B. Li, Yao Li, Z. B. Li, Gang Liu, Qin Ma, X. Q. Mao, Kaitlin Panzner, Cecilia Puchulutegui, Seifu Seyoum, J. B. Shangguan, Michael D. Tringali, Nathan van Bibber, Z. Y. Wang, Bryan C. Winston, Dan Yu, Daizhen Zhang, Yingyin Zhang, Lingling Zhao, Guodong Zheng, and Shuming Zou

Subjects
Genetics, Ecology, Evolution, Behavior and Systematics
Published
2017

12. SOX2 Is a Marker for Stem-like Tumor Cells in Bladder Cancer

Author

Mingqing Wu, Haojie Zhang, Qian Weiqing, Xiuhong Zhang, Yang Li, Qian Gao, Yingyin Zhang, Yu Liang, and Fengyu Zhu

Subjects
0301 basic medicine, Sox2, Fluorescent Antibody Technique, Gene Expression, Biochemistry, Mice, 0302 clinical medicine, Genes, Reporter, skin and connective tissue diseases, lcsh:QH301-705.5, lcsh:R5-920, Immunohistochemistry, Gene Expression Regulation, Neoplastic, Cell Tracking, 030220 oncology & carcinogenesis, embryonic structures, Disease Progression, Neoplastic Stem Cells, bladder cancer, Stem cell, lcsh:Medicine (General), cancer stem cell, Mice, Transgenic, Biology, 03 medical and health sciences, stomatognathic system, SOX2, Downregulation and upregulation, Cancer stem cell, Report, Cell Line, Tumor, Biomarkers, Tumor, Genetics, medicine, Animals, Humans, Cell Lineage, Transcription factor, Bladder cancer, SOXB1 Transcription Factors, Cancer, Cell Biology, medicine.disease, Disease Models, Animal, 030104 developmental biology, lcsh:Biology (General), Urinary Bladder Neoplasms, Immunology, Cancer research, sense organs, Developmental Biology
Abstract

Summary It has been reported that functionally distinct cancer stem cells (CSCs) exist in human bladder cancer (BCa). Here, we found that Sox2, a transcription factor that is well characterized as a marker for stem cells, is upregulated in both mouse and human BCa. Sox2 expression is absent in normal urothelial cells, but it begins to be expressed in pre-neoplastic bladder tumors and continues to be expressed in invasive mouse BCa. Using s as a reporter of Sox2 transcriptional expression, we demonstrated that Sox2-expressing cells mark a subpopulation of tumor cells that fuel the growth of established BCa. SOX2-positive cells also expressed other previously reported BCa CSC markers, including Keratin14 (KRT14) and CD44v6. Ablation of Sox2-expressing cells within primary invasive BCa led to enhanced tumor regression, supporting the essential role of SOX2-positive cells in regulating BCa maintenance and progression. Our data show that Sox2 is a marker of bladder CSCs and indicate it as a potential clinical target for BCa therapy., Highlights • Sox2 expression marks bladder cancer stem cells in vivo • SOX2-positive cells are a subpopulation of KRT14-expressing cancer stem cells • SOX2-positive cells are a subpopulation of CD44v6-expressing cancer stem cells • Elimination of Sox2-expressing cells led to reduction of bladder cancer progression, In this article, Yang and colleagues assess the renewal and differentiation potential of Sox2-expressing cells in bladder cancer, by in vitro clonogenic assays, in vivo transplantation, and lineage-tracing experiments. Their data indicate that Sox2 expression marks the bladder cancer stem cells, which are necessary for tumor growth and maintenance.

Published
2017

13. The m

Author

Maosheng, Cheng, Lu, Sheng, Qian, Gao, Qiuchan, Xiong, Haojie, Zhang, Mingqing, Wu, Yu, Liang, Fengyu, Zhu, Yingyin, Zhang, Xiuhong, Zhang, Quan, Yuan, and Yang, Li

Subjects
Male, Mice, Inbred BALB C, Adenosine, Transcription Factor RelA, Methyltransferases, Xenograft Model Antitumor Assays, I-kappa B Kinase, Gene Expression Regulation, Neoplastic, Proto-Oncogene Proteins c-myc, Repressor Proteins, Urinary Bladder Neoplasms, Cell Movement, Animals, Humans, Transcriptional Elongation Factors, Cell Proliferation, Signal Transduction
Abstract

N

Published
2018

14. Low doses of decitabine improve the chemotherapy efficacy against basal-like bladder cancer by targeting cancer stem cells

Author

Mingqing, Wu, Lu, Sheng, Maosheng, Cheng, Haojie, Zhang, Yizhou, Jiang, Shuibin, Lin, Yu, Liang, Fengyu, Zhu, Zhenqing, Liu, Yingyin, Zhang, Xiuhong, Zhang, Qian, Gao, Demeng, Chen, Jiong, Li, and Yang, Li

Subjects
Male, Antimetabolites, Antineoplastic, Mice, Dose-Response Relationship, Drug, Urinary Bladder Neoplasms, Neoplastic Stem Cells, Animals, Humans, Drug Therapy, Combination, Cisplatin, Decitabine, Deoxycytidine, Gemcitabine
Abstract

Low dose treatment with the DNA methylation inhibitor decitabine has been shown to be applicable for the management of certain types of cancer. However, its antitumor effect and mechanisms are context dependent and its activity has never been systematically studied in bladder cancer treatment. We used mouse models, cultured cell lines and patient-derived xenografts to demonstrate that low dose decitabine treatment remarkably enhanced the effects of cisplatin and gemcitabine on basal-like bladder cancer both in vivo and in vitro. Genetic lineage tracing revealed that the stemness of a bladder cancer stem cell population was inhibited by decitabine treatment in mice. These effects were accompanied by decreases in genome-wide DNA methylation, gene re-expression, and changes in key cellular regulatory pathways such as STAT3 signaling. These results indicate that this DNA-demethylating reagent is a promising therapeutic approach for basal-like bladder cancer treatment.

Published
2018

15. Next-generation resequencing the complete mitochondrial genome of Japanese quail (Coturnix japonica)

Author

Yingyin Zhang and Gang Liu

Subjects
0301 basic medicine, Genetics, Mitochondrial DNA, biology, Coturnix japonica, Ribosomal RNA, 16S ribosomal RNA, biology.organism_classification, Quail, Stop codon, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, Japanese quail, chemistry, complete mitochondrial genome sequences, biology.animal, Dihydrouridine, NGS technologies, Molecular Biology, Gene, Mitogenome Announcement, Research Article
Abstract

As the development of the new generation of sequencing (NGS) technologies, it has been used for standard sequencing applications more and more popular. We used NGS technologies to resequence the complete mitochondrial genome of Japanese quail. The complete mitochondrial genome of Japanese quail is a 16,668 bp circular molecule, which contains 37 typical mitochondrial genes (13 protein-coding genes, 2 rRNAs, and 22 tRNAs) and a 1156 bp D-loop. Its gene arrangement pattern is identical with typical other Galliformes. All protein-coding genes start with an ATG codon except COI, which start with GTG. TAA is the most frequent stop codon, although ND2 end with TAG, and COI and ND6 end with AGG, COIII and ND4 end with TGC. The mtDNA sequence contains 12S rRNA and 16S rRNA of rRNA. Except for tRNASer(AGY) and tRNALeu(CUN) without the dihydrouridine (DHU) arm, all tRNAs could be folded into canonical cloverleaf secondary structures. Coturnix japonica has close relative with C. chinensis.

Published
2017

16. Multiple origins of spontaneously arising micronuclei in HeLa cells: Direct evidence from long-term live cell imaging

Author

Qiyi Yi, Xiaotang Rao, Yun Huang, Heli Hou, Bo Xu, Yingyin Zhang, Wenrui Zhang, Michael Fenech, Qinghua Shi, and Liang Chu

Subjects
Chromosome Aberrations, Genetics, Micronucleus Tests, Microscopy, Video, Time Factors, Cell division, Health, Toxicology and Mutagenesis, Chromosome, Biology, Cell biology, Microscopy, Fluorescence, Live cell imaging, Chromosome instability, Image Interpretation, Computer-Assisted, Micronucleus test, Humans, Micronucleus, Molecular Biology, Mitosis, Metaphase, Micronuclei, Chromosome-Defective, HeLa Cells
Abstract

Although micronuclei (MNi) are extensively used to evaluate genotoxic effects and chromosome instability, the most basic issue regarding their origins has not been completely addressed due to limitations of traditional methods. Recently, long-term live cell imaging was developed to monitor the dynamics of single cell in a real-time and high-throughput manner. In the present study, this state-of-the-art technique was employed to examine spontaneous micronucleus (MN) formation in untreated HeLa cells. We demonstrate that spontaneous MNi are derived from incorrectly aligned chromosomes in metaphase (displaced chromosomes, DCs), lagging chromosomes (LCs) and broken chromosome bridges (CBs) in later mitotic stages, but not nuclear buds in S phase. However, most of bipolar mitoses with DCs (91.29%), LCs (73.11%) and broken CBs (88.93%) did not give rise to MNi. Our data also show directly, for the first time, that MNi could originate spontaneously from (1) MNi already presented in the mother cells; (2) nuclear fragments that appeared during mitosis with CB; and (3) chromosomes being extruded into a minicell which fused with one of the daughter cells later. Quantitatively, most of MNi originated from LCs (63.66%), DCs (10.97%) and broken CBs (9.25%). Taken together, these direct evidences show that there are multiple origins for spontaneously arising MNi in HeLa cells and each mechanism contributes to overall MN formation to different extents.

Published
2008

17. Difference in microRNA expression and editing profile of lung tissues from different pig breeds related to immune responses to HP-PRRSV

Author

Liurong Fang, Junlong Zhao, Shujun Zhang, Yaofeng Zhao, Jiang Xiao, Xiaoxiang Hu, Yingyin Zhang, Jia Li, Ao Zhou, Xing Chen, Liming Ren, Ning Li, Rui Fang, and Chen Zhisheng

Subjects
Swine, viruses, animal diseases, Porcine Reproductive and Respiratory Syndrome, Genome, Viral, Biology, Article, Virus, Conserved sequence, Evolution, Molecular, Transcriptome, Immune system, microRNA, Animals, Cluster Analysis, Position-Specific Scoring Matrices, Gene Regulatory Networks, Porcine respiratory and reproductive syndrome virus, Lung, Conserved Sequence, Regulation of gene expression, Binding Sites, Multidisciplinary, Gene Expression Profiling, Computational Biology, Reproducibility of Results, virus diseases, Molecular Sequence Annotation, respiratory system, Virology, Gene expression profiling, MicroRNAs, Gene Expression Regulation, RNA editing, Nucleic Acid Conformation, RNA Editing
Abstract

Porcine reproductive and respiratory syndrome (PRRS) is one of the most devastating diseases for the pig industry. Our goal was to identify microRNAs involved in the host immune response to PRRS. We generated microRNA expression profiles of lung tissues from Tongcheng or Landrace pigs infected with a highly pathogenic PRRS virus (PRRSV) at 3, 5, 7 dpi (day post infection) and control individuals from these two breeds. Our data showed that 278 known and 294 novel microRNAs were expressed in these combined microRNA transcriptomes. Compared with control individuals, almost half of the known microRNAs (116 in Tongcheng and 153 in Landrace) showed significantly differential expression (DEmiRNAs) at least once. The numbers of down-regulated DEmiRNAs were larger than the corresponding number of up-regulated DEmiRNAs in both breeds. Interestingly, miR-2320-5p, which was predicted to bind to conserved sequences of the PRRSV genome, was down-regulated significantly at 3 dpi after PRRSV infection in both breeds. In addition, PRRSV infection induced a significant increase of microRNA editing level in both breeds. Our results provide novel insight into the role of microRNA in response to PRRSV infection in vivo, which will aid the research for developing novel therapies against PRRSV.

Published
2015

18. Complete mitochondrial genome of Polyphaga plancyi (Blattaria: Polyphagidae)

Author

Yingyin Zhang, Gang Liu, Chuanqin Chen, Mengwei Liu, and Wenyu Hui

Subjects
0301 basic medicine, Genetics, Mitochondrial DNA, Blattaria, biology, Phylogenetic tree, Polyphaga plancyi, Ribosomal RNA, biology.organism_classification, Stop codon, Eupolyphaga sinensis, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, chemistry, complete mitochondrial genome sequences, Dihydrouridine, Molecular Biology, Gene, Polyphaga, Mitogenome Announcement, Research Article
Abstract

The complete mitochondrial genome of Polyphaga plancyi is a 15,547 bp circular molecule, which contains 37 typical mitochondrial genes (13 protein-coding genes, 2 rRNAs and 22 tRNAs) and a 854 bp D-loop. Its gene arrangement pattern is identical with typical other cockroaches. All protein-coding genes start with an ATG codon except COI, ND3, ND5, ND4, ND4L ND6 and ND1. TAA is the most frequent stop codon, and TAG, GCA, TA- and T- are also occurred very common. The mtDNA sequence contains 12S rRNA and 16S rRNA of rRNA. Except for tRNASer(AGY) and tRNALeu(CUN) without the dihydrouridine (DHU) arm, all tRNAs could be folded into canonical cloverleaf secondary structures. The phylogenetic trees from the ML and BI analyses based on the complete mtDNA of nine cockroaches’ species, share similar topologies and high node support values. Polyphaga plancy has close relative with Eupolyphaga sinensis.

Published
2016

19. Regulation of asymmetrical cytokinesis by cAMP during meiosis I in mouse oocytes

Author

Heli Hou, Howard J. Cooke, Yun Huang, Qing-Yuan Sun, Yingyin Zhang, Dawei Chen, Lei Li, Qinghua Shi, Yuanwei Zhang, Qiaomei Hao, and Qiyi Yi

Subjects
Anatomy and Physiology, Cell division, Microinjections, Intracellular Space, lcsh:Medicine, Endocrine System, Biology, Polar body, Mice, Endocrinology, Meiosis, Cell Movement, 1-Methyl-3-isobutylxanthine, Molecular Cell Biology, Asymmetric cell division, Cyclic AMP, Animals, Cleavage furrow, lcsh:Science, Cells, Cultured, Anaphase, Cytokinesis, Myosin Type II, Mice, Inbred ICR, Sulfonamides, Multidisciplinary, Endocrine Physiology, Asymmetric Cell Division, lcsh:R, Isoquinolines, Chromosomes, Mammalian, Cell biology, Bucladesine, Oocytes, Medicine, Female, lcsh:Q, Cell Division, Intracellular, Research Article
Abstract

Mammalian oocytes undergo an asymmetrical first meiotic division, extruding half of their chromosomes in a small polar body to preserve maternal resources for embryonic development. To divide asymmetrically, mammalian oocytes relocate chromosomes from the center of the cell to the cortex, but little is known about the underlying mechanisms. Here, we show that upon the elevation of intracellular cAMP level, mouse oocytes produced two daughter cells with similar sizes. This symmetrical cell division could be rescued by the inhibition of PKA, a cAMP-dependent protein kinase. Live cell imaging revealed that a symmetrically localized cleavage furrow resulted in symmetrical cell division. Detailed analyses demonstrated that symmetrically localized cleavage furrows were caused by the inappropriate central positioning of chromosome clusters at anaphase onset, indicating that chromosome cluster migration was impaired. Notably, high intracellular cAMP reduced myosin II activity, and the microinjection of phospho-myosin II antibody into the oocytes impeded chromosome migration and promoted symmetrical cell division. Our results support the hypothesis that cAMP plays a role in regulating asymmetrical cell division by modulating myosin II activity during mouse oocyte meiosis I, providing a novel insight into the regulation of female gamete formation in mammals.

Published
2012

20. Inhibitors of phosphatidylinositol 3'-kinases promote mitotic cell death in HeLa cells

Author

Lei Lv, Qiaomei Hao, Qinghua Shi, Heli Hou, Qiyi Yi, Dawei Chen, Yingyin Zhang, Tianwei Zhang, and Yun Huang

Subjects
Programmed cell death, Cell cycle checkpoint, Cell Survival, Cell, ATG5, lcsh:Medicine, Mitosis, Biology, Biochemistry, Cell Line, Mice, Neoplasms, Drug Discovery, Molecular Cell Biology, medicine, Genetics, Cancer Genetics, Animals, Humans, lcsh:Science, Cytoskeleton, Phosphoinositide-3 Kinase Inhibitors, Cellular Stress Responses, Multidisciplinary, Cell Death, Protein Kinase Signaling Cascade, Cell growth, Caspase 3, Adenine, lcsh:R, Autophagy, Proteins, Cell Cycle Checkpoints, Fibroblasts, Cellular Structures, Signaling Cascades, Cell biology, Androstadienes, medicine.anatomical_structure, lcsh:Q, Gene Function, Wortmannin, Intracellular, Cell Division, HeLa Cells, Research Article, Signal Transduction
Abstract

The phosphatidylinositol 3-kinase (PI3K) pathway plays an important role in many biological processes, including cell cycle progression, cell growth, survival, actin rearrangement and migration, and intracellular vesicular transport. However, the involvement of the PI3K pathway in the regulation of mitotic cell death remains unclear. In this study, we treated HeLa cells with the PI3K inhibitors, 3-methyladenine (3-MA, as well as a widely used autophagy inhibitor) and wortmannin to examine their effects on cell fates using live cell imaging. Treatment with 3-MA decreased cell viability in a time- and dose-dependent manner and was associated with caspase-3 activation. Interestingly, 3-MA-induced cell death was not affected by RNA interference-mediated knockdown (KD) of beclin1 (an essential protein for autophagy) in HeLa cells, or by deletion of atg5 (an essential autophagy gene) in mouse embryonic fibroblasts (MEFs). These data indicate that cell death induced by 3-MA occurs independently of its ability to inhibit autophagy. The results from live cell imaging studies showed that the inhibition of PI3Ks increased the occurrence of lagging chromosomes and cell cycle arrest and cell death in prometaphase. Furthermore, PI3K inhibitors promoted nocodazole-induced mitotic cell death and reduced mitotic slippage. Overexpression of Akt (the downstream target of PI3K) antagonized PI3K inhibitor-induced mitotic cell death and promoted nocodazole-induced mitotic slippage. These results suggest a novel role for the PI3K pathway in regulating mitotic progression and preventing mitotic cell death and provide justification for the use of PI3K inhibitors in combination with anti-mitotic drugs to combat cancer.

Published
2011

21. p53 dependent centrosome clustering prevents multipolar mitosis in tetraploid cells

Author

Yun Huang, Mian Wu, Qiyi Yi, Tieliang Ma, Xiaoyu Zhao, Heli Hou, Da Qing Yang, Qinghua Shi, Howard J. Cooke, and Yingyin Zhang

Subjects
Genome instability, Aneuploidy, lcsh:Medicine, Fluorescent Antibody Technique, Centrosome cycle, Signal transduction, Mitotic Spindle Apparatus, Mice, Molecular cell biology, Image Processing, Computer-Assisted, lcsh:Science, Cells, Cultured, Mice, Knockout, Multidisciplinary, Cell Death, Chromosome Biology, Cell Cycle, food and beverages, Cell cycle, Cell biology, Ploidy, Cell Division, Research Article, Signaling in cellular processes, Mitosis, Spindle Apparatus, Biology, Cell Growth, Genomic Instability, Genetics, Cancer Genetics, medicine, Animals, Humans, GTPase signaling, Centrosome, lcsh:R, Fibroblasts, medicine.disease, Embryo, Mammalian, Mice, Inbred C57BL, Tetraploidy, lcsh:Q, Gene Function, Tumor Suppressor Protein p53, rhoA GTP-Binding Protein, Multipolar spindles
Abstract

BACKGROUND: p53 abnormality and aneuploidy often coexist in human tumors, and tetraploidy is considered as an intermediate between normal diploidy and aneuploidy. The purpose of this study was to investigate whether and how p53 influences the transformation from tetraploidy to aneuploidy. PRINCIPAL FINDINGS: Live cell imaging was performed to determine the fates and mitotic behaviors of several human and mouse tetraploid cells with different p53 status, and centrosome and spindle immunostaining was used to investigate centrosome behaviors. We found that p53 dominant-negative mutation, point mutation, or knockout led to a 2∼ 33-fold increase of multipolar mitosis in N/TERT1, 3T3 and mouse embryonic fibroblasts (MEFs), while mitotic entry and cell death were not significantly affected. In p53-/- tetraploid MEFs, the ability of centrosome clustering was compromised, while centrosome inactivation was not affected. Suppression of RhoA/ROCK activity by specific inhibitors in p53-/- tetraploid MEFs enhanced centrosome clustering, decreased multipolar mitosis from 38% to 20% and 16% for RhoA and ROCK, respectively, while expression of constitutively active RhoA in p53+/+ tetraploid 3T3 cells increased the frequency of multipolar mitosis from 15% to 35%. CONCLUSIONS: p53 could not prevent tetraploid cells entering mitosis or induce tetraploid cell death. However, p53 abnormality impaired centrosome clustering and lead to multipolar mitosis in tetraploid cells by modulating the RhoA/ROCK signaling pathway.

Published
2011

22. The fate of micronucleated cells post X-irradiation detected by live cell imaging

Author

Yun Huang, Qinghua Shi, Yunfei Xia, Qiyi Yi, Heli Hou, Yingyin Zhang, Michael Fenech, Erkang Jiang, and Dawei Chen

Subjects
Cell Nucleus, medicine.diagnostic_test, Cell division, DNA damage, Cell Survival, X-Rays, Cell Biology, Biology, complex mixtures, Biochemistry, Molecular biology, Histones, Live cell imaging, Cell Line, Tumor, Micronucleus test, Immunology, medicine, Humans, Cell Lineage, Radiosensitivity, Kinase activity, Micronucleus, Molecular Biology, Fluorescence in situ hybridization, DNA Damage
Abstract

Micronuclei are closely related to DNA damage. The presence of micronuclei in mammalian cells is a common phenomenon post ionizing radiation. The level of micronucleation in tumor cells has been used to predict prognosis after radiotherapy in many cancers. In order to understand how irradiation-induced micronuclei affect cell fate, we performed extensive long-term live cell imaging on X-irradiated nasopharyngeal carcinoma (NPC) cells. To visualize the dynamics of micronuclei more clearly, chromosomes were stably labeled with red fluorescent protein (RFP) by targeting to human histone H2B. Initially, significantly more micronuclei were observed in radiosensitive cells than in radioresistant cells post irradiation. Additionally, cells with micronuclei were found to be more likely to die or undergo cell cycle arrest when compared with micronucleus-free cells after irradiation, and the more micronuclei the cells contained the more likely they would die or undergo arrest. Moreover, micronucleated cells showed predisposition to produce daughter cells with micronuclei through chromosome lagging. Fluorescence in situ hybridization using human pan-centromeric probes revealed that about 70% of these micronuclei and lagging chromosomes did not contain centromeric signals. Finally, DNA damage was more severe and p38 stress kinase activity was higher in micronucleated cells than in micronucleus-free cells as shown by phospho-H2AX and phospho-p38 immunofluorescence staining. Altogether, our observations indicated that the presence of micronuclei coupled with activated DNA damage response could compromise the proliferation capacity of irradiated cells, providing the evidence and justification for using micronucleus index as a valuable biomarker of radiosensitivity.

Published
2010

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