Your search keyword '"Cyclin a"' showing total 7,580 results

1. Proliferating cell nuclear antigen of Ulva prolifera is involved in the response to temperature stress.

Author

He, Hongyan, Yang, Juanjuan, He, Yuan, Yang, Xiuwen, Fu, Caiwei, Zhang, Dongren, Dong, Jingwei, Zeb, Aurang, Qu, Jing, and Shen, Songdong

Subjects

*ANTIGENS, *ULVACEAE, *PROTOPLASTS, *TRANSCRIPTOMES, *PHYSIOLOGICAL effects of temperature

Abstract

Ulva prolifera is the most common specie causative to green tide, and its growth is sensitive to temperature stress. However, the mechanisms of U. prolifera response to temperature stress remain elusive. In this study, high temperature (36 °C) stimulus promoted the death of unformed cell wall protoplasts and delayed the division of formed cell wall protoplasts, while low-temperature (4 °C) stimulus did not, suggesting that the mechanisms of the response of U. prolifera to high and low-temperature stresses are different. Transcriptome results show that proliferation-related genes were differentially expressed under high and low-temperature stresses, especially the proliferating cell nuclear antigen (PCNA) and cyclins (CYCs). Subsequently, the interaction between PCNA and Cyclin A was confirmed by Co-immunoprecipitation, yeast two-hybrid, and so on. Furthermore, high- and low-temperature stresses induced the expression of PCNA and Cyclin A in varying of degrees, and activated extracellular signal-regulated kinase (ERK) signal pathway. These results suggest, PCNA, Cyclin A, and ERK signal pathway played important roles in the resistance of U. prolifera to temperature stress. Interestingly, high-temperature stress induced an increase of miR-2916 in abundance, and exhibiting reverse expression of PCNA; and PCNA was target gene of miR-2916, suggesting that miR-2916 protected U. prolifera from high-temperature stress via post-transcriptionally regulation of PCNA. This study laid a foundation for understanding the function of PCNA and Cyclin A, moreover, it has a guiding significance to explore the mechanisms of the response to temperature stress from proliferation-related genes regulatory networks in U. prolifera. [ABSTRACT FROM AUTHOR]

Published

2024

2. Cyclin-dependent kinase-mediated phosphorylation and the negative regulatory domain of transcription factor B-Myb modulate its DNA binding

Author

Wijeratne, Tilini U, Guiley, Keelan Z, Lee, Hsiau-Wei, Müller, Gerd A, and Rubin, Seth M

Subjects

Genetics, 1.1 Normal biological development and functioning, Underpinning research, Generic health relevance, Cell Cycle Proteins, Cyclin A, Cyclin-Dependent Kinase 2, DNA, Humans, Phosphorylation, Protein Domains, Trans-Activators, Transcriptional Activation, CHR genes, Cdk, autoregulation, cell cycle, gene regulation, intrinsically disordered protein, Chemical Sciences, Biological Sciences, Medical and Health Sciences, Biochemistry & Molecular Biology

Abstract

B-Myb is a highly conserved member of the vertebrate Myb family of transcription factors that plays a critical role in cell-cycle progression and proliferation. Myb proteins activate Myb-dependent promoters by interacting specifically with Myb-binding site (MBS) sequences using their DNA-binding domain (DBD). Transactivation of MBS promoters by B-Myb is repressed by its negative regulatory domain (NRD), and phosphorylation of the NRD by Cdk2-CyclinA relieves the repression to activate B-Myb-dependent promoters. However, the structural mechanisms underlying autoinhibition and activation of B-Myb-mediated transcription have been poorly characterized. Here, we determined that a region in the B-Myb NRD (residues 510-600) directly associates with the DBD and inhibits binding of the DBD to the MBS DNA sequence. We demonstrate using biophysical assays that phosphorylation of the NRD at T515, T518, and T520 is sufficient to disrupt the interaction between the NRD and the DBD, which results in increased affinity for MBS DNA and increased B-Myb-dependent promoter activation in cell assays. Our biochemical characterization of B-Myb autoregulation and the activating effects of phosphorylation provide insight into how B-Myb functions as a site-specific transcription factor.

Published

2022

3. Cyclin A participates in the TSO1-MYB3R1 regulatory module to maintain shoot meristem size and fertility in Arabidopsis.

Author

Fuxi Wang, Wanpeng Wang, and Zhongchi Liu

Subjects

*CYCLINS, *MERISTEMS, *ARABIDOPSIS, *CELL anatomy, *CELL cycle

Abstract

The stem cell pools at the shoot apex and root tip give rise to all the above- and below-ground tissues of a plant. Previous studies in Arabidopsis identified a TSO1-MYB3R1 transcriptional module that controls the number and size of the stem cell pools at the shoot apex and root tip. As TSO1 and MYB3R1 are homologous to components of an animal cell cycle regulatory complex, DREAM, Arabidopsis mutants of TSO1 and MYB3R1 provide valuable tools for investigations into the link between cell cycle regulation and stem cell maintenance in plants. In this study, an Arabidopsis cyclin A gene, CYCA3;4, was identified as a member of the TSO1-MYB3R1 regulatory module and cyca3;4 mutations suppressed the tso1-1 mutant phenotype specifically in the shoot. The work reveals how the TSO1-MYB3R1 module is integrated with the cell cycle machinery to control cell division at the shoot meristem. [ABSTRACT FROM AUTHOR]

Published

2023

4. Structural basis for the ORC1‐Cyclin A association

Author

Wang, Boxiao and Song, Jikui

Subjects

Biochemistry and Cell Biology, Biological Sciences, 2.1 Biological and endogenous factors, Aetiology, Amino Acid Motifs, Binding Sites, Crystallography, X-Ray, Cyclin A, Cyclin-Dependent Kinase 2, Humans, Hydrophobic and Hydrophilic Interactions, Models, Molecular, Origin Recognition Complex, Peptides, Protein Binding, Protein Conformation, cyclin-inhibitor complex, ORC1, Cyclin E, cell cycle regulation, Computation Theory and Mathematics, Other Information and Computing Sciences, Biophysics, Biochemistry and cell biology, Medicinal and biomolecular chemistry

Abstract

Progression of cell cycle is regulated by sequential expression of cyclins, which associate with distinct cyclin kinases to drive the transition between different cell cycle phases. The complex of Cyclin A with cyclin-dependent kinase 2 (CDK2) controls the DNA replication activity through phosphorylation of a set of chromatin factors, which critically influences the S phase transition. It has been shown that the direct interaction between the Cyclin A-CDK2 complex and origin recognition complex subunit 1 (ORC1) mediates the localization of ORC1 to centrosomes, where ORC1 inhibits cyclin E-mediated centrosome reduplication. However, the molecular basis underlying the specific recognition between ORC1 and cyclins remains elusive. Here we report the crystal structure of Cyclin A-CDK2 complex bound to a peptide derived from ORC1 at 2.54 å resolution. The structure revealed that the ORC1 peptide interacts with a hydrophobic groove, termed cyclin binding groove (CBG), of Cyclin A via a KXL motif. Distinct from other identified CBG-binding sequences, an arginine residue flanking the KXL motif of ORC1 inserts into a neighboring acidic pocket, contributing to the strong ORC1-Cyclin A association. Furthermore, structural and sequence analysis of cyclins reveals divergence on the ORC1-binding sites, which may underpin their differential ORC1-binding activities. This study provides a structural basis of the specific ORC1-cyclins recognition, with implication in development of novel inhibitors against the cyclin/CDK complexes.

Published

2019

5. RNA interference analysis of potential functions of cyclin A in the reproductive development of male oriental river prawns (Macrobrachium nipponense).

Author

Wenyi Zhang, Yiwei Xiong, Pengchao Wang, Tianyong Chen, Sufei Jiang, Hui Qiao, Yongsheng Gong, Yan Wu, Shubo Jin, and Hongtuo Fu

Subjects

MACROBRACHIUM, POTENTIAL functions, RNA analysis, GONADS, GENE expression, CYCLINS

Abstract

Cyclin A (CycA) plays essential roles in regulating multiple steps of the cell cycle, and it affects gonad development in mammals and invertebrates. Previous RNA interference (RNAi) analysis revealed that knocking-down the expression of CycA in female oriental river prawns (Macrobrachium nipponense) inhibited ovarian development. CycA was also predicted to have regulatory roles in reproductive development of male M. nipponense based on significant changes of Mn-CycA expression after eyestalk ablation. The goal of this study was to investigate the potential functions of CycA in the reproductive development of male M. nipponense using RNAi and histological observations. Quantitative real-time PCR analysis revealed that both single-side and double-side eyestalk ablation stimulated the expressions of Mn-CycA, and the expression was higher in prawns with double-side eyestalk ablation (p < 0.05). Mn-CycA expression was significantly higher in the testis and androgenic gland during the reproductive season than during the nonreproductive season (p < 0.05). In the RNAi analysis, Mn-CycA expression significantly decreased after prawns were injected with dsCycA, and the expression of insulin-like androgenic gland hormone (Mn-IAG) also decreased as Mn-CycA expression decreased. This result indicated that CycA positively regulated the expression of IAG in M. nipponense. Histological observations revealed that the number of sperm decreased dramatically to <5% of the total cells in the testis of the dsCycA-treated group compared to that of control group on day 14, indicating that knockdown of Mn-CycA expression inhibited testis development by affecting the expression of Mn-IAG in M. nipponense. These results highlighted the functions of CycA inmale reproductive development of M. nipponense, which can be applied to future studies of male reproduction in other crustacean species. [ABSTRACT FROM AUTHOR]

Published

2022

6. Novel benzylidene benzofuranone analogues as potential anticancer agents: design, synthesis and in vitro evaluation based on CDK2 inhibition assays.

Author

Pai, Aravinda and B.S., Jayashree

Subjects

*CYCLIN-dependent kinases, *ANTINEOPLASTIC agents, *MOLECULAR dynamics, *CELL cycle, *CELL analysis, *ANNEXINS, *OLIVE oil

Abstract

The classical anticancer agents do not have their efficacy on inhibiting the G2 phase of the cell cycle. There are a very few reports available on drugs that work at G2 phase. Flavopiridol is one such drug candidate. In the current study, we sought to make analogues of flavopiridol. Still, the conditions used during their synthesis were unfavourable for the formation of flavopiridol and led to the generation of benzofuranones. In the present work, a new series of benzylidene benzofuranones were designed, synthesized and evaluated for their antioxidant, anti-colorectal cancer activity. Molecular docking, MMGBSA and molecular dynamics studies were conducted to assess their binding affinity at the active site of CDK2. Based on the cytotoxicity exhibited by test compounds, the compound NISOA4 (from isopropyl series) was further selected for mechanistic anticancer studies on HCT 116 cell lines. The compound selected was evaluated by comet assay, DNA fragmentation assay, cell cycle analysis, apoptosis detection by annexin FITC, semi-quantitative RTPCR based gene expression studies and FRET assay on the target CDK2/Cyclin A. Compound NISOA4 exhibited marked olive moments in comet assay studies. The apoptotic DNA fragmentation for compound NISOA4 demonstrated a marked change in the DNA fragmentation. The compound exhibited cell cycle arrest at G2/M phase at both the test concentrations. Apoptosis induction was observed at both the test concentrations and the compound was found to be a potent proapoptotic agent. It exhibited marked inhibition for the CDK2 gene expression and did not show any effect on CyclinA gene expression. However, the compound NISOA4 along with other analogues showed appreciable inhibition for the CDK2/Cyclin A target enzyme. [ABSTRACT FROM AUTHOR]

Published

2022

7. Lidocaine Inhibited Tendon Cell Proliferation and Extracellular Matrix Production by Down Regulation of Cyclin A, CDK2, Type I and Type III Collagen Expression.

Author

Chen, Yen-Chia, Chang, Hsiang-Ning, Pang, Jong-Hwei Su, Lin, Li-Ping, Chen, Jing-Min, Yu, Tung-Yang, and Tsai, Wen-Chung

Subjects

*EXTRACELLULAR matrix, *INHIBITION of cellular proliferation, *CYCLIN-dependent kinases, *CYCLINS, *LIDOCAINE, *COLLAGEN

Abstract

Lidocaine injection is a common treatment for tendon injuries. However, the evidence suggests that lidocaine is toxic to tendon cells. This study investigated the effects of lidocaine on cultured tendon cells, focusing on the molecular mechanisms underlying cell proliferation and extracellular matrix (ECM) production. Tendon cells cultured from rat Achilles tendons were treated with 0.5, 1.0, or 1.5 mg/mL lidocaine for 24 h. Cell proliferation was evaluated by Cell Counting Kit 8 (CCK-8) assay and bromodeoxyuridine (BrdU) assay. Cell apoptosis was assessed by Annexin V and propidium iodide (PI) stain. Cell cycle progression and cell mitosis were assessed through flow cytometry and immunofluorescence staining, respectively. The expression of cyclin E, cyclin A, cyclin-dependent kinase 2 (CDK2), p21, p27, p53, matrix metalloproteinases-2 (MMP-2), matrix metalloproteinases-9 (MMP-9), type I collagen, and type III collagen were examined through Western blotting, and the enzymatic activity of MMP-9 was determined through gelatin zymography. Lidocaine reduced cell proliferation and reduced G1/S transition and cell mitosis. Lidocaine did not have a significant negative effect on cell apoptosis. Lidocaine significantly inhibited cyclin A and CDK2 expression but promoted p21, p27, and p53 expression. Furthermore, the expression of MMP-2 and MMP-9 increased, whereas that of type I and type III collagen decreased. Lidocaine also increased the enzymatic activity of MMP-9. Our findings support the premise that lidocaine inhibits tendon cell proliferation by changing the expression of cell-cycle-related proteins and reduces ECM production by altering levels of MMPs and collagens. [ABSTRACT FROM AUTHOR]

Published

2022

8. The Therapeutic Role of PNU-74654 in Hepatocellular Carcinoma May Involve Suppression of NF-κB Signaling.

Author

Wu, Min-You, Wang, Chi-Chih, Chang, Ya-Chuan, Yu, Chia-Ying, Sung, Wen-Wei, Chen, Chih-Jung, and Tsai, Ming-Chang

Subjects

HEPATOCELLULAR carcinoma, CELL cycle regulation, CELL populations, CELL migration, CELL cycle

Abstract

Background and Objectives: PNU-74654, a Wnt/β-catenin inhibitor, has reported antitumor activities; however, the therapeutic potential of PNU-74654 in hepatocellular carcinoma (HCC) has not been investigated in detail. The aim of this study was to clarify the cytotoxic effects of PNU-74654 against HCC and to uncover its molecular mechanism. Materials and Methods: HepG2 and Huh7 liver cancer cell lines were selected to determine the antitumor properties of PNU-74654. Survival of the liver cancer cells in response to PNU-74654 was assessed by cell viability assays, and the apoptosis effect of PNU-74654 was analyzed by flow cytometry and visualized by Hoechst staining. An oncology array was used to explore the underlying molecular routes of PNU-74654 action in the cells. The migration properties were examined with a wound healing assay, and western blotting was conducted to evaluate protein expression. Results: Treatment with PNU-74654 decreased cell viability and inhibited cell migration. The cell cycle analysis and Hoechst staining revealed an increase in the population of cells at the sub-G1 stage and apoptotic morphological changes in the nucleus. The oncology array identified 84 oncology-related proteins and a suppressed expression of Bcl-xL and survivin. Western blotting showed that PNU-74654 could interfere with cell cycle-related proteins through the NF-κB pathway. Conclusions: PNU-74654 shows antiproliferative and antimigration effects against HepG2 and Huh7 cells, and its antitumor activity may be attributable to its interference in cell cycle regulation and the NF-κB pathway. [ABSTRACT FROM AUTHOR]

Published

2022

9. Post-transcriptional regulation of cyclin A and cyclin B mRNAs is mediated by Bruno 1 and Cup, and further fine-tuned within P-bodies.

Abstract

The article discusses the post-transcriptional regulation of cyclin A and cyclin B mRNAs by Bruno 1 and Cup, as well as their association with P-bodies. The study demonstrates that depletion of these proteins leads to abnormal protein expression and reduced mRNA levels for both Cyclins. The research highlights the nuanced, mRNA-specific roles of P-body condensates in post-transcriptional regulation, challenging the idea of a uniform mechanism of mRNA repression in P-bodies. [Extracted from the article]

Published

2024

10. The Mammalian Target of Rapamycin and DNA methyltransferase 1 axis mediates vascular endothelial dysfunction in response to disturbed flow.

Author

Zhang, Yun-Peng, Huang, Yi-Tao, Huang, Tse-Shun, Pang, Wei, Zhu, Juan-Juan, Liu, Yue-Feng, Tang, Run-Ze, Zhao, Chuan-Rong, Yao, Wei-Juan, Li, Yi-Shuan, Chien, Shu, and Zhou, Jing

Subjects

Arteries, Endothelium, Vascular, Animals, Mice, Inbred C57BL, Cattle, Humans, Mice, Disease Models, Animal, Cyclin A, Hemorheology, DNA Methylation, Epigenesis, Genetic, Atherosclerosis, Promoter Regions, Genetic, Connective Tissue Growth Factor, TOR Serine-Threonine Kinases, Human Umbilical Vein Endothelial Cells, Mice, Knockout, ApoE, DNA (Cytosine-5-)-Methyltransferase 1, Cardiovascular, Genetics, 2.1 Biological and endogenous factors, Endothelium, Vascular, Inbred C57BL, Disease Models, Animal, Epigenesis, Genetic, Promoter Regions, Knockout, ApoE, Biochemistry and Cell Biology, Other Physical Sciences

Abstract

The earliest atherosclerotic lesions preferentially develop in arterial regions experienced disturbed blood flow, which induces endothelial expression of pro-atherogenic genes and the subsequent endothelial dysfunction. Our previous study has demonstrated an up-regulation of DNA methyltransferase 1 (DNMT1) and a global hypermethylation in vascular endothelium subjected to disturbed flow. Here, we determined that DNMT1-specific inhibition in arterial wall ameliorates the disturbed flow-induced atherosclerosis through, at least in part, targeting cell cycle regulator cyclin A and connective tissue growth factor (CTGF). We identified the signaling pathways mediating the flow-induction of DNMT1. Inhibition of the mammalian target of rapamycin (mTOR) suppressed the DNMT1 up-regulation both in vitro and in vivo. Together, our results demonstrate that disturbed flow influences endothelial function and induces atherosclerosis in an mTOR/DNMT1-dependent manner. The conclusions obtained from this study might facilitate further evaluation of the epigenetic regulation of endothelial function during the pathological development of atherosclerosis and offer novel prevention and therapeutic targets of this disease.

Published

2017

11. HK2 promotes migration and proliferation of human cervical cancer cell lines

Author

LEI Dan, ZHANG Yan-ru, CHEN Qian, LI Lu, CUI Nan

Subjects

hexokinase 2, p-erk1/2, slug, cyclin a, cervical cancer, Medicine

Abstract

Objective To investigate the molecular mechanism of HK2 on promoting cell proliferation and migration through p-ERK1/2 in cervical cancer cell line HeLa. Methods Expression of HK2 in cervical cancer cell lines was detected by Western blot and immunocychemistry. Over-expressed HK2 cell line(HeLa-HK2) was established by using G418. Wound-healing and Transwell cells assays were used to detect the migratory and invasive potential in HeLa-HK2 and in control cell lines. Cell growth curves, MTT assay and flow cytometry were used to detect cell proliferation, cell viability and cell cycle. The expression of ERK1/2, p-ERK1/2, cyclin A and Slug was detected by using Western blot and immunocytochemistry. The ERK inhibitor (FR180204) was used to inhibit expression of ERK1/2 and p-ERK1/2, and the potential of cell proliferation, migration and invasion was observed in these cells. Results HeLa-HK2 cells that stably expressing HK2 was successfully constructed. HK2 enhanced cell migration, invasion and growth potential in HeLa cells. The expression of ERK1/2, p-ERK1/2, cyclin A and Slug was higher in HeLa-HK2 cells than those in control cells. The protein level of ERK1/2, p-ERK1/2, cyclin A and Slug was decreased in FR180204 treated HeLa-HK2 cells, and the potential of growth, migratory and invasive were also attenuated by FR180204 in HeLa-HK2 cells. Conclusions HK2 promotes cell growth, migration and invasion in HeLa cells by up-regulating expression of cyclin A and Slug through stimulating p-ERK1/2.

Published

2020

12. Cyclin B3 is a mitotic cyclin that promotes the metaphase-anaphase transition.

Author

Yuan, Kai and O'Farrell, Patrick H

Subjects

Animals, Animals, Genetically Modified, Drosophila melanogaster, Cyclin A, Cyclin B, Drosophila Proteins, Anaphase, Metaphase, Mitosis, Models, Biological, Female, Male, Gene Knockdown Techniques, M Phase Cell Cycle Checkpoints, Genetically Modified, Models, Biological, Developmental Biology, Biological Sciences, Medical and Health Sciences, Psychology and Cognitive Sciences

Abstract

The timing mechanism for mitotic progression is still poorly understood. The spindle assembly checkpoint (SAC), whose reversal upon chromosome alignment is thought to time anaphase [1-3], is functional during the rapid mitotic cycles of the Drosophila embryo; but its genetic inactivation had no consequence on the timing of the early mitoses. Mitotic cyclins-Cyclin A, Cyclin B, and Cyclin B3-influence mitotic progression and are degraded in a stereotyped sequence [4-11]. RNAi knockdown of Cyclins A and B resulted in a Cyclin B3-only mitosis in which anaphase initiated prior to chromosome alignment. Furthermore, in such a Cyclin B3-only mitosis, colchicine-induced SAC activation failed to block Cyclin B3 destruction, chromosome decondensation, or nuclear membrane re-assembly. Injection of Cyclin B proteins restored the ability of SAC to prevent Cyclin B3 destruction. Thus, SAC function depends on particular cyclin types. Changing Cyclin B3 levels showed that it accelerated progress to anaphase, even in the absence of SAC function. The impact of Cyclin B3 on anaphase initiation appeared to decline with developmental progress. Our results show that different cyclin types affect anaphase timing differently in the early embryonic divisions. The early-destroyed cyclins-Cyclins A and B-restrain anaphase-promoting complex/cyclosome (APC/C) function, whereas the late-destroyed cyclin, Cyclin B3, stimulates function. We propose that the destruction schedule of cyclin types guides mitotic exit by affecting both Cdk1 and APC/C, whose activities change as each cyclin type is lost.

Published

2015

13. CDK1 Inhibition Targets the p53-NOXA-MCL1 Axis, Selectively Kills Embryonic Stem Cells, and Prevents Teratoma Formation

Author

Huskey, Noelle E, Guo, Tingxia, Evason, Kimberley J, Momcilovic, Olga, Pardo, David, Creasman, Katelyn J, Judson, Robert L, Blelloch, Robert, Oakes, Scott A, Hebrok, Matthias, and Goga, Andrei

Subjects

Biochemistry and Cell Biology, Biological Sciences, Stem Cell Research - Embryonic - Non-Human, Stem Cell Research, Regenerative Medicine, Animals, Apoptosis, CDC2 Protein Kinase, Cell Differentiation, Cell Line, Cell Transformation, Neoplastic, Cyclin A, Cyclin B1, Cyclin B2, DNA Damage, Drug Resistance, Embryonic Stem Cells, Gene Expression Regulation, Gene Knockout Techniques, Humans, Mice, Myeloid Cell Leukemia Sequence 1 Protein, Octamer Transcription Factor-3, Protein Kinase Inhibitors, Proto-Oncogene Proteins c-bcl-2, RNA Interference, Signal Transduction, Teratoma, Tumor Suppressor Protein p53, Clinical Sciences, Biochemistry and cell biology

Abstract

Embryonic stem cells (ESCs) have adopted an accelerated cell-cycle program with shortened gap phases and precocious expression of cell-cycle regulatory proteins, including cyclins and cyclin-dependent kinases (CDKs). We examined the effect of CDK inhibition on the pathways regulating proliferation and survival of ESCs. We found that inhibiting cyclin-dependent kinase 1 (CDK1) leads to activation of the DNA damage response, nuclear p53 stabilization, activation of a subset of p53 target genes including NOXA, and negative regulation of the anti-apoptotic protein MCL1 in human and mouse ESCs, but not differentiated cells. We demonstrate that MCL1 is highly expressed in ESCs and loss of MCL1 leads to ESC death. Finally, we show that clinically relevant CDK1 inhibitors prevent formation of ESC-derived tumors and induce necrosis in established ESC-derived tumors. Our data demonstrate that ES cells are uniquely sensitive to CDK1 inhibition via a p53/NOXA/MCL1 pathway.

Published

2015

14. Cyclin A

Author

Poon, Randy Y. C. and Choi, Sangdun, editor

Published

2018

15. The Prokaryotic Expression of Cyclin-Dependent Kinase 2, and the Establish of Its Inhibitor Screening System

Author

Yuan, Yuan, Gao, Meile, Liu, Huan, Ruan, Tingting, Xie, Weiran, Wu, Meng, Qu, Xin, Liu, Zhen, Yu, Peng, Teng, Yuou, Liu, Hao, editor, Song, Cunjiang, editor, and Ram, Arthur, editor

Published

2018

16. Cyclin A/B RxL Macrocyclic Inhibitors to Treat Cancers with High E2F Activity.

Abstract

A preprint abstract from biorxiv.org discusses the development of cell-permeable and bioavailable macrocycles that selectively kill small cell lung cancer (SCLC) cells with high E2F1 activity. These macrocycles, known as cyclin A/B RxL inhibitors (cyclin A/Bi), block the interactions of cyclin A and cyclin B with select substrates, leading to apoptosis. The study found that cyclin A/Bi induced apoptosis by activating the spindle assembly checkpoint and mitotic cell death. Additionally, cyclin A/Bi inhibited tumor growth in chemotherapy-resistant patient-derived xenograft models of SCLC. This research suggests cyclin A/Bi as a potential therapeutic strategy for SCLC and other cancers driven by high E2F activity. [Extracted from the article]

Published

2024

17. Activation of CDC25A phosphatase is limited by CDK2/cyclin A-mediated feedback inhibition.

Author

Ditano, Jennifer P., Sakurikar, Nandini, and Eastman, Alan

Subjects

CYCLINS, CELL cycle regulation, DNA damage, CELL cycle

Abstract

Cyclin-dependent kinase (CDK) 1 complexed with cyclin B is a driver of mitosis, while CDK2 drives S phase entry and replicon initiation. CDK2 activity increases as cells progress through S phase, and its cyclin partner switches from cyclin E to cyclin A. Activation of CDK2 requires dephosphorylation of tyrosine-15 by CDC25A. DNA damage activates the checkpoint protein CHK1, which phosphorylates and degrades CDC25A to prevent activation of CDK2 and protect from cell cycle progression before damage is repaired. CHK1 inhibitors were developed to circumvent this arrest and enhance the efficacy of many cancer chemotherapeutic agents. CHK1 inhibition results in the accumulation of CDC25A and activation of CDK2. We demonstrate that inhibition of CDK2 or suppression of cyclin A also results in accumulation of CDC25A suggesting a feedback loop that prevents over activation of this pathway. The feedback inhibition of CDC25A targets phosphorylation of S88-CDC25A, which resides within a CDK consensus sequence. In contrast, it appears that CDK complexes with cyclin B (and possibly cyclin E) stabilize CDC25A in a feed-forward activation loop. While CDK2/cyclin A would normally be active at late S/G2, we propose that this feedback inhibitory loop prevents over activation of CDK2 in early S phase, while still leaving CDK2/cyclin E to catalyze replicon initiation. One importance of this observation is that a subset of cancer cell lines are very sensitive to CHK1 inhibition, which is mediated by CDK2/cyclin A activity in S phase cells. Hence, dysregulation of this feedback loop might facilitate sensitivity of the cells. [ABSTRACT FROM AUTHOR]

Published

2021

18. Lidocaine Inhibited Tendon Cell Proliferation and Extracellular Matrix Production by Down Regulation of Cyclin A, CDK2, Type I and Type III Collagen Expression

Author

Yen-Chia Chen, Hsiang-Ning Chang, Jong-Hwei Su Pang, Li-Ping Lin, Jing-Min Chen, Tung-Yang Yu, and Wen-Chung Tsai

Subjects

lidocaine, tendon cells, cell proliferation, cell cycle, cyclin A, CDK 2, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Lidocaine injection is a common treatment for tendon injuries. However, the evidence suggests that lidocaine is toxic to tendon cells. This study investigated the effects of lidocaine on cultured tendon cells, focusing on the molecular mechanisms underlying cell proliferation and extracellular matrix (ECM) production. Tendon cells cultured from rat Achilles tendons were treated with 0.5, 1.0, or 1.5 mg/mL lidocaine for 24 h. Cell proliferation was evaluated by Cell Counting Kit 8 (CCK-8) assay and bromodeoxyuridine (BrdU) assay. Cell apoptosis was assessed by Annexin V and propidium iodide (PI) stain. Cell cycle progression and cell mitosis were assessed through flow cytometry and immunofluorescence staining, respectively. The expression of cyclin E, cyclin A, cyclin-dependent kinase 2 (CDK2), p21, p27, p53, matrix metalloproteinases-2 (MMP-2), matrix metalloproteinases-9 (MMP-9), type I collagen, and type III collagen were examined through Western blotting, and the enzymatic activity of MMP-9 was determined through gelatin zymography. Lidocaine reduced cell proliferation and reduced G1/S transition and cell mitosis. Lidocaine did not have a significant negative effect on cell apoptosis. Lidocaine significantly inhibited cyclin A and CDK2 expression but promoted p21, p27, and p53 expression. Furthermore, the expression of MMP-2 and MMP-9 increased, whereas that of type I and type III collagen decreased. Lidocaine also increased the enzymatic activity of MMP-9. Our findings support the premise that lidocaine inhibits tendon cell proliferation by changing the expression of cell-cycle-related proteins and reduces ECM production by altering levels of MMPs and collagens.

Published

2022

19. The Therapeutic Role of PNU-74654 in Hepatocellular Carcinoma May Involve Suppression of NF-κB Signaling

Author

Min-You Wu, Chi-Chih Wang, Ya-Chuan Chang, Chia-Ying Yu, Wen-Wei Sung, Chih-Jung Chen, and Ming-Chang Tsai

Subjects

PNU-74654, NF-κB, cyclin A, apoptosis, hepatocellular carcinoma, Medicine (General), R5-920

Abstract

Background and Objectives: PNU-74654, a Wnt/β-catenin inhibitor, has reported antitumor activities; however, the therapeutic potential of PNU-74654 in hepatocellular carcinoma (HCC) has not been investigated in detail. The aim of this study was to clarify the cytotoxic effects of PNU-74654 against HCC and to uncover its molecular mechanism. Materials and Methods: HepG2 and Huh7 liver cancer cell lines were selected to determine the antitumor properties of PNU-74654. Survival of the liver cancer cells in response to PNU-74654 was assessed by cell viability assays, and the apoptosis effect of PNU-74654 was analyzed by flow cytometry and visualized by Hoechst staining. An oncology array was used to explore the underlying molecular routes of PNU-74654 action in the cells. The migration properties were examined with a wound healing assay, and western blotting was conducted to evaluate protein expression. Results: Treatment with PNU-74654 decreased cell viability and inhibited cell migration. The cell cycle analysis and Hoechst staining revealed an increase in the population of cells at the sub-G1 stage and apoptotic morphological changes in the nucleus. The oncology array identified 84 oncology-related proteins and a suppressed expression of Bcl-xL and survivin. Western blotting showed that PNU-74654 could interfere with cell cycle-related proteins through the NF-κB pathway. Conclusions: PNU-74654 shows antiproliferative and antimigration effects against HepG2 and Huh7 cells, and its antitumor activity may be attributable to its interference in cell cycle regulation and the NF-κB pathway.

Published

2022

20. Hyperactivation of cyclin A-CDK induces centrosome overduplication and chromosome tetraploidization in mouse cells.

Author

Niwa, Tetsuo, Akaike, Yasunori, Watanabe, Kaichi, and Chibazakura, Taku

Subjects

*CYCLINS, *CHROMOSOMES, *CELL cycle, *TETRAPLOIDY, *MICE, *CELL division

Abstract

Mammalian cyclin A-CDK (cyclin-dependent kinase) activity during mitotic exit is regulated by two redundant pathways, cyclin degradation and CDK inhibitors (CKIs). Ectopic expression of a destruction box-truncated (thereby stabilized) mutant of cyclin A in the mouse embryonic fibroblasts nullizygous for three CKIs (p21, p27, and p107) results in constitutive activation ("hyperactivation") of cyclin A-CDK and induces rapid tetraploidization, suggesting loss of the two redundant pathways causes genomic instability. To elucidate the mechanism underlying teraploidization by hyperactive cyclin A-CDK, we first examined if the induction of tetraploidization depends on specific cell cycle stage(s). Arresting the cell cycle at either S phase or M phase blocked the induction of tetraploidization, which was restored by subsequent release from the arrest. These results suggest that both S- and M-phase progressions are necessary for the tetraploidization by hyperactive cyclin A-CDK and that the tetraploidization is not caused by chromosome endoreduplication but by mitotic failure. We also observed that the induction of tetraploidization is associated with excessive duplication of centrosomes , which was suppressed by S-phase but not M-phase block, suggesting that hyperactive cyclin A-CDK promotes centrosome overduplication during S phase. Time-lapse microscopy revealed that hyperactive cyclin A-CDK can lead cells to bypass cell division and enter pseudo-G1 state. These observations implicate that hyperactive cyclin A-CDK causes centrosome overduplication, which leads to mitotic slippage and subsequent tetraploidization. • Many cancers show overexpression of cyclin A and low expression of CDK inhibitors. • Loss of both cyclin degradation and CDK inhibitors hyperactivates cyclin A-CDK. • Hyperactive cyclin A-CDK induces overduplication of centrosomes in S phase. • Centrosome overduplication leads cells to bypass cell division (mitotic slippage), resulting in tetraploidy • Hyperactivation of cyclin A-CDK could contribute to polyploidy in tumorigenesis. [ABSTRACT FROM AUTHOR]

Published

2021

21. Falcarindiol and dichloromethane fraction are bioactive components in Oplopanax elatus: Colorectal cancer chemoprevention via induction of apoptosis and G2/M cell cycle arrest mediated by cyclin A upregulation.

Author

Chong-Zhi Wang, Yun Luo, Wei-Hua Huang, Jinxiang Zeng, Chun-Feng Zhang, Lager, Mallory, Wei Du, Ming Xu, and Chun-Su Yuan

Subjects

*TRADITIONAL medicine, *APOPTOSIS, *CELL cycle, *COLON cancer, *CYCLINS, *DICHLOROMETHANE

Abstract

Oplopanax elatus (Nakai) Nakai has a long history of use as an ethnomedicine by the people living in eastern Asia. However, its bioactive constituents and cancer chemopreventive mechanisms are largely unknown. The aim of this study was to prepare O. elatus extracts, fractions, and single compounds and to investigate the herb's antiproliferative effects on colon cancer cells and the involved mechanisms of action. Two polyyne compounds were isolated from O. elatus, falcarindiol and oplopandiol. Based on our HPLC analysis, falcarindiol and oplopandiol are major constituents in the dichloromethane (CH2Cl2) fraction. For the HCT-116 cell line, the dichloromethane fraction showed significant effects. Furthermore, the IC50 for falcarindiol and oplopandiol was 1.7 µM and 15.5 µM, respectively. In the mechanistic study, after treatment with 5 µg/ml for 48 h, dichloromethane fraction induced cancer cell apoptosis by 36.5% (p < 0.01% vs. control of 3.9%). Under the same treatment condition, dichloromethane fraction caused cell cycle arrest at the G2/M phase by 32.6% (p < 0.01% vs. control of 23.4%), supported by upregulation of key cell cycle regulator cyclin A to 21.6% (p < 0.01% vs. control of 8.6%). Similar trends were observed by using cell line HT-29. Data from this study filled the gap between phytochemical components and the cancer chemoprevention of O. elatus. The dichloromethane fraction is a bioactive fraction, and falcarindiol is identified as an active constituent. The mechanisms involved in cancer chemoprevention by O. elatus were apoptosis induction and G2/M cell cycle arrest mediated by a key cell cycle regulator cyclin A. [ABSTRACT FROM AUTHOR]

Published

2021

22. Enhanced Anti-tumor Effect of Flavopiridol in Combination With Gemcitabine in Pancreatic Cancer.

Author

Chung KH, Cho IR, Paik WH, Kim YT, Lee SH, and Ryu JK

Subjects

Humans, Mice, Animals, Gemcitabine, Flavonoids pharmacology, Cell Proliferation, Apoptosis, Cyclin A, Cell Line, Tumor, Xenograft Model Antitumor Assays, Pancreatic Neoplasms pathology, Carcinoma, Pancreatic Ductal pathology, Piperidines

Abstract

Background/aim: The efficacy of current chemotherapies for pancreatic ductal adenocarcinoma (PDAC) is still unsatisfactory. Flavopiridol inhibits multiple cyclin-dependent kinases, causing cell cycle arrest and inducing cancer cell apoptosis. This study aimed to evaluate the anti-tumor effect of flavopiridol and gemcitabine in PDAC in vitro and in vivo., Materials and Methods: PANC-1 and MIA PaCa-2 cell lines were treated with gemcitabine and flavopiridol alone, in combination, and sequentially, and cell proliferation, apoptosis, and the cell cycle were evaluated. Proteins related to cell cycle progression (cyclin A, CDK2, E2F-1, and p53) were quantified using western blotting. A xenograft mouse model was generated, and the effects of gemcitabine and flavopiridol, administered alone or in combination, were evaluated by measuring tumor volume and apoptosis degree using the TUNEL assay., Results: Sequential administration of gemcitabine and flavopiridol suppressed PDAC cell proliferation and induced apoptosis. Flavopiridol treatment led to an increase in the number of cells in the S and a decrease in those in the G 0 /G 1 phases. Gemcitabine increased and decreased the number of S- and G 2 /M-phase cells, respectively. Furthermore, flavopiridol treatment decreased cyclin A and CDK2 expression and increased E2F-1 expression. In a xenograft mouse model, the combined administration of gemcitabine and flavopiridol demonstrated the most significant reduction in tumor volume and induction of apoptosis., Conclusion: Flavopiridol potentiates the anti-tumor activity of gemcitabine by inducing cell cycle arrest and apoptosis. Its synergistic inhibition of PDAC cell proliferation, when combined with gemcitabine, positions flavopiridol as a promising candidate for cancer treatment., (Copyright © 2024 International Institute of Anticancer Research (Dr. George J. Delinasios), All rights reserved.)

Published

2024

23. Cell cycle control and its modulation in HPV infected cells

Author

Lyman, Rachel C. and Herrington, C. Simon

Subjects

616.9, Human papillomavirus, HPV6, HPV11, Cell cycle, Nutlin, MDM-2, P53, Condyloma acuminata, Primary human keratinocytes, Cyclin A, Cyclin B, Cyclin D, Cyclin E, QH604.L8, Cell cycle--Regulation, Papillomaviruses

Abstract

A key effect of human papillomavirus (HPV) infection is to disrupt the normal cell cycle in order to subvert the cellular DNA replication machinery. Morphologically, condylomata induced by high and low risk HPV types cannot be distinguished and many studies have shown that the pattern of viral gene expression is similar in condylomata caused by both high risk and low risk HPV types. Detailed morphological study of cell cycle protein expression has not previously been performed on condylomata infected with low risk HPV types. The findings presented suggest that the mechanisms employed by low risk HPV6 or HPV11 to subvert cellular functions in condylomata acuminata are similar to those employed by high risk HPVs, with the exception of cyclin D1 and p53 protein over-expression. The differences in p53 expression and cyclin D1 expression seen between high and low risk HPV infection, reflect the known differences between high and low risk types and are in agreement with the known differences between high risk and low risk E6 and E7 proteins. PHK transduction studies demonstrated HPV E6 and E7 induce changes in cell cycle protein expression and that there are differences in cell cycle abrogation between HPV6 and HPV16. Disruption of the p53-MDM2 interaction can lead to activation of the p53 pathway. HPV infected lesions almost always contain wild-type p53. The binding of HPV E6 to p53, and its subsequent targeting for degradation, prevents activation of the p53 pathway in HPV infected cells. Cells over expressing HPV genes were treated with Nutlin-3, a MDM2-small molecule antagonist. The findings presented suggest treatment with Nutlin-3 induces cell cycle arrest in cells expressing HPV16 E7 and HPV6 E6 and HPV6 E7. This suggests a potential role for Nutlin-3 in the treatment of HPV infected cells.

Published

2010

24. Assembly of Drosophila centromeric chromatin proteins during mitosis.

Author

Mellone, Barbara G, Grive, Kathryn J, Shteyn, Vladimir, Bowers, Sarion R, Oderberg, Isaac, and Karpen, Gary H

Subjects

Centromere, Chromatin, Microtubules, Animals, Humans, Drosophila, Proteasome Endopeptidase Complex, Cyclin A, Metaphase, Prophase, Mitosis, Genetics, Developmental Biology

Abstract

Semi-conservative segregation of nucleosomes to sister chromatids during DNA replication creates gaps that must be filled by new nucleosome assembly. We analyzed the cell-cycle timing of centromeric chromatin assembly in Drosophila, which contains the H3 variant CID (CENP-A in humans), as well as CENP-C and CAL1, which are required for CID localization. Pulse-chase experiments show that CID and CENP-C levels decrease by 50% at each cell division, as predicted for semi-conservative segregation and inheritance, whereas CAL1 displays higher turnover. Quench-chase-pulse experiments demonstrate that there is a significant lag between replication and replenishment of centromeric chromatin. Surprisingly, new CID is recruited to centromeres in metaphase, by a mechanism that does not require an intact mitotic spindle, but does require proteasome activity. Interestingly, new CAL1 is recruited to centromeres before CID in prophase. Furthermore, CAL1, but not CENP-C, is found in complex with pre-nucleosomal CID. Finally, CENP-C displays yet a different pattern of incorporation, during both interphase and mitosis. The unusual timing of CID recruitment and unique dynamics of CAL1 identify a distinct centromere assembly pathway in Drosophila and suggest that CAL1 is a key regulator of centromere propagation.

Published

2011

25. Cyclin A in nonfunctioning pituitary adenomas.

Author

Lamback, Elisa B., Guterres, Alexandro, Barbosa, Monique Alvares, Lima, Carlos Henrique de Azeredo, Silva, Debora Aparecida, Camacho, Aline Helen da Silva, Chimelli, Leila, Kasuki, Leandro, and Gadelha, Mônica R.

Abstract

Purpose: Assess cyclin A in nonfunctioning pituitary adenomas (NFPA) and compare its expression in non-invasive and non-proliferative tumors with invasive and proliferative tumors (12× higher risk of recurrence). Methods: Quantitative real time polymerase chain reaction to analyze cyclin A using normal pituitary gland as reference. Fold change (FC) > 1 was considered as increased. Tumor invasion was based on Knosp criteria (grades 3–4 considered invasive) and proliferation on the presence of at least two of three criteria: Ki-67 ≥ 3%; mitoses > 2/10; positive p53. Both groups were compared with Mann–Whitney test considering p value < 0.05 as statistically significant. Results: Thirty-one patients with NFPA were included. Tumors were mainly of gonadotrophic origin (74.2%), followed by corticotrophic (19.4%) and lactotrophic (3.2%) origins and null-cell adenomas (3.2%). Median tumor diameter was 3.5 cm (1.8–8.0) and Ki-67 was 3.0% (0.3–11%). Sixteen patients had tumors classified as non-invasive and non-proliferative and 15 as invasive and proliferative. Median FC was 0.31 in all tumors (0.13–1.94). Cyclin A was not related to invasion or proliferation (FC 0.41 in non-invasive and non-proliferative tumors and FC 0.30 in invasive and proliferative tumors; p = 0.968). Four (12.9%) patients had tumors that exhibited increased cyclin A [median FC of 1.04 (1.02–1.94)]—three of gonadotrophic origin and one null-cell adenoma, with two tumors classified as non-invasive and non-proliferative and two tumors classified as invasive and proliferative. Median tumor diameter in these samples was 3.4 cm (2.4–3.6) and Ki-67 was 5.1% (2–11%). Conclusions: Cyclin A was increased in a minority of NFPA and does not seem to be related to invasion or proliferation. [ABSTRACT FROM AUTHOR]

Published

2020

26. Cell Cycle-Dependent Switch of TopBP1 Functions by Cdk2 and Akt.

Author

Kang Liu, Graves, Joshua D., Yu-Ju Lee, Fang-Tsyr Lin, and Weei-Chin Lin

Subjects

*DNA replication, *CANCER cells

Abstract

Cdk2-dependent TopBP1-treslin interaction is critical for DNA replication initiation. However, it remains unclear how this association is terminated after replication initiation is finished. Here, we demonstrate that phosphorylation of TopBP1 by Akt coincides with cyclin A activation during S and G2 phases and switches the TopBP1- interacting partner from treslin to E2F1, which results in the termination of replication initiation. Premature activation of Akt in G1 phase causes an early switch and inhibits DNA replication. TopBP1 is often overexpressed in cancer and can bypass control by Cdk2 to interact with treslin, leading to enhanced DNA replication. Consistent with this notion, reducing the levels of TopBP1 in cancer cells restores sensitivity to a Cdk2 inhibitor. Together, our study links Cdk2 and Akt pathways to the control of DNA replication through the regulation of TopBP1-treslin interaction. These data also suggest an important role for TopBP1 in driving abnormal DNA replication in cancer. [ABSTRACT FROM AUTHOR]

Published

2020

27. A functional role of LEFTY during progesterone therapy for endometrial carcinoma

Author

Wu Fei, Daiki Kijima, Mami Hashimoto, Miki Hashimura, Yasuko Oguri, Sabine Kajita, Toshihide Matsumoto, Ako Yokoi, and Makoto Saegusa

Subjects

Lefty, Endometrial carcinoma, Progesterone therapy, TGF-β, Smad, Cyclin a, Medicine, Cytology, QH573-671

Abstract

Abstract Background The left-right determination factor (LEFTY) is a novel member of the TGF-β/Smad2 pathway and belongs to the premenstrual/menstrual repertoire in human endometrium, but little is known about its functional role in endometrial carcinomas (Em Cas). Herein, we focused on LEFTY expression and its association with progesterone therapy in Em Cas. Methods Regulation and function of LEFTY, as well as its associated molecules including Smad2, ovarian hormone receptors, GSK-3β, and cell cycle-related factors, were assessed using clinical samples and cell lines of Em Cas. Results In clinical samples, LEFTY expression was positively correlated with estrogen receptor-α, but not progesterone receptor (PR), status, and was inversely related to phosphorylated (p) Smad2, cyclin A2, and Ki-67 levels. During progesterone therapy, expression of LEFTY, pSmad2, and pGSK-3β showed stepwise increases, with significant correlations to morphological changes toward secretory features and decreased Ki-67 values. In Ishikawa cells, an Em Ca cell line that expresses PR, progesterone treatment reduced proliferation and induced increased expression of LEFTY and pGSK-3β, although LEFTY promoter regions were inhibited by transfection of PR. Moreover, inhibition of GSK-3β resulted in increased LEFTY expression through a decrease in its ubiquitinated form, suggesting posttranslational regulation of LEFTY protein via GSK-3β suppression in response to progesterone. In addition, overexpression or knockdown of LEFTY led to suppression or enhancement of Smad2-dependent cyclin A2 expression, respectively. Conclusion Upregulation of LEFTY may serve as a useful clinical marker for the therapeutic effects of progesterone for Em Cas, leading to inhibition of tumor cell proliferation through alteration in Smad2-dependent transcription of cyclin A2.

Published

2017

28. Influence of cyclin type and dose on mitotic entry and progression in the early Drosophila embryo

Author

McCleland, Mark L, Farrell, Jeffrey A, and O'Farrell, Patrick H

Subjects

Genetics, 1.1 Normal biological development and functioning, Underpinning research, Generic health relevance, Animals, CDC2 Protein Kinase, Cell Cycle, Cell Nucleus, Cyclin A, Cyclin B, Cyclins, Down-Regulation, Drosophila Proteins, Drosophila melanogaster, Embryo, Nonmammalian, Gene Dosage, Gene Expression Regulation, Developmental, Genes, cdc, Mitosis, Phenotype, RNA Interference, Biological Sciences, Medical and Health Sciences, Developmental Biology

Abstract

Cyclins are key cell cycle regulators, yet few analyses test their role in timing the events that they regulate. We used RNA interference and real-time visualization in embryos to define the events regulated by each of the three mitotic cyclins of Drosophila melanogaster, CycA, CycB, and CycB3. Each individual and pairwise knockdown results in distinct mitotic phenotypes. For example, mitosis without metaphase occurs upon knockdown of CycA and CycB. To separate the role of cyclin levels from the influences of cyclin type, we knocked down two cyclins and reduced the gene dose of the one remaining cyclin. This reduction did not prolong interphase but instead interrupted mitotic progression. Mitotic prophase chromosomes formed, centrosomes divided, and nuclei exited mitosis without executing later events. This prompt but curtailed mitosis shows that accumulation of cyclin function does not directly time mitotic entry in these early embryonic cycles and that cyclin function can be sufficient for some mitotic events although inadequate for others.

Published

2009

29. Genome-wide analysis reveals a cell cycle-dependent mechanism controlling centromere propagation.

Author

Erhardt, Sylvia, Mellone, Barbara G, Betts, Craig M, Zhang, Weiguo, Karpen, Gary H, and Straight, Aaron F

Subjects

Cell Line, Centromere, Animals, Drosophila melanogaster, Ubiquitin-Protein Ligase Complexes, Cyclin A, Annexin A2, S100 Proteins, Cell Cycle Proteins, DNA-Binding Proteins, Drosophila Proteins, Chromosomal Proteins, Non-Histone, Histones, Cell Cycle, Chromosome Segregation, Mitosis, Epigenesis, Genetic, RNA Interference, Mutation, Genome-Wide Association Study, Anaphase-Promoting Complex-Cyclosome, Centromere Protein A, Chromosomal Proteins, Non-Histone, Epigenesis, Genetic, Developmental Biology, Biological Sciences, Medical and Health Sciences

Abstract

Centromeres are the structural and functional foundation for kinetochore formation, spindle attachment, and chromosome segregation. In this study, we isolated factors required for centromere propagation using genome-wide RNA interference screening for defects in centromere protein A (CENP-A; centromere identifier [CID]) localization in Drosophila melanogaster. We identified the proteins CAL1 and CENP-C as essential factors for CID assembly at the centromere. CID, CAL1, and CENP-C coimmunoprecipitate and are mutually dependent for centromere localization and function. We also identified the mitotic cyclin A (CYCA) and the anaphase-promoting complex (APC) inhibitor RCA1/Emi1 as regulators of centromere propagation. We show that CYCA is centromere localized and that CYCA and RCA1/Emi1 couple centromere assembly to the cell cycle through regulation of the fizzy-related/CDH1 subunit of the APC. Our findings identify essential components of the epigenetic machinery that ensures proper specification and propagation of the centromere and suggest a mechanism for coordinating centromere inheritance with cell division.

Published

2008

30. Two Arabidopsis cyclin A3s possess G1 cyclin-like features

Author

Takahashi, Ikuo, Kojima, Shoko, Sakaguchi, Norihiro, Umeda-Hara, Chikage, Umeda, Masaaki, Takahashi, Ikuo, Kojima, Shoko, Sakaguchi, Norihiro, Umeda-Hara, Chikage, and Umeda, Masaaki

Abstract

A-type cyclins (CYCAs) are a type of mitotic cyclin and are closely related to cyclin B. Plant CYCAs are classified into three subtypes (CYCA1–CYCA3), among which CYCA3 has been suggested to show a biased expression during the G1-to-S phase. We characterised Arabidopsis CYCA3s (CYCA3;1–CYCA3;4) in terms of expression pattern and protein function. CYCA3;1 and CYCA3;2 transcripts were highly accumulated at the G1/S phase, whereas CYCA3;4 was constantly expressed during the cell cycle. Expressions of CYCA3;1 and CYCA3;2 were observed in actively dividing tissues, such as root and shoot apical meristems and lateral root primordia. Overexpression of CYCA3;1 or CYCA3;2 distorted apical dominance in Arabidopsis, indicating that they have critical functions in shoot meristems. In insect cells, CYCA3;1 formed an active kinase complex with CDKA;1, an orthologue of the yeast Cdc2/Cdc28p, and phosphorylated retinoblastoma-related protein, a key regulator in the transition from the G1 to the S phase. Our results suggest that Arabidopsis CYCA3;1 and CYCA3;2 are distinct members of the G1 cyclin family that play an important role in meristematic tissues.

Published

2023

31. Induced Mitogenic Activity in AML-12 Mouse Hepatocytes Exposed to Low-dose Ultra-Wideband Electromagnetic Radiation

Author

Dorsey, WC, Ford, BD, Roane, L, Haynie, DT, and Tchounwou, PB

Subjects

Medical Biotechnology, Biomedical and Clinical Sciences, Pediatric, Cancer, Animals, Cell Proliferation, Cell Survival, Cells, Cultured, Cyclin A, Electromagnetic Fields, Hepatocytes, Mice, Toxicology

Abstract

Ultra-wideband (UWB) technology has increased with the use of various civilian and military applications. In the present study, we hypothesized that low-dose UWB electromagnetic radiation (UWBR) could elicit a mitogenic effect in AML-12 mouse hepatocytes, in vitro. To test this hypothesis, we exposed AML-12 mouse hepatocytes, to UWBR in a specially constructed gigahertz transverse electromagnetic mode (GTEM) cell. Cells were exposed to UWBR for 2 h at a temperature of 23 degrees C, a pulse width of 10 ns, a repetition rate of 1 kHz, and field strength of 5-20 kV/m. UWB pulses were triggered by an external pulse generator for UWBR exposure but were not triggered for the sham exposure. We performed an MTT Assay to assess cell viability for UWBR-treated and sham-exposed hepatocytes. Data from viability studies indicated a time-related increase in hepatocytes at time intervals from 8-24 h post exposure. UWBR exerted a statistically significant (p < 0.05) dose-dependent response in cell viability in both serum-treated and serum free medium (SFM) -treated hepatocytes. Western blot analysis of hepatocyte lysates demonstrated that cyclin A protein was induced in hepatocytes, suggesting that increased MTT activity after UWBR exposure was due to cell proliferation. This study indicates that UWBR has a mitogenic effect on AML-12 mouse hepatocytes and implicates a possible role for UWBR in hepatocarcinoma.

Published

2005

32. The C/EBPβ-Dependent Induction of TFDP2 Facilitates Porcine Reproductive and Respiratory Syndrome Virus Proliferation

Author

Zhu, Min, Li, Xiaoyang, Sun, Ruiqi, Shi, Peidian, Cao, Aiping, Zhang, Lilin, Guo, Yanyu, and Huang, Jinhai

Published

2021

33. Strongylopus grayii tadpole blastema extract exerts cytotoxic effects on embryonal rhabdomyosarcoma cells

Author

Vincent Harrison, Saif F. Khan, Victoria Damerell, Jenna Bleloch, KN. ArulJothi, Musalula Sinkala, Katie Lennard, Nicola Mulder, Bridget Calder, Jonathan Blackburn, and Sharon Prince

Subjects

Cell Line, Tumor, Larva, Carcinogens, Animals, Antineoplastic Agents, Rhabdomyosarcoma, Embryonal, Cyclin A, Cell Biology, General Medicine, Cyclin B1, Poly(ADP-ribose) Polymerase Inhibitors, Cyclin-Dependent Kinase Inhibitor p16, Developmental Biology

Abstract

Amphibians have regenerative capacity and are resistant to developing cancer. This suggests that the developing blastema, located at the tissue regeneration site, may secrete anti-cancer factors. Here, we investigate the anti-cancer potential of tadpole tail blastema extracts (TAD) from the stream frog, Strongylopus grayii, in embryonal rhabdomyosarcoma (ERMS) cells. ERMS originates in skeletal muscle tissue and is a common pediatric soft tissue sarcoma. We show using MTT assays that TAD inhibited ERMS cell viability in a concentration-dependent manner, and phase contrast/fluorescent microscopy revealed that it induced morphological markers of senescence and apoptosis. Western blotting showed that this was associated with DNA damage (γH2AX) and activation of the p38/MAPK stress signaling pathway as well as molecular markers of senescence (p16

Published

2022

34. A Host Factor GPNMB Restricts Porcine Circovirus Type 2 (PCV2) Replication and Interacts With PCV2 ORF5 Protein

Author

Kangkang Guo, Lei Xu, Mengmeng Wu, Yufeng Hou, Yanfen Jiang, Jiangman Lv, Panpan Xu, Zhixin Fan, Ruiqi Zhang, Fushan Xing, and Yanming Zhang

Subjects

porcine circovirus type 2 (PCV2), transmembrane glycoprotein NMB (GPNMB), open reading frame 5 (ORF5), Cyclin A, virus-host interaction, Microbiology, QR1-502

Abstract

Porcine circovirus type 2 (PCV2) is the infectious agent of postweaning multisystemic wasting syndrome (PMWS). The recently discovered open reading frame 5 (ORF5) in PCV2 genome encodes a non-structural protein. Previous study revealed that ORF5 protein inhibits cell proliferation and may interact with host transmembrane glycoprotein NMB (GPNMB). However, whether the GPNMB affects PCV2 replication and the underlying molecular mechanisms are still unknown. In this study, the transcriptome maps of PCV2-infected and ORF5-transfected porcine alveolar macrophages 3D4/2 (PAM) cells were profiled. The GPNMB gene was down-regulated in PCV2-infected and ORF5-transfected PAMs. By using glutathione S-transferase (GST) pull-down, co-immunoprecipitation (co-IP) and confocal microscopy approaches, we convincingly showed that PCV2 ORF5 protein interacts with GPNMB. Furthermore, by utilizing lentivirus mediated overexpression or knockdown approach, we showed that the cellular GPNMB significantly inhibits PCV2 replication and ORF5 expression. Moreover, GPNMB overexpressing leads to an increased Cyclin A expression and a reduced S phase, whereas GPNMB knockdown causes a decreased Cyclin A expression and a prolonged S phase. In conclusion, we identified a novel host factor GPNMB that interacts with PCV2 ORF5 protein and restricts PCV2 replication.

Published

2019

35. Immunohistochemical analysis of cyclin A expression in Wilms tumor

Author

Sanja Radojević-Škodrić, Dimitrije Brašanac, Slaviša M. Đuričić, Sofija Glumac, Zlatibor Lončar, Ivan Pavlović, Ana Todorović, Gorana Nikolić, Ivana Baralić, and Snežana Pejić

Subjects

Wilms tumor, Immunohistochemistry, Survival, Cyclin A, Retrospective study, Medicine, Biology (General), QH301-705.5

Abstract

Background Cyclin A overexpression is found in a variety of human tumors and correlates with unfavorable outcome. We analyzed immunohistochemical expression of cyclin A in Wilms tumor (WT) in relation to clinicopathological characteristics, preoperative chemotherapy (PrOpChTh), and overall survival (OS). Methods This retrospective study involved 43 patients who underwent nephrectomy from January 1996 to October 2010. Tumor stage and histological subtype were determined by revised Societé International d’Oncologie Pediatrique protocol, based on histological components/alterations caused by PrOpChTh, within the prognostic group of low, intermediate and high risk, and with criteria for anaplasia. The regressive/necrotic changes in total tumor mass of primary tumor and the proportion of epithelial, blastemal, and stromal components in the remaining viable tumor tissue were also determined. Cyclin A expression was evaluated by immunohistochemistry using a polyclonal rabbit, antihuman antibody (H-432). Results Cyclin A overexpression was found in 34.3% of WTs, with higher frequency in tumors with epithelial (31.3%) and blastemal (37.1%) components than those with stromal component (17.7%). Regarding histological type, cyclin A overexpression was found most often in focal anaplasia (100%), stromal (60%), and diffuse anaplastic (66.7) WTs. The overexpression was also more frequent in stages 3 and 4 (77.8% and 66.7%, respectively) compared to tumors in stages 1 and 2 (13.3% and 12.5%, respectively; p = 0.004) in all components, as well as in blastemal component in stages 3 and 4 (77.8% and 66.7%, respectively) vs. stages 1 and 2 (13.3% and 25%, respectively, p = 0.009). Cyclin A overexpression in all components was 66.7% in WTs with metastasis and 31.3% in WTs without metastasis (p = 0.265, Fisher test). Log-rank testing revealed differences of OS regarding stage (p = 0.000), prognostic groups (p = 0.001), and cyclin A expression in blastemal component (p = 0.025). After univariate analysis, tumor stage (p = 0.001), prognostic group (p = 0.004), and cyclin A expression in blastemal component (p = 0.042) were significant prognostic factors for OS; however, after multivariate analysis, none of these factors were confirmed as independent predictors of survival. Discussion This study showed that cyclin A overexpression might be associated with the development and progression of WT with anaplasia. Also, cyclin A overexpression was more often observed in advanced stages (3 and 4) of WT, in the group of high-risk WTs, and in focal and diffuse anaplasia WTs. There was no relation of cyclin A overexpression and metastatic ability of WT. Although this study has not confirmed the prognostic value of cyclin A overexpression, its association with unfavorable prognosis should be further evaluated.

Published

2019

36. In situ cell cycle analysis in giant cell tumor of bone reveals patients with elevated risk of reduced progression-free survival.

Author

Maros, Mate E., Schnaidt, Sven, Balla, Peter, Kelemen, Zoltan, Sapi, Zoltan, Szendroi, Miklos, Laszlo, Tamas, Forsyth, Ramses, Picci, Piero, and Krenacs, Tibor

Subjects

*GIANT cell tumors, *CELL cycle, *CELL analysis, *CELL cycle proteins, *BONE cells, *CELL cycle regulation

Abstract

Giant cell tumor of bone (GCTB) is a frequently recurring locally aggressive osteolytic lesion, where pathological osteoclastogenesis and bone destruction are driven by neoplastic stromal cells. Here, we studied if cell cycle fractions within the mononuclear cell compartment of GCTB can predict its progression-free survival (PFS). 154 cases (100 primaries and 54 recurrent) from 139 patients of 40 progression events, was studied using tissue microarrays. Ploidy and in situ cell cycle progression related proteins including Ki67 and those linked with replication licensing (mcm2), G1-phase (cyclin D1, Cdk4), and S-G2-M-phase (cyclin A; Cdk2) fractions; cell cycle control (p21waf1) and repression (geminin), were tested. The Prentice-Williams-Peterson (PWP) gap-time models with the Akaike information criterion (AIC) were used for PFS analysis. Cluster analysis showed good correlation between functionally related marker positive cell fractions indicating no major cell cycle arrested cell populations in GCTB. Increasing hazard of progression was statistically associated with the elevated post-G1/S-phase cell fractions. Univariate analysis revealed significant negative association of poly-/aneuploidy (p < 0.0001), and elevated cyclin A (p < 0.001), geminin (p = 0.015), mcm2 (p = 0.016), cyclin D1 (p = 0.022) and Ki67 (B56: p = 0.0543; and Mib1: p = 0.0564 –strong trend) positive cell fractions with PFS. The highest-ranked multivariate interaction model (AIC = 269.5) also included ploidy (HR 5.68, 95%CI: 2.62–12.31, p < 0.0001), mcm2 (p = 0.609), cyclin D1 (HR 1.89, 95%CI: 0.88–4.09, p = 0.105) and cyclin A (p < 0.0001). The first and second best prognostic models without interaction (AIC = 271.6) and the sensitivity analysis (AIC = 265.7) further confirmed the prognostic relevance of combining these markers. Ploidy and elevated replication licensing (mcm2), G1-phase (cyclin D1) and post-G1 phase (cyclin A) marker positive cell fractions, indicating enhanced cell cycle progression, can assist in identifying GCTB patients with increased risk for a reduced PFS. • In GCTB, neoplastic stromal cells drive pathological osteoclastogenesis, thus their replication affects tumor progression. • Detection of cell cycle regulation proteins can identify cell cycle fractions in GCTB neoplastic stromal cells. • Unsupervised hierarchical cluster analysis revealed no major defect of cell cycle regulation in GCTB mononuclear cells. • An inverse correlation was found between PFS and elevated post-G1/S-phase mononuclear cell fractions in GCTB. • Ploidy and elevated cyclin D1, mcm2 and cyclin A positive mononuclear cell fractions indicated aggressive GCTB behavior. [ABSTRACT FROM AUTHOR]

Published

2019

37. Cyclin A is a reliable proliferation marker in endometrial cancer cell lines.

Author

Horie, Kayo, Yamamoto, Hayate, Karube, Kouhei, Takebayashi, Kai, Yoshino, Hironori, Yoshioka, Haruhiko, and Watanabe, Jun

Subjects

*ENDOMETRIAL cancer, *CYCLINS, *CELL cycle proteins, *CELL lines, *CANCER cells

Abstract

Cyclin A, a cell cycle regulatory protein, promotes cell proliferation and has been observed to be highly expressed in cancer and to promote tumor growth; however, its value as a marker for endometrial carcinoma has not yet been established. Accordingly, the aim of the present study was to clarify whether cyclin A can be used as a cell proliferation marker using the endometrial carcinoma cell lines Ishikawa and HEC-50B, derived from patients with low-grade and high-grade cancer, respectively. The expression of cyclin A was determined by flow cytometry using double staining with FITC and 7-AAD, and immunocytochemical staining. The results were compared to those of Ki-67, the widely used cell proliferation marker that is considered to be a prognostic marker in endometrial cancer. The flow cytometry results revealed that cyclin A expression was significantly higher in HEC-50B than in Ishikawa cells during the logarithmic growth phase. In addition, cyclin A expression was consistently higher than Ki-67 expression in the examined cell lines. Immunocytochemical staining confirmed cyclin A expression in HEC-50B and Ishikawa cells, demonstrating significantly higher expression during the logarithmic growth phase than during the stationary phase. By contrast, Ki-67 was expressed in almost 90% of the cells, irrespective of their growth state. These results indicate that cyclin A expression is significantly increased in cells with higher proliferative ability and is specifically expressed in cells that have passed the G1-S checkpoint. Therefore, cyclin A may be a reliable proliferation biomarker for endometrioid carcinoma. [ABSTRACT FROM AUTHOR]

Published

2019

38. Immunohistochemical analysis of cyclin A expression in Wilms tumor.

Author

Škodrić, Sanja Radojević, Brašanac, Dimitrije, Đuričić, Slaviša M., Glumac, Sofija, Lončar, Zlatibor, Pavlović, Ivan, Todorović, Ana, Nikolić, Gorana, Baralić, Ivana, and Pejić, Snežana

Subjects

CYCLINS, NEPHROBLASTOMA, EPITHELIAL tumors, TUMOR classification, UNIVARIATE analysis, LOG-rank test

Abstract

Background: Cyclin A overexpression is found in a variety of human tumors and correlates with unfavorable outcome. We analyzed immunohistochemical expression of cyclin A in Wilms tumor (WT) in relation to clinicopathological characteristics, preoperative chemotherapy (PrOpChTh), and overall survival (OS). Methods: This retrospective study involved 43 patients who underwent nephrectomy from January 1996 to October 2010. Tumor stage and histological subtype were determined by revised Societé International d'Oncologie Pediatrique protocol, based on histological components/alterations caused by PrOpChTh, within the prognostic group of low, intermediate and high risk, and with criteria for anaplasia. The regressive/necrotic changes in total tumor mass of primary tumor and the proportion of epithelial, blastemal, and stromal components in the remaining viable tumor tissue were also determined. Cyclin A expression was evaluated by immunohistochemistry using a polyclonal rabbit, antihuman antibody (H-432). Results: Cyclin A overexpression was found in 34.3% of WTs, with higher frequency in tumors with epithelial (31.3%) and blastemal (37.1%) components than those with stromal component (17.7%). Regarding histological type, cyclin A overexpression was found most often in focal anaplasia (100%), stromal (60%), and diffuse anaplastic (66.7) WTs. The overexpression was also more frequent in stages 3 and 4 (77.8% and 66.7%, respectively) compared to tumors in stages 1 and 2 (13.3% and 12.5%, respectively; p = 0.004) in all components, as well as in blastemal component in stages 3 and 4 (77.8% and 66.7%, respectively) vs. stages 1 and 2 (13.3% and 25%, respectively, p = 0.009). Cyclin A overexpression in all components was 66.7% in WTs with metastasis and 31.3% in WTs without metastasis (p = 0.265, Fisher test). Log-rank testing revealed differences of OS regarding stage (p = 0.000), prognostic groups (p = 0.001), and cyclin A expression in blastemal component (p = 0.025). After univariate analysis, tumor stage (p = 0.001), prognostic group (p = 0.004), and cyclin A expression in blastemal component (p = 0.042) were significant prognostic factors for OS; however, after multivariate analysis, none of these factors were confirmed as independent predictors of survival. Discussion: This study showed that cyclin A overexpression might be associated with the development and progression of WT with anaplasia. Also, cyclin A overexpression was more often observed in advanced stages (3 and 4) of WT, in the group of high-risk WTs, and in focal and diffuse anaplasia WTs. There was no relation of cyclin A overexpression and metastatic ability of WT. Although this study has not confirmed the prognostic value of cyclin A overexpression, its association with unfavorable prognosis should be further evaluated. [ABSTRACT FROM AUTHOR]

Published

2019

39. APC/C prevents non-canonical order of cyclin/CDK activity to maintain CDK4/6 inhibitor-induced arrest.

Abstract

According to a preprint abstract from biorxiv.org, the E3 ubiquitin ligase APC/C plays a crucial role in preventing premature S phase entry in proliferating cells, which helps maintain homeostasis and prevent cancer. The specific substrates of APC/C that restrain G1-S progression are not fully known. The study found that APC/C activity is essential for preventing S phase entry in cells arrested by pharmacological CDK4/6 inhibition. The mechanism involves cyclin-dependent kinases acting in an atypical order to inactivate RB-mediated E2F repression. The findings suggest that cancers with elevated EMI1 expression may escape CDK4/6 inhibition and experience enhanced genome instability. However, it is important to note that this preprint has not been peer-reviewed. [Extracted from the article]

Published

2023

40. Patterns of cyclin A and B1 immunostaining in papillary thyroid carcinoma

Author

Anna Cyniak-Magierska, Magdalena Stasiak, Maciej Naze, Marek Dedecjus, Jan Brzeziński, and Andrzej Lewiński

Subjects

Cyclin A, Cyclin B1, papillary thyroid carcinoma, Immunohistochemistry, Agriculture, Environmental sciences, GE1-350

Abstract

[b]Introduction and objectives. [/b]Cyclin A, encoded by CCNA (cyclin A) gene with locus in chromosome 4q27, and cyclin B1, encoded by CCNB1 (cyclin B1) gene with locus in chromosome 5q12, are proteins that play a key role in the passage through the restriction point in G2 phase of the cell cycle. The aim of the study was to analyse immunohistochemically the expression of cyclins A and B1 in different variants of papillary thyroid carcinoma (PTC). [b]Material and methods[/b]. The immunostaining patterns of the proteins in question in the tissue of 40 resected PTC (20 cases of classic variant of PTC, 9 cases of PTC follicular variant and 11 cases of other non-classic variants of PTC) were investigated. [b]Results.[/b] On analyzing cyclin A and B1 expression, positive staining in 90% cases of PTC were observed. The study revealed a significant difference in expression of cyclins A and B1 between classic and non-classic variants of PTC. The expression of both examined cyclins was weaker in the classic variant of PTC. In the group of follicular variant of PTC, the expression of cyclins was of medium intensity and in the group of other non-classic variants of PTC, the expression was clearly higher. [b]Conclusions. [/b]The results of the presented study suggest that cyclins A and B1 expression may have a characteristic pattern of immunostaining for particular variants of PTC. If the obtained results are confirmed in a larger group of patients, the diagnostic panel constructed of the antibodies against these proteins may increase the diagnostic accuracy in PTC cases.

Published

2015

41. Multiple Functions of Fubp1 in Cell Cycle Progression and Cell Survival

Author

Mingyu Kang, Hyeon Ji Kim, Tae-Jun Kim, Jin-Seok Byun, Jae-Ho Lee, Deok Heon Lee, Wanil Kim, and Do-Yeon Kim

Subjects

Fubp1, cell cycle, cyclin A, cell death, lung cancer, double-agent, Cytology, QH573-671

Abstract

The discovery of novel and critical genes implicated in malignant development is a topic of high interest in cancer research. Intriguingly, a group of genes named “double-agent” genes were reported to have both oncogenic and tumor-suppressive functions. To date, less than 100 “double-agent” genes have been documented. Fubp1 is a master transcriptional regulator of a subset of genes by interacting with a far upstream element (FUSE). Mounting evidence has collectively demonstrated both the oncogenic and tumor suppressive roles of Fubp1 and the debate regarding its roles in tumorigenesis has been around for several years. Therefore, the detailed molecular mechanisms of Fubp1 need to be determined in each context. In the present study, we showed that the Fubp1 protein level was enriched in the S phase and we identified that Fubp1 deficiency altered cell cycle progression, especially in the S phase, by downregulating the mRNA expression levels of Ccna genes encoding cyclin A. Although this Fubp1-cyclin A axis appears to exist in several types of tumors, Fubp1 showed heterogeneous expression patterns among various cancer tissues, suggesting it exhibits multiple and complicated functions in cancer development. In addition, we showed that Fubp1 deficiency confers survival advantages to cells against metabolic stress and anti-cancer drugs, suggesting that Fubp1 may play both positive and negative roles in malignant development.

Published

2020

42. Antitumor Activities for Two Pt(II) Complexes of Tropolone and 8-Hydroxyquinoline Derivative

Author

Mo Xiyu, Yubing Yang, Fu-Pei Liang, JinYuan Cai, Zilu Chen, Chu Bo, Jianwen Xiong, Dongcheng Liu, Yuning Liang, and Kaiyong Chen

Subjects

Cisplatin, Cyclin-dependent kinase 1, biology, Chemistry, Cyclin A, Cell cycle, Oxyquinoline, biology.organism_classification, Tropolone, Molecular biology, Inorganic Chemistry, HeLa, chemistry.chemical_compound, biology.protein, medicine, Cytotoxic T cell, MTT assay, Physical and Theoretical Chemistry, medicine.drug

Abstract

The reactions of cis-Pt(DMSO)2Cl2 and tropolone (HL) with 8-hydroxyquinoline (HQ) or 2-methyl-8-hydroxyquinoline (HMQ) gave [Pt(Q)(L)] (1) and [Pt(MQ)(L)] (2), which present mononuclear structures with their Pt(II) ions four-coordinated in square planar geometries. Their in vitro biological properties were evaluated by MTT assay, which showed a remarkable cytotoxic activity on the cancer cell lines. 1 shows higher cytotoxic activities on tumor cells such as T24, HeLa, A549, and NCI-H460 than complex 2 and cisplatin, with IC50 values

Published

2021

43. Genistein-induced Anticancer Effects on Acute Leukemia Cells Involve the Regulation of Wnt Signaling Pathway Through H4K20me1 Rather Than DNA Demethylation

Author

Feng Zhang, Jianzhen Shen, Haiying Fu, and Hua-Rong Zhou

Subjects

Cell cycle checkpoint, biology, Cyclin A, Cell, Wnt signaling pathway, Genistein, Cell cycle, Biochemistry, Cell biology, chemistry.chemical_compound, medicine.anatomical_structure, Cyclin E2, DNA demethylation, chemistry, Genetics, biology.protein, medicine

Abstract

Objective To investigate the effects and mechanisms of genistein on the gene expression in the Wnt pathway in acute leukemia (AL) cells. Methods The expression of Wnt pathway genes and cell cycle-related genes were analyzed in two AL cell lines. Pyrophosphate sequencing was performed to determine the methylation degree. Then, the enrichment of H4K20me1 and H3K9ac was determined using ChIP-qPCR. Flow cytometry was used to analyze the cell cycle. Results The IC50 of genistein in the two AL cell lines was lower than that for the bone marrow mesenchymal stem cell line. Genistein upregulated H4K20me1, KMT5A and Wnt suppressor genes, including Wnt5a, and downregulated the downstream target genes of Wnt, such as c-myc and β-catenin. The methylation degree and H3K9ac enrichment in the Wnt5a promoter region remained unchanged. However, the enrichment of H4K20me1 in the Wnt5a promoter and coding regions increased. In addition, genistein upregulated Phospho-cdc2, Myt1, Cyclin A, Cyclin E2, p21 and Phospho-histone H3, but downregulated Phospho-wee1. Cell cycle arrest was induced in the G2/M phase. Conclusion Genistein inhibits the activation of the Wnt pathway by promoting the expression of Wnt5a through the activation of KMT5A and enrichment of H4K20me1 in the Wnt5a gene promoter and coding regions, rather than demethylation. Genistein also blocks the cell cycle in the G2/M phase. Therefore, genistein is a potential anti-leukemia drug.

Published

2021

44. Synergistic antitumor effect of resveratrol and sorafenib on hepatocellular carcinoma through PKA/AMPK/eEF2K pathway

Author

Meili Gao, Fan Dang, and Chun Deng

Subjects

Sorafenib, CDC25A, Nutrition and Dietetics, Combination therapy, biology, Chemistry, Nutrition. Foods and food supply, Cyclin A, Public Health, Environmental and Occupational Health, AMPK, hepatocellular carcinoma, Resveratrol, resveratrol, chemistry.chemical_compound, Apoptosis, In vivo, medicine, biology.protein, Cancer research, pka/ampk/eef2k pathway, Original Article, sorafenib, TX341-641, Food Science, medicine.drug

Abstract

Although sorafenib (Sor) is the only effective drug for hepatocellular carcinoma (HCC), its therapeutic potential to date is mainly limited to the low tumor response. This study was designed to explore whether resveratrol (Res) could potentiate the anticancerous activity of Sor. We used HepG2 and Huh7 HCC cell lines and BALB/c nude mice for in vitro and in vivo studies, respectively. The cultured cell lines and tumor induction in the mice were treated with different concentrations of Res and Sor alone, and the combination of Res and Sor to observe the antitumor effects. Significant inhibitory effects were observed in the combined treatment of Res and Sor compared to Res and Sor alone treatments both in vitro and in vivo as demonstrated by significantly high number of S phase cells and apoptotic cells. Moreover, these findings were accompanied by the reduction of CDK2, CDC25A, PKA, p-AMPK, and eEF2K protein levels and the increment of cyclin A, cleavage caspase-3, caspase-8, and caspase-9 protein levels. The combinational treatment exhibited more significant anticancerous effect than the Res and Sor alone treatments in mice-bearing HepG2 xenograft. Overall, our results suggest that PKA/AMPK/eEF2K pathway is involved in the synergistic anticancerous activity of Res and Sor combination treatment in HCC cells. Thus, Res and Sor combination therapy may be promising in increasing the tumor response of Sor in the future.

Published

2021

45. Structural and binding studies of cyclin‐dependent kinase 2 with NU6140 inhibitor

Author

Murali Ramachandra, M. R Sreevidya, Vijayashankar Nataraj, Sumalatha Rani Talapati, Thomas Antony, Narasimha Rao, Megha Goyal, Suraj T Gore, Manoj Pothuganti, and Sunil S. More

Subjects

Cell Survival, Protein Conformation, Cyclin A, Crystallography, X-Ray, Biochemistry, Structure-Activity Relationship, Adenosine Triphosphate, Drug Discovery, Humans, Amino Acid Sequence, Surface plasmon resonance, Kinase activity, Protein Kinase Inhibitors, Pharmacology, Binding Sites, biology, Chemistry, Hydrogen bond, Cyclin-Dependent Kinase 2, Organic Chemistry, Cyclin-dependent kinase 2, Hydrogen Bonding, Small molecule, A549 Cells, Purines, biology.protein, Biophysics, Thermodynamics, Molecular Medicine, Target protein, biological phenomena, cell phenomena, and immunity, Selectivity, Protein Binding

Abstract

Cyclin dependent kinase 2 (CDK2) is an established target protein for therapeutic intervention in various diseases, including cancer. Reported inhibitors of CDK2 target the ATP-binding pocket to inhibit the kinase activity. Many small molecule CDK2 inhibitors have been discovered and their crystal structure with CDK2 or CDK2/Cyclin A complex have been published. NU6140 is a CDK2 inhibitor with moderate potency and selectivity. Herein we report the co-crystal structure determination of NU6140 in complex with CDK2 and confirmation of the binding using various biophysical methods. Our data shows that NU6140 bind to CDK2 with a Kd of 800 nM as determined by SPR and stabilizes the protein against thermal denaturation (ΔTm- 5 ℃). The co-crystal structure determined in our study shows that NU6140 binds in the ATP binding pocket as expected for this class of compounds and interacts with Leu83 and Glu81 with regular hydrogen bonds and with Asp145 via water mediated H-bond. Based on these data, we propose structural modifications of NU6140 to introduce new interactions with CDK2 that can improve its potency while retaining the selectivity.

Published

2021

46. Increasing miR-150 and lowering HMGA2 inhibit proliferation and cycle progression of colon cancer in SW480 cells.

Author

ZHANG, Z. C., WANG, G. P., YIN, L. M., LI, M., and WU, L. L.

Abstract

OBJECTIVE: High mobility group protein A2 (HMGA2) is a kind of oncogene that regulates cell proliferation and cycle. HMGA2 up-regulation is related to the occurrence of multiple tumors including colorectal cancer. MiR-150 is found down-regulated in colorectal cancer tissue. Bioinformatics analysis shows the complementary targeted relationship between miR-150 and the 3'-UTR of HMGA2. This study explores the role of microRNA-150 (miR- 150) in regulating HMGA2 expression, colorectal cancer cell proliferation, and cycle. PATIENTS AND METHODS: Colorectal cancer patients were enrolled to collect cancer and paracarcinoma tissues. MiR-150 and HMGA2 expressions were tested in tissue. MiR-150, HMGA2, and Cyclin A levels in colorectal cancer cell line SW480, and normal colorectal epithelial cell line FHC were compared. The targeted relationship between miR-150 and the 3'-UTR of HMGA2 was evaluated by dual luciferase reporter gene assay. SW480 cells were divided into five groups, including miR-control, miR-150 mimic, small interfere normal control (si-NC), si-HMGA2, and miR-150 mimic + si-HMGA2. Cell cycle was determined by using flow cytometry. The cell proliferation was detected by using the cell counting kit 8 (CCK-8) test. RESULTS: HMGA2 expression was significantly increased, while miR-150 levels were significantly declined in colorectal cancer tissue compared with that in para-carcinoma tissue (p<0.05). HMGA2 and Cyclin A levels were higher significantly, whereas miR-150 expression was lower significantly in SW480 cells compared to that in FHC cells (p<0.05). MiR-150 targeted band to the 3'-UTR of HMGA. MiR-150 mimic and/ or si-HMGA2 significantly reduced HMGA2 and Cyclin A expressions, blocked cell cycle in the G0/G1 phase, and attenuated cell proliferation. CONCLUSIONS: We observed that miR-150 down-regulated Cyclin A expression to block colorectal cancer cell cycle and inhibit proliferation through targeted inhibiting HMGA2. [ABSTRACT FROM AUTHOR]

Published

2018

47. Suppression of Akt-mediated HDAC3 expression and CDK2 T39 phosphorylation by a bichalcone analog contributes to S phase retardation of cancer cells.

Author

Hung, Kuang-Chen, Lin, Meng-Liang, Hsu, Shih-Wei, Lee, Chuan-Chun, Huang, Ren-Yu, Wu, Tian-Shung, and Chen, Shih-Shun

Subjects

*HISTONE deacetylase inhibitors, *PHOSPHORYLATION, *CANCER cells, *MITOCHONDRIAL membranes, *CYCLIN-dependent kinases

Abstract

Targeting cell cycle regulators has been a suggested mechanism for therapeutic cancer strategies. We report here that the bichalcone analog TSWU-CD4 induces S phase arrest of human cancer cells by inhibiting the formation of cyclin A–phospho (p)-cyclin-dependent kinase 2 (CDK2, threonine [Thr] 39) complexes, independent of mutant p53 expression. Ectopic expression of CDK2 (T39E), which mimics phosphorylation of the Thr 39 residue of CDK2, partially rescues the cells from TSWU-CD4-induced S phase arrest, whereas phosphorylation-deficient CDK2 (T39A) expression regulates cell growth with significant S phase arrest and enhances TSWU-CD4-triggered S phase arrest. Decreased histone deacetylase 3 (HDAC3) expression after TSWU-CD4 treatment was demonstrated, and TSWU-CD4 induced S phase arrest and inhibitory effects on cyclin A expression and CDK2 Thr 39 phosphorylation, while cyclin A–p-CDK2 (Thr 39) complex formation was suppressed by ectopic wild-type HDAC3 expression. The co-transfection of CDK2 (T39E) along with HDAC3 completely restored cyclin A expression, Thr 39-phosphorylated CDK2, cyclin A–p-CDK2 (Thr 39) complex formation, and the S phase population to normal levels. Protein kinase B (Akt) inactivation was required for TSWU-CD4-induced S phase cell cycle arrest, because constitutively active Akt1 blocks the induction of S phase arrest and the suppression of cyclin A and HDAC3 expression, CDK2 Thr 39 phosphorylation, and cyclin A–p-CDK2 (Thr 39) complex formation by TSWU-CD4. Taken together, our results indicate that TSWU-CD4 induces S phase arrest by inhibiting Akt-mediated HDAC3 expression and CDK2 Thr 39 phosphorylation to suppress the formation of cyclin A–p-CDK2 (Thr 39) complexes. [ABSTRACT FROM AUTHOR]

Published

2018

48. An immunohistochemical score to predict the outcome for oral squamous cell carcinoma.

Author

Monteiro, Luís Silva, Diniz‐Freitas, Márcio, Warnakulasuriya, Saman, Garcia‐Caballero, Tomás, Forteza, Jerónimo, Fraga, Máximo, Diniz-Freitas, Márcio, and Garcia-Caballero, Tomás

Subjects

*SQUAMOUS cell carcinoma, *ORAL cancer, *IMMUNOHISTOCHEMISTRY, *CYCLINS, *CANCER prognosis, *GENE expression, *CANCER risk factors, *DIAGNOSTIC immunohistochemistry

Abstract

Background: Oral cancer is a major public health problem worldwide, with a poor survival. Our aim was to evaluate several protein markers in oral squamous cell carcinomas (OSCC) and analyse their prognostic value on patient's survival.Methods: We analysed the expression of EGFR, p53, p27, p16, cyclin D1, cyclin A2, COX-2, Ki-67, Bcl-2, VEGFR-1 and VEGFR-2, by immunohistochemistry on 67 primary OSCC. Cancer-specific survival (CSS) analysis was evaluated by the Cox regression model.Results: Markers showed variable expression between 27.9% and 95.2%. In univariate analysis for CSS, we found that four of the tested markers, namely high expression of p53 (P = .001), EGFR (P = .003), cyclin A2 (P = .005) and low expression of p16 (P = .019), along with clinical stage (P < .001), tumour size (P < .001), presence of nodal metastasis (P < .001) and perineural permeation (P = .039) were related to decreased survival. On the basis of these results, we constructed an immunohistochemical score hinging on the possibility that any tumour could express none of these four markers (score 0), one or two markers (score 1) and three or more markers (score 2). In multivariable analysis, this immunohistochemical score revealed an independent prognostic value on cancer-specific survival (P = .001; HR: 3.7: 95%CI 1.7-7.9). Moreover, we confirmed that in early-stage tumours (stage I or II) this score maintained its independent prognostic value (P = .025; HR: 7.9, 95%CI 1.3-49.1) on CSS.Conclusion: The expression of the markers p53, p16, EGFR and cyclin A in OSCC, combined to give an immunohistochemical score, may identify high-risk subgroups for decreased survival and to further guide therapeutic decisions. [ABSTRACT FROM AUTHOR]

Published

2018

49. Homocysteine inhibits endothelial progenitor cells proliferation via DNMT1-mediated hypomethylation of Cyclin A.

Author

Zhang, Hui-Ping, Wang, Yan-Hua, Ma, Sheng-Chao, Zhang, Hui, Yang, An-Ning, Yang, Xiao-Ling, Zhang, Ming-Hao, Sun, Jian-Min, Hao, Yin-Ju, and Jiang, Yi-Deng

Subjects

*PROGENITOR cells, *ENDOTHELIAL cells, *HOMOCYSTEINE, *CELL proliferation, *CYCLINS, *DNA methylation, *THERAPEUTICS

Abstract

Endothelial progenitor cells (EPCs) contribute to neovasculogenesis and reendothelialization of damaged blood vessels to maintain the endothelium. Dysfunction of EPCs is implicated in the pathogenesis of vascular injury induced by homocysteine (Hcy). We aimed to investigate the role of Cyclin A in Hcy-induced EPCs dysfunction and explore its molecular mechanism. In this study, by treatment of EPCs with Hcy, we found that the expression of Cyclin A mRNA and protein were significantly downregulated in a dose-dependent manner. Knockdown of Cyclin A prominently reduced proliferation of EPCs, while over-expression of Cyclin A significantly promoted the cell proliferation, suggesting that Hcy inhibits EPCs proliferation through downregulation of Cyclin A expression. In addition, epigenetic study also demonstrated that Hcy induces DNA hypomethylation of the Cyclin A promoter in EPCs through downregulated expression of DNMT1. Moreover, we found that Hcy treatment of EPCs leads to increased SAM, SAH and MeCP2, while the ratio of SAM/SAH and MBD expression decrease. In summary, our results indicate that Hcy inhibits Cyclin A expression through hypomethylation of Cyclin A and thereby suppress EPCs proliferation. These findings demonstrate a novel mechanism of DNA methylation mediated by DNMT1 in prevention of Hcy associated cardiovascular disease. [ABSTRACT FROM AUTHOR]

Published

2018

50. Defective interaction between p27 and cyclin A-CDK complex in certain human cancer cell lines revealed by split YFP assay in living cells.

Author

Chibazakura, Taku and Asano, Yuichi

Subjects

*CYCLINS, *DOWNREGULATION, *MOLECULAR interactions

Abstract

Cyclin–cyclin dependent kinase (CDK) complex is negatively regulated by interaction with CDK inhibitors (CKIs). p27 protein is a major CKI in mammals and its down-regulation correlates with malignant transformation. However, some cancer cells express p27 at normal level, suggesting not only quantitative but qualitative control of p27, although little is known about such control. We analyzed the interaction between p27 and cyclin A (CycA)-CDK complex in living human cell lines, using a split yellow fluorescent protein (YFP) system in which the YFP fluorescence solely depends on p27-CycA binding. Introduction of this system into various cancer cell lines revealed that certain cell lines show no detectable YFP fluorescence. Furthermore, these cell lines exhibited reduced p27-CycA interaction as evaluated by immunoprecipitation, while they showed normal co-localization of both proteins. These results suggest that some cancer cells are defective for efficient interaction between p27 and CycA–CDK complex due to qualitative alteration(s). Certain cancer cells are defective for p27-cyclin A (CycA) interaction, evaluated by split YFP assay (detected as green fluorescence). DsRed, a transfection marker. [ABSTRACT FROM AUTHOR]

Published

2017