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714 results on '"Prostate cancer cell"'

1. lncRNA SNAI3-AS1调节miR-367-3p/SOX4轴对前列腺癌 细胞恶性生物学行为的影响.

Author

王小虎 and 李亚灵

Subjects
GENE expression, SMALL interfering RNA, LINCRNA, SOX transcription factors, MOLECULAR cloning
Abstract

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Published
2024
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2. Effects of Oxya chinensis sinuosa hot water extract on benign prostatic hyperplasia in LNCaP cells.

Author

Hyun Jung Lim, Sohyun Park, Ra-Yeong Choi, In-Woo Kim, Minchul Seo, HaeYong Kweon, and Joon Ha Lee

Subjects
*BENIGN prostatic hyperplasia, *ANDROGEN receptors, *PROSTATE-specific antigen, *OLDER men, *FOOD habits, *GENE expression, *HOT water
Abstract

In recent years, the number of patients with benign prostatic hyperplasia (BPH), a condition that commonly occurs in elderly men, has increased due to aging and the adoption of western dietary habits. Treatment with chemical drugs, such as finasteride or dutasteride, can cause side effects such as erectile dysfunction or sexual problems. This necessitates the development of remedies using natural substances derived from food ingredients. In this study, we investigated the inhibitory effects of Oxya chinensis sinuosa hot water extract (OCH) on BPH production in LNCaP cells, a hormone-dependent prostate cancer cell line. We found that the mRNA expression of androgen receptor (AR), prostate specific antigen (PSA), and, 5α-reductases 1, and 2 decreased following treatment with OCH. Furthermore, OCH treatment resulted in reduced protein expression of BPH regulators, such as AR. Collectively, these results suggest that OCH exerts a beneficial effect on BPH by inhibiting the AR signaling pathway, indicating the potential of OCH as a therapeutic agent for the prevention and treatment of BPH. [ABSTRACT FROM AUTHOR]

Published
2023
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3. Effects of Copper Nanoparticles in Prostate Normal and Cancer Cell Lines

Author

Mohammad Shokrzadeh, Bahare Sayad, and Shaghayegh Aghajanshakeri

Subjects
copper nanoparticle, normal cell, prostate cancer cell, oxidative stress, Medicine, Medicine (General), R5-920
Abstract

Background and purpose: In clinical treatment of cancer, improving the efficacy of drugs and targeted drug delivery have always been a fundamental problem requiring more focused solutions. The purpose of this study was to investigate the protective effects of copper nanoparticles in prostate normal and cancer cell lines. Materials and methods: In this experimental study, different concentrations of copper nanoparticles (0, 25, 50, 100, 150, 200, 250, 300, and 600 μg) were prepared. Cell growth and oxidative stress in reactive oxygen species (ROS) and reduced glutathione (GSH) were studied in prostate normal and cancer cell lines using MTT assay. Results: Copper nanoparticles created toxicity in prostate normal cells due to release of ROS and reduction of glutathione reserves. Also, this mechanism inhibited the growth of cancer cells. Conclusion: According to this study, copper nanoparticles induced toxicity in normal cells through oxidative stress pathway and inducing ROS and decreased the growth of normal cells. Also, copper nanoparticles inhibited the growth of cancer cells by the oxidative stress pathway. So, copper nanoparticles cannot be an effective drug in treatment of prostate cancer as they cause high toxicity in normal cells.

Published
2023

4. Targeting mTOR Complex 2 in Castration-Resistant Prostate Cancer with Acquired Docetaxel Resistance

Author

Huang Y, Zhai Y, Wu M, Chang C, Luo J, Hong D, Zhao Q, Dai Y, and Liu J

Subjects
prostate cancer cell, docetaxel, drug resistance, mtorc2, reverse, Therapeutics. Pharmacology, RM1-950
Abstract

Yujie Huang,1 You Zhai,1 Meijia Wu,1 Chengdong Chang,2 Jindan Luo,3 Dongsheng Hong,1 Qingwei Zhao,1 Yao Dai,4 Jian Liu1 1Research Center for Clinical Pharmacy, Zhejiang Provincial Key Laboratory for Drug Evaluation and Clinical Research, The First Affiliated Hospital, Zhejiang University School of Medicine, Hangzhou, People’s Republic of China; 2Department of Pathology, The First Affiliated Hospital, Zhejiang University School of Medicine, Hangzhou, People’s Republic of China; 3Department of Urology, The First Affiliated Hospital, Zhejiang University School of Medicine, Hangzhou, People’s Republic of China; 4Department of Radiation Oncology, College of Medicine, University of Florida, Gainesville, FL, USACorrespondence: Jian Liu, Research Center for Clinical Pharmacy, Zhejiang Provincial Key Laboratory for Drug Evaluation and Clinical Research, The First Affiliated Hospital, Zhejiang University School of Medicine, Hangzhou, People’s Republic of China, Tel +86-571-87236560, Fax +86-571-87236531, Email lindaliu87@zju.edu.cn Yao Dai, Department of Radiation Oncology, College of Medicine, University of Florida, Gainesville, FL, USA, Tel +1-352-273-8237, Fax +1-352-273-8252, Email yaodai1111@hotmail.comPurpose: Mammalian Target of rapamycin (mTOR) plays a central role in regulating cell growth, proliferation, and cell cycle. The key component of mTORC2 is highly expressed in docetaxel-resistant prostate cells. However, the underlying molecular effects on prostate cells remain unclear.Methods: A docetaxel-resistant human prostate cell line (PC-3/DTX) was constructed to investigate the role of mTORC2 in docetaxel resistance. The lentivirus was transfected into cells to knock down the expression of Rictor, and cell viability was measured by Cell Counting Kit 8 (CCK-8). Flow cytometry was used to analyze the cell cycle, and the changes in related signal cascades were assessed by immunohistochemistry (IHC) staining and Western blot.Results: Docetaxel showed the lowest IC50 (50% inhibitory concentration) in PC-3/DTX cells with sh-RNA. Decreased Rictor expression resulted in a larger proportion of arrested cells in the G0/G1 phase in PC-3/DTX cells. The IC50 values of the AZD8055 group were lower than in the Rapamycin group when treated with docetaxel again. Furthermore, a larger proportion of PC-3/DTX cells were arrested in the G0/G1 phase in the AZD8055 group compared to the Rapamycin group. The IHC results of the prostate cancer tissues from a CRPC patient revealed the over expression of Rictor only, while Raptor expression was unaffected.Conclusion: We investigated the role of mTORC2 signaling on the acquired docetaxel -resistant PC-3 cells to identify potential methods for clinical treatment. MTORC2 expression is essential for docetaxel drug resistance of PC-3 cells. The mTORC1/2 inhibitor AZD8055 caused more significant disruption of mTORC2 kinase activity than the mTORC1 inhibitor Rapamycin, which lead to decreased docetaxel-mediated resistance. Therefore, reversing docetaxel resistance, may become a therapeutic option in the treatment of mCRPC patients.Keywords: prostate cancer cell, docetaxel, drug resistance, mTORC2, reverse

Published
2022

5. ارزیابی اثرات نانو ذرات مس بر رده سلولی سلول هاي نرمال و سلولهاي سرطانی پروستات.

Author

محمد شکرزاده, بهاره صیاد, and شقایق آقاجان شاک

Abstract

Background and purpose: In clinical treatment of cancer, improving the efficacy of drugs and targeted drug delivery have always been a fundamental problem requiring more focused solutions. The purpose of this study was to investigate the protective effects of copper nanoparticles in prostate normal and cancer cell lines. Materials and methods: In this experimental study, different concentrations of copper nanoparticles (0, 25, 50, 100, 150, 200, 250, 300, and 600 μg) were prepared. Cell growth and oxidative stress in reactive oxygen species (ROS) and reduced glutathione (GSH) were studied in prostate normal and cancer cell lines using MTT assay. Results: Copper nanoparticles created toxicity in prostate normal cells due to release of ROS and reduction of glutathione reserves. Also, this mechanism inhibited the growth of cancer cells. Conclusion: According to this study, copper nanoparticles induced toxicity in normal cells through oxidative stress pathway and inducing ROS and decreased the growth of normal cells. Also, copper nanoparticles inhibited the growth of cancer cells by the oxidative stress pathway. So, copper nanoparticles cannot be an effective drug in treatment of prostate cancer as they cause high toxicity in normal cells. [ABSTRACT FROM AUTHOR]

Published
2023

6. Paclitaxel Induces the Apoptosis of Prostate Cancer Cells via ROS-Mediated HIF-1α Expression.

Author

Zhang, Yan, Tang, Yedong, Tang, Xiaoqiong, Wang, Yuhua, Zhang, Zhenghong, and Yang, Hongqin

Subjects
*PACLITAXEL, *GENE expression, *CANCER cells, *PROSTATE cancer, *APOPTOSIS, *MALE reproductive organ diseases, *MITOCHONDRIAL membranes
Abstract

Prostate cancer (PCa) is the most common malignancy to endanger the health of male genitourinary system. Clinically, paclitaxel (PTX) (C47H51NO14), a diterpene alkaloid, is commonly used as an effective natural antineoplastic drug during the treatment of PCa. However, the mechanism and pathway involved in the function of PTX are poorly understood. In the current study, we employed the CCK-8 assay, revealing that PTX can inhibit the survival and induce the apoptosis of PC3M cells (a human prostate cancer cell line) in a concentration-dependent manner. Reactive oxygen species (ROS), as a metabolic intermediate produced by the mitochondrial respiratory chain, are highly accumulated under the PTX treatment, which results in a sharp decrease of the mitochondrial membrane potential in PC3M cells. Additionally, the migration and invasion of PC3M cells are weakened due to PTX treatment. Further analysis reveals that N-acetylcysteine (NAC), which functions as an antioxidant, not only rescues the decreased mitochondrial membrane potential induced by the abnormal ROS level, but also restores the migration and invasion of PC3M cells. In a subsequent exploration of the detailed mechanism, we found that hypoxia-inducible factor (HIF)-1α works as a downstream gene that can respond to the increased ROS in PC3M cells. Under PTX treatment, the expression levels of HIF-1α mRNA and protein are significantly increased, which stimulate the activation of JNK/caspase-3 signaling and promote the apoptosis of PC3M cells. In summary, we demonstrate that PTX regulates the expression of HIF-1α through increased ROS accumulation, thereby promoting the activation of JNK/caspase-3 pathway to induce the apoptosis of PCa cells. This study provides new insights into the mechanism of antineoplastic action of taxanes and unveils the clinical benefit of the ROS-HIF-1α signaling pathway, which may offer a potential therapeutic target to prevent the development of PCa. [ABSTRACT FROM AUTHOR]

Published
2022
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7. Exosomes are the mediators between the tumor microenvironment and prostate cancer (Review).

Author

Wu Y, Wang X, Zeng Y, and Liu X

Abstract

Prostate cancer poses a serious threat to the well-being of men worldwide, with the leading cause of mortality being primarily through metastasis. Prostate cancer metastasis is dependent on cell communication, which is an essential component of this process; yet its exact mechanism remains obscure. Nonetheless, cell-to-cell communication plays a critical part in prostate cancer metastasis. Exosomes play an indispensable role in the development of metastatic growth by promoting intercellular communication. They are pivotal regulatory agents for both prostate cancer cells as well as their microenvironment. The present study investigated the makeup and function of exosomes in the tumor microenvironment, highlighting their significance to prostate cancer metastasis., Competing Interests: The authors declare that they have no competing interests., (Copyright: © 2024 Wu et al.)

Published
2024
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8. Extracellular Regucalcin Suppresses the Growth, Migration, Invasion, and Adhesion of Metastatic Human Prostate Cancer Cells.

Author

Yamaguchi, Masayoshi, Murata, Tomiyasu, and Ramos, Joe W.

Subjects
*HOMEOSTASIS, *CANCER invasiveness, *CELL physiology, *SIGNAL peptides, *CELLULAR signal transduction, *CELL cycle, *CELL migration inhibition, *CELL adhesion molecules, *CALCIUM-binding proteins, *EXTRACELLULAR space, *CELL lines, *MITOGEN-activated protein kinases, *PROSTATE tumors
Abstract

Introduction: Regucalcin plays a multifunctional role in the regulation of cellular function including metabolism, signaling process, and transcriptional activity in maintaining cell homeostasis. Downregulated expression or activity of regucalcin contributes to the development of malignancies in various types of human cancer. Survival of cancer patients, including metastatic prostate cancer, is prolonged with high expression of regucalcin in the tumor tissues. Methods: We elucidate whether extracellular regucalcin conquers the growth, migration, invasion, and adhesion of metastatic human prostate cancer PC-3 and DU-145 cells. Results: Extracellular regucalcin (0.1, 1, and 10 nM) of physiologic levels (1 nM at human serum) inhibited colony formation and growth of PC-3 and DU-145 cells, while it did not have an effect on cell death. Repressive effects of extracellular regucalcin on the proliferation were not exhibited by the presence of inhibitors of the cell cycle, intracellular signaling process, and transcriptional activity, suggesting that the signals of extracellular regucalcin are transmitted to block cell growth. Furthermore, extracellular regucalcin (0.1, 1, or 10 nM) inhibited migration, invasion, and adhesion of PC-3 and DU-145 cells. Mechanistically, extracellular regucalcin (10 nM) decreased the levels of various signaling proteins including Ras, posphatidylinositol-3 kinase, mitogen-activated protein kinase, mechanistic target of rapamycin, RSK-2, caveolin-1, and integrin β1 in PC-3 cells. Discussion and Conclusion: Thus, extracellular regucalcin may play a suppressive role in growth, migration, invasion, and adhesion, which are involved in the metastatic activity of human prostate cancer cells, via affecting diverse signaling processes. This study may provide a new strategy in preventing metastatic prostate cancer with exogenous regucalcin. [ABSTRACT FROM AUTHOR]

Published
2022
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9. Characterization of ginsenoside compound K loaded ionically cross-linked carboxymethyl chitosan–calcium nanoparticles and its cytotoxic potential against prostate cancer cells

Author

Jianmei Zhang, Jinyi Zhou, Qiaoyun Yuan, Changyi Zhan, Zhi Shang, Qian Gu, Ji Zhang, Guangbo Fu, and Weicheng Hu

Subjects
Carboxymethyl chitosan, Cytotoxicity, Ginsenoside compound K, Ionic cross-linking, Prostate cancer cell, Botany, QK1-989
Abstract

Backgroud: Ginsenoside compound K (GK) is a major metabolite of protopanaxadiol-type ginsenosides and has remarkable anticancer activities in vitro and in vivo. This work used an ionic cross-linking method to entrap GK within O-carboxymethyl chitosan (OCMC) nanoparticles (Nps) to form GK-loaded OCMC Nps (GK–OCMC Nps), which enhance the aqueous solubility and stability of GK. Methods: The GK–OCMC Nps were characterized using several physicochemical techniques, including x-ray diffraction, transmission electron microscopy, zeta potential analysis, and particle size analysis via dynamic light scattering. GK was released from GK–OCMC Nps and was conducted using the dialysis bag diffusion method. The effects of GK and GK–OCMC Nps on PC3 cell viability were measured by using the 3-(4,5-dimethyl-2-thiazolyl)-2,5-diphenyl-2-H-tetrazolium bromide assay. Fluorescent technology based on Cy5.5-labeled probes was used to explore the cellular uptake of GK–OCMC Nps. Results: The GK–OCMC NPs had a suitable particle size and zeta potential; they were spherical with good dispersion. In vitro drug release from GK–OCMC NPs was pH dependent. Moreover, the in vitro cytotoxicity study and cellular uptake assays indicated that the GK–OCMC Nps significantly enhanced the cytotoxicity and cellular uptake of GK toward the PC3 cells. GK–OCMC Nps also significantly promoted the activities of both caspase-3 and caspase-9. Conclusion: GK–OCMC Nps are potential nanocarriers for delivering hydrophobic drugs, thereby enhancing water solubility and permeability and improving the antiproliferative effects of GK.

Published
2021
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10. Regulating DSC2 Expression Affects the Proliferation and Apoptosis of Prostate Cancer Cells

Author

Jiang F and Wu P

Subjects
dsc2, proliferation, apoptosis, prostate cancer cell, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Feng Jiang,1 Pengfei Wu2 1Department of Urology, Shanghai Pudong New Area People’s Hospital, Shanghai 201200, People’s Republic of China; 2Department of Urology, Tenth People’s Hospital of Tongji University, Shanghai 200072, People’s Republic of ChinaCorrespondence: Pengfei WuDepartment of Urology, Tenth People’s Hospital of Tongji University, 301 Yanchang Road, Jing’an District, Shanghai 200072, People’s Republic of ChinaEmail wupengfei900@126.comBackground: Prostate cancer threatens the life and health of men in China. Desmocollin-2 (DSC2) is a member of DSC family, abnormal expression of which can affect the invasion and metastasis of tumor cells. The aim of this study was to investigate the role of DSC2 in prostate cancer.Materials and Methods: Regulating DSC2 expression in prostate cancer cells was conducted with transfection. The expression of DSC2, apoptosis-related proteins, cell cycle-related proteins and E-cadherin (E-cad)/β-catenin pathway was detected by Western blot analysis. The proliferation, clone formation ability, migration, invasion and apoptosis of transfected cells were in turn detected by cell counting kit-8 (CCK-8) assay, clone formation assay, wound healing assay, transwell assay and flow cytometry analysis.Results: DSC2 expression was increased in prostate cancer cells compared with RWPE-1 cells. Inhibition of DSC2 promoted the proliferation, clone formation ability, migration and invasion while suppressed apoptosis of LNCaP cells and PC-3 cells. Inhibition of DSC2 affected the expression of apoptosis-related proteins and cell cycle-related proteins according to the changes of apoptosis and proliferation. Furthermore, inhibition of DSC2 up-regulated the expression of p-β-catenin and EGFR while down-regulated the expression of E-cad. DSC2 overexpression exerted the opposite effect of inhibition of DSC2 on LNCaP cells and PC-3 cells.Conclusion: DSC2 expression was increased in prostate cancer cells. In addition, inhibition of DSC2 promoted the proliferation, clone formation ability, migration and invasion while suppressed apoptosis of LNCaP cells and PC-3 cells, which provided the fundamental basis for treatment of prostate cancer.Keywords: DSC2, proliferation, apoptosis, prostate cancer cell

Published
2020

11. Investigating the Effect of Yttrium Oxide Nanoparticle in U87MG Glioma and PC3 Prostate Cancer: Molecular Approaches.

Author

AYDIN KARATAŞ, Elanur, BAYINDIRLI, Kübra Nur, ÖZDEMİR TOZLU, Özlem, SÖNMEZ, Erdal, KERLİ, Süleyman, TÜRKEZ, Hasan, and YAZICI, Ayşenur

Subjects
*CANCER cell culture, *GENE expression profiling, *INORGANIC synthesis, *MATERIALS science, *YTTRIUM oxides
Abstract

Yttrium oxide (Y2O3) nanoparticles have very wide application areas such as biological imaging, photodynamic therapy, the material sciences, in the chemical synthesis of inorganic compounds, additives in plastic, paint, steel, optics, and iron. Potential risks to human health and the environment should be evaluated in a multi-dimensional perspective when developing nanoparticles for those applications. Therefore, in this research, we aimed to investigate changes in gene expression profiles (genes involved in different biological pathways) influenced by commonly Yttrium oxide (Y2O3) nanoparticle in human U87MG glioma and PC3 prostate cancer cell lines in vitro. The study was planned to be carried out in two stages. In the first stage, cell viability and cytotoxicity parameters were studied using 3-(4,5-dimethyl-thiazol-2-yl) 2,5-diphenyltetrazolium bromide and lactate dehydrogenase release assays, respectively, with human U87MG glioma and human PC3 prostate cancer cell cultures. In the second stage, to obtain a clear insight into the molecular events after exposing, we examined the effects of selected Y2O3 nanoparticle on the expression of genes in U87MG and PC3 cell cultures using RT² Profiler PCR Arrays. Y2O3 nanoparticles have IC20 of 0,18 mg/L and 2,903 mg/L in PC3 and U87MG cell lines, respectively. Y2O3 nanoparticle induced up-regulation of 24 and down-regulation of 22 genes in PC3 cells and up-regulation of 53 and down-regulation of 27 genes in U87MG cells. This study of gene expression profiles affected by nanotoxicity provides critical information for the clinical and environmental applications of Y2O3 nanoparticles. [ABSTRACT FROM AUTHOR]

Published
2021
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12. Paclitaxel Induces the Apoptosis of Prostate Cancer Cells via ROS-Mediated HIF-1α Expression

Author

Yan Zhang, Yedong Tang, Xiaoqiong Tang, Yuhua Wang, Zhenghong Zhang, and Hongqin Yang

Subjects
paclitaxel, apoptosis, ROS, HIF-1α, JNK, prostate cancer cell, Organic chemistry, QD241-441
Abstract

Prostate cancer (PCa) is the most common malignancy to endanger the health of male genitourinary system. Clinically, paclitaxel (PTX) (C47H51NO14), a diterpene alkaloid, is commonly used as an effective natural antineoplastic drug during the treatment of PCa. However, the mechanism and pathway involved in the function of PTX are poorly understood. In the current study, we employed the CCK-8 assay, revealing that PTX can inhibit the survival and induce the apoptosis of PC3M cells (a human prostate cancer cell line) in a concentration-dependent manner. Reactive oxygen species (ROS), as a metabolic intermediate produced by the mitochondrial respiratory chain, are highly accumulated under the PTX treatment, which results in a sharp decrease of the mitochondrial membrane potential in PC3M cells. Additionally, the migration and invasion of PC3M cells are weakened due to PTX treatment. Further analysis reveals that N-acetylcysteine (NAC), which functions as an antioxidant, not only rescues the decreased mitochondrial membrane potential induced by the abnormal ROS level, but also restores the migration and invasion of PC3M cells. In a subsequent exploration of the detailed mechanism, we found that hypoxia-inducible factor (HIF)-1α works as a downstream gene that can respond to the increased ROS in PC3M cells. Under PTX treatment, the expression levels of HIF-1α mRNA and protein are significantly increased, which stimulate the activation of JNK/caspase-3 signaling and promote the apoptosis of PC3M cells. In summary, we demonstrate that PTX regulates the expression of HIF-1α through increased ROS accumulation, thereby promoting the activation of JNK/caspase-3 pathway to induce the apoptosis of PCa cells. This study provides new insights into the mechanism of antineoplastic action of taxanes and unveils the clinical benefit of the ROS-HIF-1α signaling pathway, which may offer a potential therapeutic target to prevent the development of PCa.

Published
2022
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13. MicroRNA‐488 inhibits proliferation and glycolysis in human prostate cancer cells by regulating PFKFB3

Author

Jun Wang, Xiaojuan Li, Zhaoming Xiao, Yu Wang, Yuefu Han, Jun Li, Weian Zhu, Qu Leng, Yuehui Wen, and Xinqiao Wen

Subjects
glycolysis, miR‐488, PFKFB3, proliferation, prostate cancer cell, Biology (General), QH301-705.5
Abstract

Prostate cancer (PCa) remains the second leading cause of cancer‐related death among men in the United States, and its molecular mechanism remains to be elucidated. Recent studies have suggested that microRNAs may play an important role in cancer development and progression. By analyzing the Gene Expression Omnibus dataset, we found lower expression for miR‐488 in PCa than in normal tissues. Moreover, CCK‐8, EdU, glucose uptake, and lactate secrete assays revealed that overexpression of miR‐488 in PCa cell lines PC3 and DU145 resulted in inhibition of proliferation and glycolysis. In contrast, downregulation of miR‐488 expression promoted proliferation and glycolysis in PCa cells. Using a bioinformatic approach and dual‐luciferase reporter assays, we identified 6‐phosphofructo‐2‐kinase/fructose‐2,6‐bisphosphatase, isoform3 (PFKFB3), as a direct target of miR‐488. Inhibition of PFKFB3 also suppressed PCa cell glycolysis and proliferation. Our study suggests that miR‐488 inhibits PCa cell proliferation and glycolysis by targeting PFKFB3, and thus, miR‐488 may be a novel therapeutic candidate for PCa.

Published
2019
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17. miR-100-5p Downregulates mTOR to Suppress the Proliferation, Migration, and Invasion of Prostate Cancer Cells

Author

Yun Ye, Su-Liang Li, and Jian-Jun Wang

Subjects
prostate cancer cell, miR-100-5p, mTOR, downregulates, LNCaP, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

BackgroundPrevious studies have shown that miR-100-5p expression is abnormal in prostate cancer. However, the role and regulatory mechanism of miR-100-5p requires further investigation. Thus, the aim of this study was to observe the effects of miR-100-5p on the proliferation, migration and invasion of prostate cancer (PCa) cells and to explore the potential related regulatory mechanism.Materials and MethodsDifferential miRNA expression analysis was performed using next-generation sequencing (NGS) in the patients with PCa and benign prostatic hyperplasia (BPH). The expression levels of miR-100-5p were detected using real-time fluorescence quantitative PCR (qRT-PCR). PCa cells were transfected with NC-mimics or miR-100-5p mimics, inhibitor by using liposome transfection. Moreover, the CCK-8 proliferation assay, colony formation assay, cell scratch assay and Transwell assay were used to detect the effects of miR-100-5p on cell proliferation, migration, and invasion. In addition, the target gene of miR-100-5p was verified by luciferase reporter gene assay, and the influence of miR-100-5p on the expression of mTOR mRNA by qRT-PCR and the expression of mammalian target of rapamycin (mTOR) protein was detected by western blot and immunohistochemical staining.ResultsDifferential expression analysis of high-throughput sequencing data showed low expression of miR-100-5p in the patients of PCa. It was further confirmed by qRT-PCR that the expression of miR-100-5p in PCa cells was significantly lower than that in RWPE-1 cells (P

Published
2020
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18. Exploring the impact of a naturally occurring sapogenin diosgenin on underlying mechanisms of Ca2+ movement and cytotoxicity in human prostate cancer cells.

Author

Sun, Gwo‐Ching, Jan, Chung‐Ren, and Liang, Wei‐Zhe

Subjects
DIOSGENIN, HUMAN mechanics, PROSTATE cancer, CANCER cells, PHOSPHOLIPASE C, PHORBOL esters
Abstract

Literature has shown that diosgenin, a naturally occurring sapogenin, inducedcytotoxic effects in many cancer models. This study investigated the effect of diosgenin on intracellular Ca2+ concentration ([Ca2+]i) and cytotoxicity in PC3 human prostate cancer cells. Diosgenin (250‐1000 μM) caused [Ca2+]i rises which was reduced by Ca2+ removal. Treatment with thapsigargin eliminated diosgenin‐induced [Ca2+]i increases. In contrast, incubation with diosgeninabolished thapsigargin‐caused [Ca2+]i increases. Suppression of phospholipase C with U73122 eliminated diosgenin‐caused [Ca2+]i increases. Diosgenin evoked Mn2+ influx suggesting that diosgenin induced Ca2+ entry. Diosgenin‐induced Ca2+influx was suppressed by PMA, GF109203X, and nifedipine, econazole, or SKF96365. Diosgenin (250‐600 μM) concentration‐dependently decreased cell viability. However, diosgenin‐induced cytotoxicity was not reversed by chelation of cytosolic Ca2+ with BAPTA/AM. Together, diosgenin evoked [Ca2+]i increases via Ca2+ release and Ca2+ influx, and caused Ca2+‐non‐associated deathin PC3 cells. These findings reveal a newtherapeutic potential of diosgenin for human prostate cancer. [ABSTRACT FROM AUTHOR]

Published
2020
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22. Nanopore-related cellular death through cytoskeleton depolymerization by drug-induced ROS.

Author

Zhang, Yan, Xu, Renfeng, Wu, Jingjing, Zhang, Zhenghong, Wang, Yuhuang, Yang, Hongqin, and Zhang, Sheng

Subjects
*CELL membrane formation, *DRUG side effects, *CYTOSKELETON, *DEPOLYMERIZATION, *CELL morphology
Abstract

Prostate cancer (PCa) is a malignant tumor with a very high incidence which ranks second after lung cancer. Although there are many drugs available for the treatment of PCa, their effectiveness and anti-cancer mechanisms still need to be explored. Atomic force microscopy (AFM) could characterize minor morphological changes on cell surfaces, which provides an effective method to explore the interaction between drugs and cells at the nanometer level and further investigate the mechanisms for treating PCa. In our research, AFM visualized pore-like structures in the PC3M cell membrane after treatment with the eminent anticancer agent paclitaxel (PTX). The diameter, depth and number of these pores were in a concentration and time-dependent manner. Reactive oxygen species (ROS) was shown to depolymerize the actin cytoskeleton and make the membrane more sensitive to oxidative damage, thus inducing pore information. After pretreatment with a ROS scavenger, pore formation was prevented. AFM imaging technology provides a new evaluation method for drug-targeted therapy for cancer. Schematic of Nanopore-related cellular death through cytoskeleton depolymerization by drug-induced ROS. [Display omitted] • Employing AFM to detect the effects of anticancer drug-generated ROS on cancerous cell morphology. • Visualizing nanopore formation in the cancerous cell membrane related with actin cytoskeleton depolymerization. • The utilization of AFM provides novel perspectives for anti-cancer drug development. [ABSTRACT FROM AUTHOR]

Published
2024
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23. A Morpholine Derivative N-(4-Morpholinomethylene)ethanesulfonamide Induces Ferroptosis in Tumor Cells by Targeting NRF2.

Author

Sun B, Zhang L, Wu B, and Luo X

Subjects
Male, Female, Humans, Kelch-Like ECH-Associated Protein 1, Molecular Docking Simulation, NF-E2-Related Factor 2, Prospective Studies, Reactive Oxygen Species, Morpholines pharmacology, Ferroptosis, Ovarian Neoplasms drug therapy
Abstract

Small molecule drugs containing morpholine-based moieties have become crucial candidates in the tumor targeted therapy strategies, but the specific molecular mechanisms of these drugs causing tumor cell death require further investigation. The morpholine derivative N-(4-morpholinomethylene)ethanesulfonamide (MESA) was used to stimulate prostate and ovarian cancer cells and we focused on the ferroptosis effects, including the target molecule and signal pathways mediated by MESA. The results showed that MESA could induce ferroptosis to cause the proliferation inhibition and apoptosis effects of tumor cells according to the identification of ferroptosis inhibitor fer-1 and other cell death inhibitors. Further MESA could significantly increase the intracellular malondialdehyde (MDA), reactive oxygen species (ROS) and Fe 2+ levels in tumor cells and mediate the dynamic changes of ferroptosis-relative molecules GPX4, nuclear factor erythroid2-related factor 2 (NRF2), ACSL4, SLC7A11 and P62-Kelch-like ECH-associated protein 1 (KEAP1)-NRF2-antioxidant response element (ARE) signal pathways. Further, NRF2 overexpression could reduce the tumor cell death and ROS levels exposure to MESA. Most importantly, it was confirmed that MESA could bind to NRF2 protein through molecular docking and thermal stability assays and NRF2 was a target molecule of MESA for inducing ferroptosis effects in tumor cells. Collectively, our findings indicated the ferroptosis effects of the morpholine derivative MESA in prostate and ovarian cancer cells and its function mechanism including targeted molecule and signal pathways, which would be helpful for developing MESA as a prospective small molecule drug for cancer therapy based on cell ferroptosis.

Published
2024
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24. Preparation of Catechin Nanoemulsion from Oolong Tea Leaf Waste and Its Inhibition of Prostate Cancer Cells DU-145 and Tumors in Mice

Author

Yu-Hsiang Lin, Chi-Chung Wang, Ying-Hung Lin, and Bing-Huei Chen

Subjects
catechin nanoemulsion, paclitaxel, Oolong tea leaf waste, prostate cancer cell, mice tumor, Organic chemistry, QD241-441
Abstract

Anti-cancer activity of catechin nanoemulsions prepared from Oolong tea leaf waste was studied on prostate cancer cells DU-145 and DU-145-induced tumors in mice. Catechin nanoemulsions composed of lecithin, Tween-80 and water in an appropriate proportion was prepared with high stability, particle size of 11.3 nm, zeta potential of −67.2 mV and encapsulation efficiency of 83.4%. Catechin nanoemulsions were more effective than extracts in inhibiting DU-145 cell growth, with the IC50 being 13.52 and 214.6 μg/mL, respectively, after 48 h incubation. Furthermore, both catechin nanoemulsions and extracts could raise caspase-8, caspase-9 and caspase-3 activities for DU-145 cell apoptosis, arresting the cell cycle at S and G2/M phases. Compared to control, catechin nanoemulsion at 20 μg/mL and paclitaxel at 10 μg/mL were the most effective in reducing tumor volume by 41.3% and 52.5% and tumor weight by 77.5% and 90.6% in mice, respectively, through a decrease in EGF and VEGF levels in serum.

Published
2021
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27. MicroRNA‐488 inhibits proliferation and glycolysis in human prostate cancer cells by regulating PFKFB3.

Author

Wang, Jun, Li, Xiaojuan, Xiao, Zhaoming, Wang, Yu, Han, Yuefu, Li, Jun, Zhu, Weian, Leng, Qu, Wen, Yuehui, and Wen, Xinqiao

Subjects
GLYCOLYSIS, PROSTATE cancer, CANCER cells, CELL proliferation, CELL lines
Abstract

Prostate cancer (PCa) remains the second leading cause of cancer‐related death among men in the United States, and its molecular mechanism remains to be elucidated. Recent studies have suggested that microRNAs may play an important role in cancer development and progression. By analyzing the Gene Expression Omnibus dataset, we found lower expression for miR‐488 in PCa than in normal tissues. Moreover, CCK‐8, EdU, glucose uptake, and lactate secrete assays revealed that overexpression of miR‐488 in PCa cell lines PC3 and DU145 resulted in inhibition of proliferation and glycolysis. In contrast, downregulation of miR‐488 expression promoted proliferation and glycolysis in PCa cells. Using a bioinformatic approach and dual‐luciferase reporter assays, we identified 6‐phosphofructo‐2‐kinase/fructose‐2,6‐bisphosphatase, isoform3 (PFKFB3), as a direct target of miR‐488. Inhibition of PFKFB3 also suppressed PCa cell glycolysis and proliferation. Our study suggests that miR‐488 inhibits PCa cell proliferation and glycolysis by targeting PFKFB3, and thus, miR‐488 may be a novel therapeutic candidate for PCa. [ABSTRACT FROM AUTHOR]

Published
2019
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28. Estrogen receptors localization and signaling pathways in DU-145 human prostate cancer cells.

Author

Souza, Deborah S., Lombardi, Ana Paola G., Vicente, Carolina M., Lucas, Thaís Fabiana G., Erustes, Adolfo G., Pereira, Gustavo J.S., and Porto, Catarina S.

Subjects
*ETIOLOGY of prostate cancer, *PROSTATE cancer prevention, *PROSTATE cancer treatment, *CANCER cell proliferation, *JAK-STAT pathway
Abstract

Abstract The aim of the present study was to investigate the subcellular localization of estrogen receptors ERα and ERβ in androgen-independent prostate cancer cell line DU-145, and the possible role of exportin CRM1 on ERs distribution. In addition, we evaluated the ERs contribution to activation of ERK1/2 and AKT. Immunostaining of ERα and ERβ was predominantly found in the extranuclear regions of DU-145 cells. CRM1 inhibitor Leptomycin B reduced drastically the presence of ERα and ERβ in the extranuclear regions and increased in the nuclei, indicating the possible involvement of CRM1 on ERs nuclear-cytoplasmic shuttling. 17β-estradiol (E2), ERα-selective agonist PPT and ERβ-selective agonist DPN induced a rapid increase on ERK1/2 phosphorylation. E2-induced ERK1/2 activation was partially inhibited when cells were pretreated with ERα- or ERβ-selective antagonists, and blocked by simultaneous pretreatment with both antagonists, suggesting ERα/β heterodimers formation. Furthermore, E2 treatment did not activate AKT pathway. Therefore, we highlighted a possible crosstalk between extranuclear and nuclear ERs and their upstream and downstream signaling molecules as an important mechanism to control ER function as a potential therapeutic target in prostate cancer cells. Highlights • ERα and ERβ are mainly present in the extranuclear regions of DU-145 cells. • CRM1 is involved in the nuclear-cytoplasmic shuttling of ERs. • ERα/β heterodimers induces ERK1/2 phosphorylation. • These mechanisms may be involved in development of prostate cancer and resistance to therapy. [ABSTRACT FROM AUTHOR]

Published
2019
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41. Oxidative Stress in Prostate Cancer

Author

Shan, Weihua, Zhong, Weixiong, Swanlund, Jamie, Oberley, Terry D., Spitz, Douglas R., editor, Dornfeld, Kenneth J., editor, Krishnan, Koyamangalath, editor, and Gius, David, editor

Published
2012
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