Your search keyword '"Fu-Ju Chou"' showing total 59 results

1. Targeting the radiation-induced ARv7-mediated circNHS/miR-512-5p/XRCC5 signaling with Quercetin increases prostate cancer radiosensitivity

Author

Dong Chen, Fu-Ju Chou, Yuhchyau Chen, Chi-Ping Huang, Hao Tian, Yaqin Wang, Yuanjie Niu, Bosen You, Shuyuan Yeh, Nianzeng Xing, and Chawnshang Chang

Subjects

ARv7, circNHS, miR-512-5p, XRCC5, Quercetin, Prostate cancer, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Radiation therapy (RT) with androgen deprivation therapy (ADT) is an effective therapy to suppress the locally advanced prostate cancer (PCa). However, we unexpectedly found that RT could also induce the androgen receptor splice variant 7 (ARv7) expression to decrease the radiosensitivity. Methods The study was designed to target ARv7 expression with Quercetin or ARv7-shRNA that leads to enhancing and increasing the radiation sensitivity to better suppress the PCa that involved the modulation of the circNHS/miR-512-5p/XRCC5 signaling. Results Mechanism studies revealed that RT-induced ARv7 may function via altering the circNHS/miR-512-5p/XRCC5 signaling to decrease the radiosensitivity. Results from preclinical studies using multiple in vitro cell lines and in vivo mouse models concluded that combining RT with the small molecule of Quercetin to target full-length AR and ARv7 could lead to better efficacy to suppress PCa progression. Conclusion Together, these results suggest that ARv7 may play key roles to alter the PCa radiosensitivity, and targeting this newly identified ARv7 mediated circNHS/miR-512-5p/XRCC5 signaling with Quercetin may help physicians to develop a novel RT to better suppress the progression of PCa.

Published

2022

2. ASC-J9® suppresses prostate cancer cell proliferation and invasion via altering the ATF3-PTK2 signaling

Author

Hao Tian, Fu-ju Chou, Jing Tian, Yong Zhang, Bosen You, Chi-Ping Huang, Shuyuan Yeh, Yuanjie Niu, and Chawnshang Chang

Subjects

ASC-J9®, ATF3, Prostate cancer, ATF3 response element, PTK2, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Early studies indicated that ASC-J9®, an androgen receptor (AR) degradation enhancer, could suppress the prostate cancer (PCa) progression. Here we found ASC-J9® could also suppress the PCa progression via an AR-independent mechanism, which might involve modulating the tumor suppressor ATF3 expression. Methods The lentiviral system was used to modify gene expression in C4–2, CWR22Rv1 and PC-3 cells. Western blot and Immunohistochemistry were used to detect protein expression. MTT and Transwell assays were used to test the proliferation and invasion ability. Results ASC-J9® can suppress PCa cell proliferation and invasion in both PCa C4–2 and CWR22Rv1 cells via altering the ATF3 expression. Further mechanistic studies reveal that ASC-J9® can increase the ATF3 expression via decreasing Glutamate-cysteine ligase catalytic (GCLC) subunit expression, which can then lead to decrease the PTK2 expression. Human clinical studies further linked the ATF3 expression to the PCa progression. Preclinical studies using in vivo mouse model also proved ASC-J9® could suppress AR-independent PCa cell invasion, which could be reversed after suppressing ATF3. Conclusions ASC-J9® can function via altering ATF3/PTK2 signaling to suppress the PCa progression in an AR-independent manner.

Published

2021

3. Preclinical study using androgen receptor (AR) degradation enhancer to increase radiotherapy efficacy via targeting radiation-increased AR to better suppress prostate cancer progressionResearch in context

Author

Fu-Ju Chou, Yuhchyau Chen, Dong Chen, Yuanjie Niu, Gonghui Li, Peter Keng, Shuyuan Yeh, and Chawnshang Chang

Subjects

Medicine, Medicine (General), R5-920

Abstract

Background: While androgen deprivation therapy (ADT) and radiotherapy (RT) are currently used together to treat locally advanced prostate cancer (PCa), RT might have the adverse effect of increasing the PCa androgen receptor (AR) protein expression, which might then increase the resistance to continued RT. Methods: We used multiple assays for RT sensitivity, protein and RNA expression of AR and related DDR genes, ROS level, DNA damage/repair level, cell cycle and apoptosis. All statistical comparisons were analyzed with t-test or one-way ANOVA. Findings: We demonstrated that RT induced AR expression in C4-2 and CWR22Rv-1 cells. We found that combining RT and ASC-J9®, but not the antiandrogen, Enzalutamide, could increase radiosensitivity via inducing DNA damage, altering the AR mediated and DNA repair pathways, and activating apoptosis. ASC-J9® had little effects on normal bladder cells. Interpretation: Targeting ionizing radiation (IR)-increased AR with the AR degradation enhancer, ASC-J9®, could increase the radiosensitivity while sparing adjacent normal tissue. Mechanism dissection revealed that ASC-J9®, but not Enzalutamide, treatment could increase radiosensitivity via inducing DNA damage, altering DNA repair pathways, as well as activating the IR-induced apoptosis via suppressing the pATR-CHK1 signals. Importantly, results from preclinical studies using an in vivo mouse model also demonstrated that combining RT with ASC-J9® to target AR led to better therapeutic efficacy to suppress PCa progression.

Published

2019

4. D-2-Hydroxyglutarate in Glioma Biology

Author

Fu-Ju Chou, Yang Liu, Fengchao Lang, and Chunzhang Yang

Subjects

glioma, oncometabolites, IDH1/2mut, D-2-HG, epigenetic, DDR, Cytology, QH573-671

Abstract

Isocitrate dehydrogenase (IDH) mutations are common genetic abnormalities in glioma, which result in the accumulation of an “oncometabolite”, D-2-hydroxyglutarate (D-2-HG). Abnormally elevated D-2-HG levels result in a distinctive pattern in cancer biology, through competitively inhibiting α-ketoglutarate (α-KG)/Fe(II)-dependent dioxgenases (α-KGDDs). Recent studies have revealed that D-2-HG affects DNA/histone methylation, hypoxia signaling, DNA repair, and redox homeostasis, which impacts the oncogenesis of IDH-mutated cancers. In this review, we will discuss the current understanding of D-2-HG in cancer biology, as well as the emerging opportunities in therapeutics in IDH-mutated glioma.

Published

2021

5. Isocitrate Dehydrogenase Mutations in Glioma: Genetics, Biochemistry, and Clinical Indications

Author

Yang Liu, Fengchao Lang, Fu-Ju Chou, Kareem A. Zaghloul, and Chunzhang Yang

Subjects

IDH mutation, glioma, cancer, therapy resistance, Biology (General), QH301-705.5

Abstract

Mutations in isocitrate dehydrogenase (IDH) are commonly observed in lower-grade glioma and secondary glioblastomas. IDH mutants confer a neomorphic enzyme activity that converts α-ketoglutarate to an oncometabolite D-2-hydroxyglutarate, which impacts cellular epigenetics and metabolism. IDH mutation establishes distinctive patterns in metabolism, cancer biology, and the therapeutic sensitivity of glioma. Thus, a deeper understanding of the roles of IDH mutations is of great value to improve the therapeutic efficacy of glioma and other malignancies that share similar genetic characteristics. In this review, we focused on the genetics, biochemistry, and clinical impacts of IDH mutations in glioma.

Published

2020

6. A nucleolus-predominant piggyBac transposase, NP-mPB, mediates elevated transposition efficiency in mammalian cells.

Author

Jin-Bon Hong, Fu-Ju Chou, Amy T Ku, Hsiang-Hsuan Fan, Tung-Lung Lee, Yung-Hsin Huang, Tsung-Lin Yang, I-Chang Su, I-Shing Yu, Shu-Wha Lin, Chung-Liang Chien, Hong-Nerng Ho, and You-Tzung Chen

Subjects

Medicine, Science

Abstract

PiggyBac is a prevalent transposon system used to deliver transgenes and functionally explore the mammalian untouched genomic territory. The important features of piggyBac transposon are the relatively low insertion site preference and the ability of seamless removal from genome, which allow its potential uses in functional genomics and regenerative medicine. Efforts to increase its transposition efficiency in mammals were made through engineering the corresponding transposase (PBase) codon usage to enhance its expression level and through screening for mutant PBase variants with increased enzyme activity. To improve the safety for its potential use in regenerative medicine applications, site-specific transposition was achieved by using engineered zinc finger- and Gal4-fused PBases. An excision-prone PBase variant has also been successfully developed. Here we describe the construction of a nucleolus-predominant PBase, NP-mPB, by adding a nucleolus-predominant (NP) signal peptide from HIV-1 TAT protein to a mammalian codon-optimized PBase (mPB). Although there is a predominant fraction of the NP-mPB-tGFP fusion proteins concentrated in the nucleoli, an insertion site preference toward nucleolar organizer regions is not detected. Instead a 3-4 fold increase in piggyBac transposition efficiency is reproducibly observed in mouse and human cells.

Published

2014

7. R26R-GR: a Cre-activable dual fluorescent protein reporter mouse.

Author

You-Tzung Chen, Ming-Shian Tsai, Tsung-Lin Yang, Amy Tsu Ku, Ke-Han Huang, Cheng-Yen Huang, Fu-Ju Chou, Hsiang-Hsuan Fan, Jin-Bon Hong, Shuo-Ting Yen, Wei-Le Wang, Chang-Ching Lin, Yu-Chen Hsu, Kang-Yi Su, I-Chang Su, Chuan-Wei Jang, Richard R Behringer, Rebecca Favaro, Silvia K Nicolis, Chung-Liang Chien, Shu-Wha Lin, and I-Shing Yu

Subjects

Medicine, Science

Abstract

Green fluorescent protein (GFP) and its derivatives are the most widely used molecular reporters for live cell imagining. The development of organelle-specific fusion fluorescent proteins improves the labeling resolution to a higher level. Here we generate a R26 dual fluorescent protein reporter mouse, activated by Cre-mediated DNA recombination, labeling target cells with a chromatin-specific enhanced green fluorescence protein (EGFP) and a plasma membrane-anchored monomeric cherry fluorescent protein (mCherry). This dual labeling allows the visualization of mitotic events, cell shapes and intracellular vesicle behaviors. We expect this reporter mouse to have a wide application in developmental biology studies, transplantation experiments as well as cancer/stem cell lineage tracing.

Published

2012

8. Protein Kinase B (PKB/AKT) Protects IDH-Mutated Glioma from Ferroptosis via Nrf2

Author

Yang Liu, Fu-Ju Chou, Fengchao Lang, Meili Zhang, Hua Song, Wei Zhang, Dionne L. Davis, Nicole J. Briceno, Yang Zhang, Patrick J. Cimino, Kareem A. Zaghloul, Mark R. Gilbert, Terri S. Armstrong, and Chunzhang Yang

Subjects

Cancer Research, Oncology

Abstract

Purpose: Mutations of the isocitrate dehydrogenase (IDH) gene are common genetic mutations in human malignancies. Increasing evidence indicates that IDH mutations play critical roles in malignant transformation and progression. However, the therapeutic options for IDH-mutated cancers remain limited. In this study, the investigation of patient cohorts revealed that the PI3K/protein kinase B (AKT) signaling pathways were enhanced in IDH-mutated cancer cells. Experimental Design: In this study, we investigated the gene expression profile in IDH-mutated cells using RNA sequencing after the depletion of AKT. Gene set enrichment analysis (GSEA) and pathway enrichment analysis were used to discover altered molecular pathways due to AKT depletion. We further investigated the therapeutic effect of the AKT inhibitor, ipatasertib (Ipa), combined with temozolomide (TMZ) in cell lines and preclinical animal models. Results: GSEA and pathway enrichment analysis indicated that the PI3K/AKT pathway significantly correlated with Nrf2-guided gene expression and ferroptosis-related pathways. Mechanistically, AKT suppresses the activity of GSK3β and stabilizes Nrf2. Moreover, inhibition of AKT activity with Ipa synergizes with the genotoxic agent TMZ, leading to overwhelming ferroptotic cell death in IDH-mutated cancer cells. The preclinical animal model confirmed that combining Ipa and TMZ treatment prolonged survival. Conclusions: Our findings highlighted AKT/Nrf2 pathways as a potential synthetic lethality target for IDH-mutated cancers.

Published

2023

9. Data from Protein Kinase B (PKB/AKT) Protects IDH-Mutated Glioma from Ferroptosis via Nrf2

Author

Chunzhang Yang, Terri S. Armstrong, Mark R. Gilbert, Kareem A. Zaghloul, Patrick J. Cimino, Yang Zhang, Nicole J. Briceno, Dionne L. Davis, Wei Zhang, Hua Song, Meili Zhang, Fengchao Lang, Fu-Ju Chou, and Yang Liu

Abstract

Purpose:Mutations of the isocitrate dehydrogenase (IDH) gene are common genetic mutations in human malignancies. Increasing evidence indicates that IDH mutations play critical roles in malignant transformation and progression. However, the therapeutic options for IDH-mutated cancers remain limited. In this study, the investigation of patient cohorts revealed that the PI3K/protein kinase B (AKT) signaling pathways were enhanced in IDH-mutated cancer cells.Experimental Design:In this study, we investigated the gene expression profile in IDH-mutated cells using RNA sequencing after the depletion of AKT. Gene set enrichment analysis (GSEA) and pathway enrichment analysis were used to discover altered molecular pathways due to AKT depletion. We further investigated the therapeutic effect of the AKT inhibitor, ipatasertib (Ipa), combined with temozolomide (TMZ) in cell lines and preclinical animal models.Results:GSEA and pathway enrichment analysis indicated that the PI3K/AKT pathway significantly correlated with Nrf2-guided gene expression and ferroptosis-related pathways. Mechanistically, AKT suppresses the activity of GSK3β and stabilizes Nrf2. Moreover, inhibition of AKT activity with Ipa synergizes with the genotoxic agent TMZ, leading to overwhelming ferroptotic cell death in IDH-mutated cancer cells. The preclinical animal model confirmed that combining Ipa and TMZ treatment prolonged survival.Conclusions:Our findings highlighted AKT/Nrf2 pathways as a potential synthetic lethality target for IDH-mutated cancers.

Published

2023

10. Supplementary Figure S4 from Protein Kinase B (PKB/AKT) Protects IDH-Mutated Glioma from Ferroptosis via Nrf2

Author

Chunzhang Yang, Terri S. Armstrong, Mark R. Gilbert, Kareem A. Zaghloul, Patrick J. Cimino, Yang Zhang, Nicole J. Briceno, Dionne L. Davis, Wei Zhang, Hua Song, Meili Zhang, Fengchao Lang, Fu-Ju Chou, and Yang Liu

Abstract

(A) Heatmap of gene expression profile for glioma specimen. The leading edge of the KEGG_MTOR_SIGNALING_PATHWAY geneset was shown. (B) Dose-response curve measured the cell viability in IDH1WT NHA cells in response to TMZ/Ipa combination treatment. (C) isobologram analysis showed the synergistic effect of TMZ and Ipa in IDH1WT NHA cells. (D) The combination index (C.I.) was calculated to show the additive effect of TMZ and Ipa.

Published

2023

11. Supplementary Table S1 from Protein Kinase B (PKB/AKT) Protects IDH-Mutated Glioma from Ferroptosis via Nrf2

Author

Chunzhang Yang, Terri S. Armstrong, Mark R. Gilbert, Kareem A. Zaghloul, Patrick J. Cimino, Yang Zhang, Nicole J. Briceno, Dionne L. Davis, Wei Zhang, Hua Song, Meili Zhang, Fengchao Lang, Fu-Ju Chou, and Yang Liu

Abstract

Patient sample information

Published

2023

12. PD46-12 PRECLINICAL STUDIES USING CISPLATIN/CARBOPLATIN TO RESTORE THE ENZALUTAMIDE SENSITIVITY VIA DEGRADING THE ANDROGEN RECEPTOR SPLICING VARIANT 7 (ARV7) TO FURTHER SUPPRESS ENZALUTAMIDE RESISTANT PROSTATE CANCER

Author

Fu-Ju Chou, Yixi Hu, ChangYi Lin, Hao Tian, Deepak Sahasrabudhe, Jean Joseph, Edward M. Messing, Shuyuan Yeh, and Chawnshang Chang

Subjects

Urology

Published

2022

13. Androgen receptor promotes renal cell carcinoma (RCC) vasculogenic mimicry (VM) via altering TWIST1 nonsense-mediated decay through lncRNA-TANAR

Author

Ronghao Wang, Fu-Ju Chou, Jialin Meng, Bingmei Liu, Jie Luo, Yin Sun, Ruizhe Fang, Wanhai Xu, Chi-Ping Huang, Qing Liu, Shuyuan Yeh, Bosen You, Chawnshang Chang, and Keliang Wang

Subjects

0301 basic medicine, Cancer Research, medicine.drug_class, Nonsense-mediated decay, Biology, Article, Metastasis, 03 medical and health sciences, Mice, 0302 clinical medicine, Vasculogenesis, Cell Movement, Cell Line, Tumor, Genetics, medicine, Animals, Humans, Vasculogenic mimicry, Molecular Biology, Carcinoma, Renal Cell, Neovascularization, Pathologic, Twist-Related Protein 1, Nuclear Proteins, Androgen, medicine.disease, Renal cell carcinoma, Nonsense Mediated mRNA Decay, Androgen receptor, Gene Expression Regulation, Neoplastic, Clear cell renal cell carcinoma, 030104 developmental biology, Cell culture, Codon, Nonsense, Receptors, Androgen, 030220 oncology & carcinogenesis, Cancer research, RNA, Long Noncoding, Biomarkers, Signal Transduction

Abstract

While the androgen receptor (AR) may influence the progression of clear cell renal cell carcinoma (ccRCC), its role to impact vasculogenic mimicry (VM) to alter the ccRCC progression and metastasis remains obscure. Here, we demonstrated that elevated AR expression was positively correlated with tumor-originated vasculogenesis in ccRCC patients. Consistently, in vitro research revealed AR promoted VM formation in ccRCC cell lines via modulating lncRNA-TANAR/TWIST1 signals. Mechanism dissection showed that AR could increase lncRNA-TANAR (TANAR) expression through binding to the androgen response elements (AREs) located in its promoter region. Moreover, we found that TANAR could impede nonsense-mediated mRNA decay (NMD) of TWIST1 mRNA by direct interaction with TWIST1 5′UTR. A preclinical study using in vivo mouse model with orthotopic xenografts of ccRCC cells further confirmed the in vitro data. Together, these results illustrated that AR-mediated TANAR signals might play a crucial role in ccRCC VM formation and metastasis, and targeting this newly identified AR/TANAR/TWIST1 signaling may help in the development of a novel anti-angiogenesis therapy to better suppress the ccRCC progression.

Published

2021

14. Preclinical studies using cisplatin/carboplatin to restore the Enzalutamide sensitivity via degrading the androgen receptor splicing variant 7 (ARv7) to further suppress Enzalutamide resistant prostate cancer

Author

Chawnshang Chang, Fu-Ju Chou, Bosen You, Yuanjie Niu, Jieyang Lu, Vanessa Yang, Chi-Ping Huang, Hao Tian, Shuyuan Yeh, Changyi Lin, Deepak M. Sahasrabudhe, and WanYing Lin

Subjects

0301 basic medicine, Male, Cancer Research, medicine.medical_treatment, Apoptosis, urologic and male genital diseases, Carboplatin, chemistry.chemical_compound, Prostate cancer, Mice, 0302 clinical medicine, Antineoplastic Combined Chemotherapy Protocols, Tumor Cells, Cultured, MALAT1, lcsh:Cytology, Gene Expression Regulation, Neoplastic, Cancer therapeutic resistance, Prostatic Neoplasms, Castration-Resistant, Receptors, Androgen, 030220 oncology & carcinogenesis, Benzamides, medicine.drug, Immunology, Mice, Nude, Biologics, Article, 03 medical and health sciences, Cellular and Molecular Neuroscience, Nitriles, Phenylthiohydantoin, medicine, Enzalutamide, Animals, Humans, lcsh:QH573-671, Cell Proliferation, Cisplatin, business.industry, Cell Biology, medicine.disease, Xenograft Model Antitumor Assays, Androgen receptor, Radiation therapy, Alternative Splicing, 030104 developmental biology, chemistry, Tumor progression, Drug Resistance, Neoplasm, Cancer research, business

Abstract

The FDA-approved anti-androgen Enzalutamide (Enz) has been used successfully as the last line therapy to extend castration-resistant prostate cancer (CRPC) patients’ survival by an extra 4.8 months. However, CRPC patients eventually develop Enz-resistance that may involve the induction of the androgen receptor (AR) splicing variant ARv7. Here we found that Cisplatin (Cis) or Carboplatin, currently used in chemotherapy/radiation therapy to suppress tumor progression, could restore the Enz sensitivity in multiple Enz-resistant (EnzR) CRPC cells via directly degrading/suppressing the ARv7. Combining Cis or Carboplatin with Enz therapy can also delay the development of Enz-resistance in CRPC C4-2 cells. Mechanism dissection found that Cis or Carboplatin might decrease the ARv7 expression via multiple mechanisms including targeting the lncRNA-Malat1/SF2 RNA splicing complex and increasing ARv7 degradation via altering ubiquitination. Preclinical studies using in vivo mouse model with implanted EnzR1-C4-2 cells also demonstrated that Cis plus Enz therapy resulted in better suppression of EnzR CRPC progression than Enz treatment alone. These results not only unveil the previously unrecognized Cis mechanism to degrade ARv7 via targeting the Malat1/SF2 complex and ubiquitination signals, it may also provide a novel and ready therapy to further suppress the EnzR CRPC progression in the near future.

Published

2020

15. Androgen dihydrotestosterone (DHT) promotes the bladder cancer nuclear AR-negative cell invasion via a newly identified membrane androgen receptor (mAR-SLC39A9)-mediated Gαi protein/MAPK/MMP9 intracellular signaling

Author

Edward M. Messing, Shuyuan Yeh, Chih-Rong Shyr, Zhendong Xiang, Chawnshang Chang, Jinbo Chen, Fu-Ju Chou, Yin Sun, Zhenyu Ou, Xiongbing Zu, and Chi-Ping Huang

Subjects

0301 basic medicine, MAPK/ERK pathway, Cancer Research, medicine.drug_class, Cell migration, Biology, urologic and male genital diseases, Androgen, Androgen receptor, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, 0302 clinical medicine, chemistry, 030220 oncology & carcinogenesis, Dihydrotestosterone, Genetics, medicine, Cancer research, Membrane androgen receptor, skin and connective tissue diseases, Hydroxyflutamide, Molecular Biology, Intracellular, medicine.drug

Abstract

While androgens may function via nuclear androgen receptor (nAR) to increase bladder cancer (BCa) progression, the impact of androgens on muscle invasive BCa, which contains nearly 80% nAR-negative cells, remains unclear. To dissect the androgens potential impacts on these nAR-negative muscle invasive BCa, we first found that the androgens, dihydrotestosterone (DHT) might function via a novel membrane AR (mAR-SLC39A9) to increase nAR-negative BCa cell migration and invasion. Mechanism dissection revealed that DHT/mAR-SLC39A9 might function by altering Gαi protein-mediated MAPK/MMP9 intracellular signaling to increase nAR-negative BCa cell migration and invasion. Preclinical studies using multiple in vitro nAR-negative BCa cell lines and an in vivo mouse model all demonstrated that targeting this newly identified DHT/mAR-SLC39A9/Gαi/MAPK/MMP9 signaling with small molecules mAR-SLC39A9-shRNA or Gαi-shRNA, and not the classic antiandrogens including enzalutamide, bicalutamide, or hydroxyflutamide, could suppress nAR-negative BCa cell invasion. Results from human clinical samples surveys also indicated the positive correlation of this newly identified DHT/mAR signaling with BCa progression and prognosis. Together, these results suggest that androgens may not only function via the classic nAR to increase the nAR-positive BCa cell invasion, they may also function via this newly identified mAR-SLC39A9 to increase the nAR-negative/mAR-positive BCa cell invasion.

Published

2019

16. The Protective Roles of Estrogen Receptor β in Renal Calcium Oxalate Crystal Formation via Reducing the Liver Oxalate Biosynthesis and Renal Oxidative Stress-Mediated Cell Injury

Author

Chawnshang Chang, Shuyuan Yeh, Li Zuo, Zhijian Zhao, Wei Zhu, Tongzu Liu, Guohua Zeng, Fu-Ju Chou, and David A. Bushinsky

Subjects

0301 basic medicine, Aging, medicine.medical_specialty, Article Subject, 030232 urology & nephrology, Estrogen receptor, medicine.disease_cause, Biochemistry, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Internal medicine, medicine, lcsh:QH573-671, Estrogen receptor beta, chemistry.chemical_classification, Reactive oxygen species, NADPH oxidase, biology, lcsh:Cytology, Chemistry, Kidney metabolism, PHTPP, Cell Biology, General Medicine, 030104 developmental biology, Endocrinology, Apocynin, biology.protein, Oxidative stress

Abstract

Females develop kidney stones less frequently than males do. However, it is unclear if this gender difference is related to altered estrogen/estrogen receptor (ER) signaling. Here, we found that ER beta (ERβ) signals could suppress hepatic oxalate biosynthesis via transcriptional upregulation of the glyoxylate aminotransferase (AGT1) expression. Results from multiple in vitro renal cell lines also found that ERβ could function via suppressing the oxalate-induced injury through increasing the reactive oxygen species (ROS) production that led to a decrease of the renal calcium oxalate (CaOx) crystal deposition. Mechanism study results showed that ERβ suppressed oxalate-induced oxidative stress via transcriptional suppression of the NADPH oxidase subunit 2 (NOX2) through direct binding to the estrogen response elements (EREs) on the NOX2 5′ promoter. We further applied two in vivo mouse models with glyoxylate-induced renal CaOx crystal deposition and one rat model with 5% hydroxyl-L-proline-induced renal CaOx crystal deposition. Our data demonstrated that mice lacking ERβ (ERβKO) as well as mice or rats treated with ERβ antagonist PHTPP had increased renal CaOx crystal deposition with increased urinary oxalate excretion and renal ROS production. Importantly, targeting ERβ-regulated NOX2 with the NADPH oxidase inhibitor, apocynin, can suppress the renal CaOx crystal deposition in the in vivo mouse model. Together, results from multiple in vitro cell lines and in vivo mouse/rat models all demonstrate that ERβ may protect against renal CaOx crystal deposition via inhibiting the hepatic oxalate biosynthesis and oxidative stress-induced renal injury.

Published

2019

17. Targeting the androgen receptor (AR) with AR degradation enhancer ASC-J9® led to increase docetaxel sensitivity via suppressing the p21 expression

Author

Emily Zixin Xing, Chawnshang Chang, Yuanjie Niu, Jing Tian, Li Zuo, Changyi Lin, Jie Luo, Fu-Ju Chou, and Shuyuan Yeh

Subjects

Cyclin-Dependent Kinase Inhibitor p21, Male, 0301 basic medicine, Cancer Research, Curcumin, medicine.medical_treatment, Antineoplastic Agents, Apoptosis, Docetaxel, urologic and male genital diseases, 03 medical and health sciences, Prostate cancer, 0302 clinical medicine, Tumor Cells, Cultured, medicine, Transcriptional regulation, Humans, neoplasms, Cell Proliferation, Chemotherapy, Cell growth, Chemistry, organic chemicals, Prostatic Neoplasms, Drug Synergism, medicine.disease, In vitro, Gene Expression Regulation, Neoplastic, Androgen receptor, 030104 developmental biology, Oncology, Drug Resistance, Neoplasm, Receptors, Androgen, 030220 oncology & carcinogenesis, Proteolysis, Cancer research, Phosphorylation, therapeutics, medicine.drug

Abstract

Chemotherapy with docetaxel remains the effective therapy to suppress castration resistant prostate cancer (CRPC) in some patients. However, most chemotherapy with docetaxel eventually fails with the development of docetaxel resistance after 18-weeks of treatment. Here we found docetaxel treatment might have an adverse effect of increasing the androgen receptor (AR) protein level in the CRPC cells, and combining docetaxel with anti-AR therapy using AR-shRNA or the AR degradation enhancer ASC-J9® may increase docetaxel sensitivity to better suppress the CRPC cell growth. Mechanism dissection found docetaxel might have the adverse effect of increasing the AR protein stability via suppressing the AR ubiquitination due to the increased AR phosphorylation. The consequence of such increased AR protein may then lead to increase p21 expression via transcriptional regulation. Preclinical studies with in vitro cells lines also demonstrated that targeting AR with ASC-J9® led to suppressing the AR-increased p21 expression to improve the docetaxel sensitivity in the CRPC cells that already developed docetaxel resistance. Together, these results suggest that a combined therapy of docetaxel and ASC-J9® is a novel therapy to better suppress CRPC in patients that already developed docetaxel resistance.

Published

2019

18. Loss of the androgen receptor suppresses intrarenal calcium oxalate crystals deposition via altering macrophage recruitment/M2 polarization with change of the miR-185-5p/CSF-1 signals

Author

Chawnshang Chang, Shuyuan Yeh, Li Zuo, Zhijian Zhao, David A. Bushinsky, Tongzu Liu, Wei Zhu, Guohua Zeng, and Fu-Ju Chou

Subjects

0301 basic medicine, Male, Cancer Research, THP-1 Cells, 030232 urology & nephrology, Calcium oxalate, Rats, Sprague-Dawley, chemistry.chemical_compound, Mice, 0302 clinical medicine, Macrophage, Receptor, Mice, Knockout, Kidney, lcsh:Cytology, Cell Polarity, M2 Macrophage, 3. Good health, Cell biology, medicine.anatomical_structure, Receptors, Androgen, Knockout mouse, Female, Curcumin, Phagocytosis, Immunology, Transfection, Article, 03 medical and health sciences, Cellular and Molecular Neuroscience, Kidney Calculi, medicine, Animals, Humans, lcsh:QH573-671, Calcium Oxalate, Macrophage Colony-Stimulating Factor, Macrophages, Cell Biology, Macrophage Activation, Rats, Androgen receptor, Mice, Inbred C57BL, Disease Models, Animal, MicroRNAs, 030104 developmental biology, HEK293 Cells, RAW 264.7 Cells, chemistry

Abstract

Crystals can trigger a wide range of kidney injuries that may link to the development of kidney stones. Infiltrating macrophages may influence hyperoxaluria-induced intrarenal calcium oxalate (CaOx) crystals deposition, yet their linkage to sex hormones remains unclear. Here we demonstrated that suppressing the androgen receptor (AR) expression in renal tubular epithelial cells increased the macrophage recruitment/M2 polarization that may result in enhancing the phagocytosis of intrarenal CaOx crystals. Mechanism dissection suggested that AR can suppress macrophage colony-stimulating factor 1 (CSF-1) expression via increasing miRNA-185-5p expression to suppress the M2 macrophage polarization-mediated intrarenal CaOx crystals phagocytosis. The preclinical study using glyoxylate-induced intrarenal CaOx crystals deposition mouse model revealed that renal tubule-specific AR knockout mice have less intrarenal CaOx crystals deposition with more recruited M2 macrophages in the kidney compared with the wild-type mice. Results from the in vivo rat model using hydroxy-l-proline-induced CaOx crystals deposition also demonstrated that targeting the AR with ASC-J9® suppressed the intrarenal CaOx crystals deposition via increasing the renal macrophage recruitment/M2 polarization. Together, results from multiple preclinical studies using multiple in vitro cell lines and in vivo mouse/rat models all demonstrated that targeting the AR with a small molecule ASC-J9® may function via altering macrophage recruitment/M2 polarization to decrease the intrarenal CaOx crystals deposition, a key phenotype seen in many kidney stone disease patients with hyperoxaluria.

Published

2019

19. Preclinical study using androgen receptor (AR) degradation enhancer to increase radiotherapy efficacy via targeting radiation-increased AR to better suppress prostate cancer progression

Author

Chawnshang Chang, Fu-Ju Chou, Yuanjie Niu, Peter C. Keng, Yuhchyau Chen, Gonghui Li, Shuyuan Yeh, and Dong Chen

Subjects

Male, 0301 basic medicine, Radiation-Sensitizing Agents, Curcumin, Research paper, DNA damage, DNA repair, Drug Evaluation, Preclinical, lcsh:Medicine, Radiation Tolerance, General Biochemistry, Genetics and Molecular Biology, Androgen deprivation therapy, Mice, 03 medical and health sciences, chemistry.chemical_compound, Prostate cancer, 0302 clinical medicine, Cell Movement, Cell Line, Tumor, medicine, Animals, Humans, Enzalutamide, Radiosensitivity, lcsh:R5-920, Radiation, Radiotherapy, Chemistry, lcsh:R, Prostatic Neoplasms, General Medicine, Cell cycle, medicine.disease, Xenograft Model Antitumor Assays, 3. Good health, Gene Expression Regulation, Neoplastic, Androgen receptor, Disease Models, Animal, 030104 developmental biology, Receptors, Androgen, 030220 oncology & carcinogenesis, Proteolysis, Disease Progression, Cancer research, lcsh:Medicine (General), Signal Transduction

Abstract

Background While androgen deprivation therapy (ADT) and radiotherapy (RT) are currently used together to treat locally advanced prostate cancer (PCa), RT might have the adverse effect of increasing the PCa androgen receptor (AR) protein expression, which might then increase the resistance to continued RT. Methods We used multiple assays for RT sensitivity, protein and RNA expression of AR and related DDR genes, ROS level, DNA damage/repair level, cell cycle and apoptosis. All statistical comparisons were analyzed with t-test or one-way ANOVA. Findings We demonstrated that RT induced AR expression in C4-2 and CWR22Rv-1 cells. We found that combining RT and ASC-J9®, but not the antiandrogen, Enzalutamide, could increase radiosensitivity via inducing DNA damage, altering the AR mediated and DNA repair pathways, and activating apoptosis. ASC-J9® had little effects on normal bladder cells. Interpretation Targeting ionizing radiation (IR)-increased AR with the AR degradation enhancer, ASC-J9®, could increase the radiosensitivity while sparing adjacent normal tissue. Mechanism dissection revealed that ASC-J9®, but not Enzalutamide, treatment could increase radiosensitivity via inducing DNA damage, altering DNA repair pathways, as well as activating the IR-induced apoptosis via suppressing the pATR-CHK1 signals. Importantly, results from preclinical studies using an in vivo mouse model also demonstrated that combining RT with ASC-J9® to target AR led to better therapeutic efficacy to suppress PCa progression., Highlights • ASC-J9• enhances efficacy of radiotherapy (RT) in PCa through both AR-dependent and AR-independent mechanistic pathways. • In AR-independent pathway, ASC-J9• increases endogenous ROS and DNA damage and makes PCa cells more sensitive to RT • ASC-J9• could also reduce the DNA damage repair after RT via suppression of AR dependent DDR genes and apoptotic pathway. • From pre-clinical mouse model, we found that combining RT and ASC-J9• can provide better efficacy than RT only.

Published

2019

20. Targeting the Radiation-Induced ARv7-Mediated circNHS/miR-512-5p/XRCC5 Signaling With Quercetin Signaling Increases Prostate Cancer Radiosensitivity

Author

Chawnshang Chang, Yuanjie Niu, Shuyuan Yeh, Chi-Ping Huang, Dong Chen, Bosen You, Yaqin Wang, Hao Tian, Nianzeng Xing, Fu-Ju Chou, and Yuhchyau Chen

Subjects

chemistry.chemical_compound, Prostate cancer, Text mining, chemistry, business.industry, Cancer research, Medicine, Radiation induced, Radiosensitivity, Quercetin, business, medicine.disease

Abstract

BackgroundRadiation therapy (RT) with androgen deprivation therapy (ADT) is an effective therapy to suppress the locally advanced prostate cancer (PCa). However, we unexpected found that RT could also inducing the androgen receptor splice variant 7 (ARv7) expression to decrease the radiosensitivity. MethodsThe study was designed to target ARv7 expression with Quercetin or ARv7-shRNA led to enhancing increase the radiation sensitivity to better suppress the PCa that involved the modulating the circNHS/miR-512-5p/XRCC5 signaling.ResultsMechanism studies revealed that RT-induced ARv7 may function via altering the circNHS/miR-512-5p/XRCC5 signaling to decrease the radiosensitivity. Results from preclinical studies using multiple in vitro cell lines and in vivo mouse models concluded that combining RT with small molecule of Quercetin to target full-length AR and ARv7 could lead to better efficacy to suppress PCa progression. Conclusion Together, these results suggest that ARv7 may play key roles to alter the PCa radiosensitivity, and targeting this newly identified ARv7 mediated circNHS/miR-512-5p/XRCC5 signaling with Quercetin may help us to develop a novel RT to better suppress the progression of PCa.

Published

2021

21. Genotoxic therapy and resistance mechanism in gliomas

Author

Fengchao Lang, Yang Liu, Fu-Ju Chou, and Chunzhang Yang

Subjects

0301 basic medicine, medicine.medical_treatment, Drug resistance, Article, 03 medical and health sciences, 0302 clinical medicine, Cancer stem cell, Glioma, medicine, Humans, Pharmacology (medical), Pharmacology, Temozolomide, business.industry, Brain Neoplasms, Cancer, Base excision repair, medicine.disease, Radiation therapy, 030104 developmental biology, 030220 oncology & carcinogenesis, Cancer research, DNA mismatch repair, business, medicine.drug, DNA Damage

Abstract

Glioma is one of the most common and lethal brain tumors. Surgical resection followed by radiotherapy plus chemotherapy is the current standard of care for patients with glioma. The existence of resistance to genotoxic therapy, as well as the nature of tumor heterogeneity greatly limits the efficacy of glioma therapy. DNA damage repair pathways play essential roles in many aspects of glioma biology such as cancer progression, therapy resistance, and tumor relapse. O6-methylguanine-DNA methyltransferase (MGMT) repairs the cytotoxic DNA lesion generated by temozolomide (TMZ), considered as the main mechanism of drug resistance. In addition, mismatch repair, base excision repair, and homologous recombination DNA repair also play pivotal roles in treatment resistance as well. Furthermore, cellular mechanisms, such as cancer stem cells, evasion from apoptosis, and metabolic reprogramming, also contribute to TMZ resistance in gliomas. Investigations over the past two decades have revealed comprehensive mechanisms of glioma therapy resistance, which has led to the development of novel therapeutic strategies and targeting molecules.

Published

2021

22. ASC-J9® suppresses prostate cancer cell proliferation and invasion via altering the ATF3-PTK2 signaling

Author

Chawnshang Chang, Jing Tian, Hao Tian, Chi-Ping Huang, Yong Zhang, Yuanjie Niu, Bosen You, Fu-Ju Chou, and Shuyuan Yeh

Subjects

0301 basic medicine, Male, Cancer Research, Curcumin, Mice, Nude, lcsh:RC254-282, law.invention, 03 medical and health sciences, Prostate cancer, Mice, 0302 clinical medicine, Western blot, law, ASC-J9®, Cell Line, Tumor, Gene expression, medicine, Animals, Humans, ATF3, Neoplasm Invasiveness, Cell Proliferation, Activating Transcription Factor 3, medicine.diagnostic_test, PTK2, Cell growth, Chemistry, Research, Prostatic Neoplasms, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, medicine.disease, Xenograft Model Antitumor Assays, Androgen receptor, ATF3 response element, 030104 developmental biology, GCLC, Oncology, Apoptosis, 030220 oncology & carcinogenesis, Focal Adhesion Kinase 1, Cancer research, Suppressor, Signal Transduction

Abstract

Background Early studies indicated that ASC-J9®, an androgen receptor (AR) degradation enhancer, could suppress the prostate cancer (PCa) progression. Here we found ASC-J9® could also suppress the PCa progression via an AR-independent mechanism, which might involve modulating the tumor suppressor ATF3 expression. Methods The lentiviral system was used to modify gene expression in C4–2, CWR22Rv1 and PC-3 cells. Western blot and Immunohistochemistry were used to detect protein expression. MTT and Transwell assays were used to test the proliferation and invasion ability. Results ASC-J9® can suppress PCa cell proliferation and invasion in both PCa C4–2 and CWR22Rv1 cells via altering the ATF3 expression. Further mechanistic studies reveal that ASC-J9® can increase the ATF3 expression via decreasing Glutamate-cysteine ligase catalytic (GCLC) subunit expression, which can then lead to decrease the PTK2 expression. Human clinical studies further linked the ATF3 expression to the PCa progression. Preclinical studies using in vivo mouse model also proved ASC-J9® could suppress AR-independent PCa cell invasion, which could be reversed after suppressing ATF3. Conclusions ASC-J9® can function via altering ATF3/PTK2 signaling to suppress the PCa progression in an AR-independent manner.

Published

2021

23. Additional file 3 of ASC-J9® suppresses prostate cancer cell proliferation and invasion via altering the ATF3-PTK2 signaling

Author

Tian, Hao, Fu-Ju Chou, Tian, Jing, Zhang, Yong, Bosen You, Chi-Ping Huang, Shuyuan Yeh, Yuanjie Niu, and Chawnshang Chang

Abstract

Additional file 3: Figure S3. (A) Overexpressed ATF3 (oeATF3) could suppress PTK2 expression in PC-3 cells. (B) Western Blots show ASC-J9® treatment could suppress PTK2 expression level in PC-3 cells.

Published

2021

24. Additional file 1 of ASC-J9® suppresses prostate cancer cell proliferation and invasion via altering the ATF3-PTK2 signaling

Author

Tian, Hao, Fu-Ju Chou, Tian, Jing, Zhang, Yong, Bosen You, Chi-Ping Huang, Shuyuan Yeh, Yuanjie Niu, and Chawnshang Chang

Abstract

Additional file 1: Figure S1. ATF3 knockdown efficiency in C4-2, CWR22Rv1, and PC-3 cell lines. ATF3 expression in C4–2 (left), CWR22RV1 (middle) and PC-3 (right) after knocking down ATF3. Based on ATF3 knocking down efficiency, majority of assay using ATF3-shRNA-2. SCR = Scramble, #1 = ATF3-shRNA-1, #2 = ATF3-shRNA-2.

Published

2021

25. Additional file 2 of ASC-J9® suppresses prostate cancer cell proliferation and invasion via altering the ATF3-PTK2 signaling

Author

Tian, Hao, Fu-Ju Chou, Tian, Jing, Zhang, Yong, Bosen You, Chi-Ping Huang, Shuyuan Yeh, Yuanjie Niu, and Chawnshang Chang

Abstract

Additional file 2: Figure S2. ATF3’s functions in PC-3 cell line. (A) MTT assay using shATF3 indicates suppressing ATF3 could increase cell growth in PC-3 cells. (B) Invasion assay shows using shATF3 to knock down ATF3 increases cell invasion in PC-3 cells. (C) MTT assay indicates oeATF3 in PC-3 cells reduces cell growth. (D) Overexpression of ATF3 (oeATF3) in PC-3 cells can decrease cell invasion (E) MTT analysis shows knock down of ATF3 in PC-3 cells reversed ASC-J9® treatment effects. (F) GSH assay to reveal ASC-J9® can decrease GSH concentration in PC-3 cell. (G) The qRT-PCR of GSH upstream genes GCLC was decreased significantly when treated with ASC-J9® in PC-3 cell. For B and D, quantitations are below or right of images. Data represent the mean ± SD except qRT-PCR represent the mean ± SEM. *p

Published

2021

26. Isocitrate Dehydrogenase Mutations in Glioma: Genetics, Biochemistry, and Clinical Indications

Author

Kareem A. Zaghloul, Fu-Ju Chou, Chunzhang Yang, Fengchao Lang, and Yang Liu

Subjects

Genetics, therapy resistance, IDH mutation, Mutant, Medicine (miscellaneous), Cancer, Review, Biology, medicine.disease, General Biochemistry, Genetics and Molecular Biology, Idh mutation, nervous system diseases, Isocitrate dehydrogenase, Biochemistry, lcsh:Biology (General), Glioma, glioma, medicine, cancer, Epigenetics, Cancer biology, Treatment resistance, lcsh:QH301-705.5, neoplasms

Abstract

Mutations in isocitrate dehydrogenase (IDH) are commonly observed in lower-grade glioma and secondary glioblastomas. IDH mutants confer a neomorphic enzyme activity that converts α-ketoglutarate to an oncometabolite D-2-hydroxyglutarate, which impacts cellular epigenetics and metabolism. IDH mutation establishes distinctive patterns in metabolism, cancer biology, and the therapeutic sensitivity of glioma. Thus, a deeper understanding of the roles of IDH mutations is of great value to improve the therapeutic efficacy of glioma and other malignancies that share similar genetic characteristics. In this review, we focused on the genetics, biochemistry, and clinical impacts of IDH mutations in glioma.

Published

2020

27. Androgen Receptor promotes renal cell carcinoma (RCC) vasculogenic mimicry (VM) via altering TWIST1 nonsense-mediated decay through lncRNA-TANAR

Author

Ruizhe Fang, Keliang Wang, Shuyuan Yeh, Wanhai Xu, Qing Liu, Jie Luo, Chawnshang Chang, Chi-Ping Huang, Bingmei Liu, Yin Sun, Bosen You, Ronghao Wang, Fu-Ju Chou, and Jialin Meng

Subjects

Androgen receptor, Clear cell renal cell carcinoma, Vasculogenesis, medicine.drug_class, Cell culture, Chemistry, Nonsense-mediated decay, medicine, Cancer research, Vasculogenic mimicry, Androgen, medicine.disease, Metastasis

Abstract

While the androgen receptor (AR) may influence the progression of clear cell renal cell carcinoma (ccRCC), its role to impact vasculogenic mimicry (VM) to alter the ccRCC progression and metastasis remains obscure. Here we demonstrated that elevated AR expression was positively correlated with tumor-originated vasculogenesis in ccRCC patients. Consistently, in vitro research revealed AR promoted VM formation in ccRCC cell lines via modulating lncRNA-TANAR/TWIST1 signals. Mechanism dissection showed that AR could increase lncRNA-TANAR (TANAR) expression through binding to the androgen response elements (AREs) located on its promoter region. Moreover, we found that TANAR could impede nonsense-mediated mRNA decay (NMD) of TWIST1 mRNA by direct interaction with TWIST1 5’UTR. A preclinical study using in vivo mouse model with orthotopic xenografts of ccRCC cells further confirmed the in vitro data. Together, these results illustrated that AR-mediated lnc-TANAR signals might play a crucial role in ccRCC VM formation and metastasis, and targeting this newly identified AR/lncRNA-TANAR/TWIST1 signaling may help in the development of a novel anti-angiogenesis therapy to better suppress the ccRCC progression.

Published

2020

28. Targeting the radiation-induced TR4 nuclear receptor-mediated QKI/circZEB1/miR-141-3p/ZEB1 signaling increases prostate cancer radiosensitivity

Author

Nianzeng Xing, Bosen You, Yaqin Wang, Chi-Ping Huang, Chawnshang Chang, Fu-Ju Chou, Yuanjie Niu, Yuhchyau Chen, Dong Chen, Shuyuan Yeh, and Hao Tian

Subjects

0301 basic medicine, Male, Cancer Research, Receptors, Steroid, medicine.medical_treatment, Biology, Radiation Tolerance, 03 medical and health sciences, Prostate cancer, Mice, 0302 clinical medicine, In vivo, Cell Line, Tumor, medicine, Animals, Humans, Radiosensitivity, Receptors, Thyroid Hormone, Prostatic Neoplasms, RNA-Binding Proteins, Zinc Finger E-box-Binding Homeobox 1, RNA, Circular, medicine.disease, Xenograft Model Antitumor Assays, Protein Quaking, Metformin, Up-Regulation, Radiation therapy, MicroRNAs, 030104 developmental biology, Oncology, Nuclear receptor, 030220 oncology & carcinogenesis, PC-3 Cells, Cancer research, Signal transduction, Neoplasm Transplantation, medicine.drug, Signal Transduction

Abstract

Early studies indicated that the testicular nuclear receptor 4 (TR4) might play key roles in altering prostate cancer (PCa) progression; however, its ability to alter PCa radiosensitivity remains unclear. Here, we found that suppressing TR4 expression promoted radiosensitivity and better suppressed PCa by modulating the protein quaking (QKI)/circZEB1/miR-141-3p/ZEB1 signaling pathway. Mechanism dissection studies revealed that TR4 could transcriptionally increase the RNA-binding protein QKI to increase circZEB1 levels, which then sponges the miR-141-3p to increase the expression of its host gene ZEB1. Preclinical studies with an in vivo mouse model further proved that combining radiation therapy (RT) with metformin promoted radiosensitivity to suppress PCa progression. Together, these results suggest that TR4 may play key roles in altering PCa radiosensitivity and show that targeting this newly identified TR4-mediated QKI/circZEB1/miR-141-3p/ZEB1 signaling pathway may help in the development of a novel RT to better suppress the progression of PCa.

Published

2020

29. Preclinical studies show using enzalutamide is less effective in docetaxel-pretreated than in docetaxel-naïve prostate cancer cells

Author

Jie Luo, Jieyang Lu, Carlos Cordon-Cardo, Chawnshang Chang, WanYing Lin, Deepak M. Sahasrabudhe, Chi-Ping Huang, Rosa Nadal, Rachel Yang, Emmanuel S. Antonarakis, Matthew Truong, Gonghui Li, Yin Sun, Changyi Lin, Yuanjie Niu, Hao Tian, Fu-Ju Chou, and Shuyuan Yeh

Subjects

Cisplatin, Aging, Chemotherapy, business.industry, Cell growth, medicine.medical_treatment, Cell Biology, medicine.disease, Androgen receptor, chemistry.chemical_compound, Prostate cancer, Docetaxel, chemistry, In vivo, Cancer research, Medicine, Enzalutamide, business, medicine.drug

Abstract

Anti-androgen therapy with Enzalutamide (Enz) has been used as a therapy for castration resistant prostate cancer (CRPC) patients after development of resistance to chemotherapy with Docetaxel (Doc). The potential impacts of Doc-chemotherapy on the subsequent Enz treatment, however, remain unclear. Here we found the overall survival rate of patients that received Enz was significantly less in patients that received prior Doc-chemotherapy than those who had not. In vitro studies from 3 established Doc resistant CRPC (DocRPC) cell lines are consistent with the clinical findings showing DocRPC patients had decreased Enz-sensitivity as well as accelerated development of Enz-resistance via enhanced androgen receptor (AR) splicing variant 7 (ARv7) expression. Mechanism dissection found that Doc treatment might increase the generation of ARv7 via altering the MALAT1-SF2 RNA splicing complex. Preclinical studies using in vivo mouse models and in vitro cell lines proved that targeting the MALAT1/SF2/ARv7 axis with small molecules, including siMALAT1, shSF2, and shARv7 or ARv7 degradation enhancers: Cisplatin or ASC-J9®, can restore/increase the Enz sensitivity to further suppress DocRPC cell growth. Therefore, combined therapy of Doc-chemotherapy with anti-ARv7 therapy, including Cisplatin or ASC-J9®, may be developed to increase the efficacy of Enz to further suppress DocRPC in patients.

Published

2020

30. Androgen receptor (AR) degradation enhancer ASC-J9 ® in an FDA-approved formulated solution suppresses castration resistant prostate cancer cell growth

Author

Defeng Xu, Fu-Ju Chou, Qiaoxia Zhang, Chawnshang Chang, Rachel Yang, Jie Ding, Max A. Cheng, Shuyuan Yeh, Keliang Wang, and Gonghui Li

Subjects

0301 basic medicine, Cancer Research, Confluency, Stromal cell, Chemistry, Cell growth, Cell, medicine.disease, Androgen receptor, 03 medical and health sciences, Prostate cancer, 030104 developmental biology, 0302 clinical medicine, medicine.anatomical_structure, Oncology, Cell culture, 030220 oncology & carcinogenesis, medicine, Cancer research, Clonogenic assay

Abstract

ASC-J9® is a recently-developed androgen receptor (AR)-degradation enhancer that effectively suppresses castration resistant prostate cancer (PCa) cell proliferation and invasion. The optimal half maximum inhibitory concentrations (IC50) of ASC-J9® at various PCa cell confluences (20%, 50%, and 100%) were assessed via both short-term MTT growth assays and long-term clonogenic proliferation assays. Our results indicate that the IC50 values for ASC-J9® increased with increasing cell confluency. The IC50 values were significantly decreased in PCa AR-positive cells compared to PCa AR-negative cells or in normal prostate cells. This suggests that ASC-J9® may function mainly via targeting the AR-positive PCa cells with limited unwanted side-effects to suppress the surrounding normal prostate cells. Mechanism dissection indicated that ASC-J9® might function via altering the apoptosis signals to suppress the PCa AR-negative PC-3 cells. Preclinical studies using multiple in vitro PCa cell lines and an in vivo mouse model with xenografted castration-resistant PCa CWR22Rv1 cells demonstrated that ASC-J9® has similar AR degradation effects when dissolved in FDA-approved solvents, including DMSO, PEG-400:Tween-80 (95:5), DMA:Labrasol:Tween-80 (10:45:45), and DMA:Labrasol:Tween-20 (10:45:45). Together, results from preclinical studies suggest a potential new therapy with AR-degradation enhancer ASC-J9® may potentially be ready to be used in human clinical trials in order to better suppress PCa at later castration resistant stages.

Published

2018

31. Olaparib and Enzalutamide synergistically suppress HCC progression via the AR-mediated miR-146a-5p/BRCA1 signaling

Author

Yao Xiao, Yin Sun, Ren’an Jin, Xiujun Cai, Chawnshang Chang, Jie Zhao, Hui Lin, and Fu-Ju Chou

Subjects

0301 basic medicine, Male, Apoptosis, Biochemistry, Piperazines, Mice, chemistry.chemical_compound, 0302 clinical medicine, Antineoplastic Combined Chemotherapy Protocols, Tumor Cells, Cultured, Cytotoxicity, 0303 health sciences, BRCA1 Protein, Chemistry, Liver Neoplasms, Drug Synergism, 3. Good health, Gene Expression Regulation, Neoplastic, Receptors, Androgen, 030220 oncology & carcinogenesis, Benzamides, PARP inhibitor, Disease Progression, Biotechnology, Carcinoma, Hepatocellular, DNA damage, Mice, Nude, Article, Olaparib, 03 medical and health sciences, In vivo, Nitriles, Phenylthiohydantoin, Genetics, Biomarkers, Tumor, Animals, Humans, Enzalutamide, Molecular Biology, Cell Proliferation, 030304 developmental biology, Cell growth, Xenograft Model Antitumor Assays, digestive system diseases, In vitro, Androgen receptor, MicroRNAs, 030104 developmental biology, Cancer research, Phthalazines, 030217 neurology & neurosurgery

Abstract

Hepatocellular carcinoma (HCC) is one of most common malignant tumors worldwide, however, the treatment for advanced HCC remains unsatisfactory. Here we found that Olaparib, a FDA approved PARP inhibitor, could enhance the cytotoxicity in HCC cells with a lower BRCA1 expression, and suppressing the AR with either Enz or AR-shRNA could further increase the Olaparib sensitivity to better suppress the HCC cell growth via a synergistic mechanism that may involve suppressing the expression of BRCA1 and other DNA damage response (DDR) genes. Mechanism studies revealed that Enz/AR signaling might transcriptional regulting the miR-146a-5p expression via binding to the AREs on its 5’ promoter region, which could then lead to suppress the homologous recombination-related BRCA1 expression via direct binding to its 3’ UTR of mRNA. Preclinical study using an in vivo mouse model also proved that combined Enz plus Olaparib led to better suppression of the HCC progression. Together, these in vitro/in vivo data suggest that combining Enz and Olaparib may help in the development of a novel therapy to better suppress the HCC progression.

Published

2019

32. MP16-14 ERβ-MEDIATED ALTERATION OF CIRCATP2B1 AND MIR-204-3P SIGNALING PROMOTES INVASION OF CLEAR CELL RENAL CELL CARCINOMA

Author

Shuyuan Yeh, Huiyang Xu, Jiaqi Chen, Yin Sun, Zhenwei Han, Yong Zhang, Edward M. Messing, Xiaolu Wang, Fu-Ju Chou, and Chawnshang Chang

Subjects

Clear cell renal cell carcinoma, business.industry, Urology, Cancer research, Medicine, business, medicine.disease

Abstract

INTRODUCTION AND OBJECTIVES:Recent studies suggested that ERβ could promote the ccRCC progression, and results from the TCGA database analyses indicate that ERβ expression is associated with the cc...

Published

2019

33. MP16-04 TARGETING NEWLY IDENTIFIED ERβ/TGF-β1/SMAD3 SIGNALS WITH THE FDA-APPROVED ANTI-ESTROGEN FASLODEX OR AN ERβ SELECTIVE ANTAGONIST IN RENAL CELL CARCINOMA

Author

Edward M. Messing, Chawnshang Chang, Lei Li, Huiyang Xu, Luke Sien-Shih Chang, Shuyuan Yeh, Fu-Ju Chou, Dalin He, Wenbin Song, Chiuan-Ren Yeh, Karen M. Doersch, Iawen Hsu, and Yule Chen

Subjects

business.industry, Urology, Tgf β1 smad3, Mortality rate, Anti estrogen, Selective antagonist, urologic and male genital diseases, medicine.disease, female genital diseases and pregnancy complications, Renal cell carcinoma, Cancer research, medicine, business, neoplasms

Abstract

INTRODUCTION AND OBJECTIVES:Renal cell carcinoma (RCC) has the third highest mortality rate among all urological tumors, and 20-30% of RCC patients present with metastatic RCC at the time of diagno...

Published

2019

34. New therapy with ASC-J9® to suppress the prostatitis via altering the cytokine CCL2 signals

Author

Fu-Ju Chou, Changyi Lin, Chawnshang Chang, Hong-Chiang Chang, Shin-Jen Lin, and Shuyuan Yeh

Subjects

CD4-Positive T-Lymphocytes, Male, 0301 basic medicine, Curcumin, Stromal cell, medicine.medical_treatment, T cell, Prostatitis, CCL2, Autoimmune Diseases, Cell Line, 03 medical and health sciences, 0302 clinical medicine, Cell Movement, Mice, Inbred NOD, Prostate, In vivo, ASC-J9®, Animals, Humans, Medicine, Chemokine CCL2, prostate, business.industry, Cancer, medicine.disease, 3. Good health, 030104 developmental biology, Cytokine, medicine.anatomical_structure, Oncology, 030220 oncology & carcinogenesis, Immunology, Cancer research, Stromal Cells, business, Signal Transduction, Research Paper

Abstract

// Shin-Jen Lin 1 , Fu-Ju Chou 1 , Chang-Yi Lin 1 , Hong-Chiang Chang 1 , Shuyuan Yeh 1 , Chawnshang Chang 1, 2 1 George Whipple Laboratory for Cancer Research, Departments of Pathology, Urology, and Radiation Oncology, and Wilmot Cancer Center, University of Rochester Medical Center, Rochester, NY 14642, USA 2 Sex Hormone Research Center, China Medical University/Hospital, Taichung 404, Taiwan Correspondence to: Chawnshang Chang, email: chang@urmc.rochester.edu Keywords: prostate, ASC-J9 ® , CCL2 Received: March 23, 2016 Accepted: July 19, 2016 Published: August 22, 2016 ABSTRACT Prostatitis is a common disease contributing to 8% of all urologist visits. Yet the etiology and effective treatment remain to be further elucidated. Using a non-obese diabetes mouse model that can be induced by autoimmune response for the spontaneous development of prostatitis, we found that injection of the ASC-J9 ® at 75 mg/Kg body weight/48 hours led to significantly suppressed prostatitis that was accompanied with reduction of lymphocyte infiltration with reduced CD4 + T cells in prostate. In vitro studies with a co-culture system also confirmed that ASC-J9 ® treatment could suppress the CD4 + T cell migration to prostate stromal cells. Mechanisms dissection indicated that ASC-J9 ® can suppress CD4 + T cell migration via decreasing the cytokine CCL2 in vitro and in vivo , and restoring CCL2 could interrupt the ASC-J9 ® suppressed CD4 + T cell migration. Together, results from in vivo and in vitro studies suggest that ASC-J9 ® can suppress prostatitis by altering the autoimmune response induced by CD4 + T cell recruitment, and using ASC-J9 ® may help us to develop a potential new therapy to battle the prostatitis with little side effects.

Published

2016

35. Targeting fatty acid synthase with ASC-J9 suppresses proliferation and invasion of prostate cancer cells

Author

Hengheng Gao, Yanjun Li, Yuanjie Niu, Zhiqun Shang, Fu-Ju Chou, Chawnshang Chang, Soo Ok Lee, Simeng Wen, and Shuyuan Yeh

Subjects

0301 basic medicine, Cancer Research, medicine.medical_specialty, urologic and male genital diseases, 03 medical and health sciences, Prostate cancer, chemistry.chemical_compound, 0302 clinical medicine, DU145, Internal medicine, LNCaP, medicine, Enzalutamide, Molecular Biology, PI3K/AKT/mTOR pathway, biology, medicine.disease, Androgen receptor, Fatty acid synthase, 030104 developmental biology, Endocrinology, chemistry, 030220 oncology & carcinogenesis, Dihydrotestosterone, biology.protein, Cancer research, medicine.drug

Abstract

Fatty acid synthase (FASN) is the key enzyme for the control of fatty acid synthesis that contributes significantly to the prostate cancer (PCa) progression. It was reported that androgens were able to induce FASN expression in PCa, and addition of the anti-androgen Casodex might suppress the androgen-induced FASN expression. However, here we found androgen-deprivation-therapy (ADT) with anti-androgens Bicalutamide (Casodex) or Enzalutamide (MDV3100) had little effect to suppress FASN expression and FASN-mediated cell growth and invasion during the castration resistant stage when the androgen concentration is 1 nM DHT (dihydrotestosterone). In contrast, the newly developed androgen receptor (AR) degradation enhancer ASC-J9® suppressed FASN expression and FASN-mediated cell growth and invasion in various PCa cell lines at 1 nM DHT. Mechanism dissection found ASC-J9® could suppress significantly the FASN expression and FASN-mediated PCa progression via the AR-dependent pathway involving AR→SREBP-1→FASN signaling in AR-positive C4-2 and LNCaP cells and via the AR-independent pathway involving the modulation of PI3K/AKT→SREBP-1→FASN signaling in AR-negative PC-3 and DU145 cells. Together, these results suggest that FASN is one of the important mechanism why the current ADT eventually fails. ASC-J9® might represent a new potential therapeutic approach to suppress FASN-mediated PCa progression via both AR-dependent and AR-independent pathways during the castration resistant stage of PCa. © 2016 Wiley Periodicals, Inc.

Published

2016

36. The Protective Roles of Estrogen Receptor

Author

Wei, Zhu, Zhijian, Zhao, Fu-Ju, Chou, Li, Zuo, Tongzu, Liu, David, Bushinsky, Chawnshang, Chang, Guohua, Zeng, and Shuyuan, Yeh

Subjects

Male, Mice, Knockout, Calcium Oxalate, Hep G2 Cells, Kidney, Kidney Calculi, Mice, Oxidative Stress, HEK293 Cells, Liver, Animals, Estrogen Receptor beta, Humans, Female, Research Article

Abstract

Females develop kidney stones less frequently than males do. However, it is unclear if this gender difference is related to altered estrogen/estrogen receptor (ER) signaling. Here, we found that ER beta (ERβ) signals could suppress hepatic oxalate biosynthesis via transcriptional upregulation of the glyoxylate aminotransferase (AGT1) expression. Results from multiple in vitro renal cell lines also found that ERβ could function via suppressing the oxalate-induced injury through increasing the reactive oxygen species (ROS) production that led to a decrease of the renal calcium oxalate (CaOx) crystal deposition. Mechanism study results showed that ERβ suppressed oxalate-induced oxidative stress via transcriptional suppression of the NADPH oxidase subunit 2 (NOX2) through direct binding to the estrogen response elements (EREs) on the NOX2 5′ promoter. We further applied two in vivo mouse models with glyoxylate-induced renal CaOx crystal deposition and one rat model with 5% hydroxyl-L-proline-induced renal CaOx crystal deposition. Our data demonstrated that mice lacking ERβ (ERβKO) as well as mice or rats treated with ERβ antagonist PHTPP had increased renal CaOx crystal deposition with increased urinary oxalate excretion and renal ROS production. Importantly, targeting ERβ-regulated NOX2 with the NADPH oxidase inhibitor, apocynin, can suppress the renal CaOx crystal deposition in the in vivo mouse model. Together, results from multiple in vitro cell lines and in vivo mouse/rat models all demonstrate that ERβ may protect against renal CaOx crystal deposition via inhibiting the hepatic oxalate biosynthesis and oxidative stress-induced renal injury.

Published

2018

37. Androgen receptor (AR) degradation enhancer ASC-J9

Author

Max A, Cheng, Fu-Ju, Chou, Keliang, Wang, Rachel, Yang, Jie, Ding, Qiaoxia, Zhang, Gonghui, Li, Shuyuan, Yeh, Defeng, Xu, and Chawnshang, Chang

Subjects

Male, Curcumin, Cell Survival, United States Food and Drug Administration, Mice, Nude, Xenograft Model Antitumor Assays, United States, Cell Line, Solutions, Prostatic Neoplasms, Castration-Resistant, HEK293 Cells, Receptors, Androgen, Cell Line, Tumor, Proteolysis, Animals, Humans, Drug Approval, Cell Proliferation

Abstract

ASC-J9

Published

2017

38. MP87-13 ESTROGEN RECEPTOR α IN CANCER ASSOCIATED FIBROBLASTS SUPPRESSES PROSTATE CANCER INVASION VIA REDUCING CCL5, IL6 AND MACROPHAGE INFILTRATION IN THE TUMOR MICROENVIRONMENT

Author

Chiuan-Ren Yeh, Fu-Ju Chou, Yang Yang, Edward M. Messing, Spencer Slavin, Jie Luo, Keliang Wang, Chawnshang Chang, Shuyuan Yeh, and Matthew Truong

Subjects

Oncology, Tumor microenvironment, medicine.medical_specialty, business.industry, Urology, Macrophage infiltration, Estrogen receptor, medicine.disease, CCL5, Prostate cancer, Internal medicine, medicine, Cancer research, Cancer-Associated Fibroblasts, business

Published

2017

39. Natural killer cells suppress enzalutamide resistance and cell invasion in the castration resistant prostate cancer via targeting the androgen receptor splicing variant 7 (ARv7)

Author

Chawnshang Chang, Shuyuan Yeh, Fu-Ju Chou, Lei Li, Changyi Lin, and Shin-Jen Lin

Subjects

0301 basic medicine, Male, Cancer Research, Time Factors, urologic and male genital diseases, Prostate cancer, chemistry.chemical_compound, 0302 clinical medicine, Prostate, Cell Movement, Tumor Microenvironment, Protein Isoforms, EZH2, Killer Cells, Natural, Chemotaxis, Leukocyte, Prostatic Neoplasms, Castration-Resistant, medicine.anatomical_structure, Phenotype, Oncology, Receptors, Androgen, 030220 oncology & carcinogenesis, RNA splicing, Benzamides, Signal Transduction, Antineoplastic Agents, Hormonal, Down-Regulation, Mice, Nude, Biology, 03 medical and health sciences, Lymphocytes, Tumor-Infiltrating, Cell Line, Tumor, Nitriles, Phenylthiohydantoin, medicine, Enzalutamide, Animals, Humans, Enhancer of Zeste Homolog 2 Protein, Neoplasm Invasiveness, Cell Proliferation, Tumor microenvironment, Cell growth, Androgen Antagonists, medicine.disease, Xenograft Model Antitumor Assays, Coculture Techniques, Androgen receptor, Alternative Splicing, MicroRNAs, 030104 developmental biology, chemistry, Drug Resistance, Neoplasm, Immunology, Cancer research

Abstract

Despite the success of androgen-deprivation therapy (ADT) with the newly developed anti-androgen enzalutamide (Enz, also known as MDV3100) to suppress castration resistant prostate cancer (CRPC) in extending patient survival by an extra 4.8 months, eventually patients die with the development of Enz resistance that may involve the induction of the androgen receptor (AR) splicing variant ARv7. Here we identify an unrecognized role of Natural Killer (NK) cells in the prostate tumor microenvironment that can be better recruited to the CRPC cells to suppress ARv7 expression resulting in suppressing the Enz resistant CRPC cell growth and invasion. Mechanism dissection revealed that CRPC cells, compared to normal prostate epithelial cells, could recruit more NK cells that might then lead to alterations of the microRNA-34 and microRNA-449 to suppress both ARv7 expression and ARv7-induced EZH2 expression to suppress CRPC cell invasion. Together, these results identify a new potential therapy using recruited NK cells to better suppress the Enz resistance and cell invasion in CRPC at the later enzalutamide resistant stage.

Published

2017

40. Additional file 5: Figure S5. of Estrogen receptor α in cancer associated fibroblasts suppresses prostate cancer invasion via reducing CCL5, IL6 and macrophage infiltration in the tumor microenvironment

Author

Chiuan-Ren Yeh, Slavin, Spencer, Da, Jun, Iawen Hsu, Luo, Jie, Guang-Qian Xiao, Ding, Jie, Fu-Ju Chou, and Shuyuan Yeh

Abstract

CAF.ERα(+) can reduce the M2 marker expressions in the co-cultured macrophages (Mφ). (A) ERα in CAF cells inhibits M2-type macrophages transformation. (B) mRNA expressions of IL-4 and IL-13 in CAF cells were assayed by qPCR. mRNA expressions of M2 markers in macrophages were assayed by qPCR. After incubating with CM collected from CAF.ERα(+) or CAFERα(-), macrophages were collected to detect M2 markers by qPCR. *, P

Published

2016

41. Additional file 2: Figure S2. of Estrogen receptor α in cancer associated fibroblasts suppresses prostate cancer invasion via reducing CCL5, IL6 and macrophage infiltration in the tumor microenvironment

Author

Chiuan-Ren Yeh, Slavin, Spencer, Da, Jun, Iawen Hsu, Luo, Jie, Guang-Qian Xiao, Ding, Jie, Fu-Ju Chou, and Shuyuan Yeh

Abstract

CM from co-cultured CAF/macrophages affects PCa invasion in the 3D culture system. The carton illustrates the experimental system. CM was collected from co-culture of CAF.ERα(+) or CAF.ERα(-) cells and RAW264.7 cells or B6 primary macrophages (Mφ) for 24 hr. The CM was then used to treat CWR22Rv-1 cells for 3 days, then seeded in 3D environment for 12 days to form inter-acinar bridges. (A) Numbers of inter-aciniar bridges were counted per field and quantifications are in right panels. (B) Laminin 5 mRNA was quantified to show the invasive potential of the PCa cells in the 3D culture environment. At Day 12, RNA was extracted from PCa cells and expression levels of laminin 5 were measured by qPCR and quantifications are shown. (C) Expression of invasion related marker, MMP9, was also demonstrated by Q-PCR in CWR22Rv-1 cells pre-inoculated with the collected CM, quantification is shown. *, P

Published

2016

42. Additional file 1: Figure S1. of Estrogen receptor α in cancer associated fibroblasts suppresses prostate cancer invasion via reducing CCL5, IL6 and macrophage infiltration in the tumor microenvironment

Author

Chiuan-Ren Yeh, Slavin, Spencer, Da, Jun, Iawen Hsu, Luo, Jie, Guang-Qian Xiao, Ding, Jie, Fu-Ju Chou, and Shuyuan Yeh

Abstract

Stromal E2/ERα signals negatively-regulate the PCa invasion. CAF.ERα(-) or ERα(+) cells were treated with vehicle, E2 (10 nM) or/and ICI182,780 (10 μM) and co-cultured with macrophages for 48 hr. CMs were collected and added to 24-well plates and the PCa cells (C4-2) were seeded into inserted transwells pre-coated with matrigel. After 48 hr of incubation, invaded PCa cells were counted and compared, and quantitation data is shown below the images.

Published

2016

43. A nucleolus-predominant piggyBac transposase, NP-mPB, mediates elevated transposition efficiency in mammalian cells

Author

Chung-Liang Chien, Shu-Wha Lin, Amy T. Ku, Hong Nerng Ho, Tsung-Lin Yang, Jin-Bon Hong, Hsiang-Hsuan Fan, I-Shing Yu, I-Chang Su, Fu-Ju Chou, You-Tzung Chen, Yung-Hsin Huang, and T. Lee

Subjects

Nucleolus, lcsh:Medicine, Transposases, Transposition (music), Mice, DNA transposons, Molecular cell biology, Transgenes, lcsh:Science, Transposase, Cells, Cultured, Genetics, Zinc finger, Mammals, Multidisciplinary, Genome, Stem Cells, Zinc Fingers, Gene Therapy, Genomics, Cellular Structures, Cell biology, Functional Genomics, Codon usage bias, Cellular Types, Genetic Engineering, Functional genomics, Transposons, Cell Nucleolus, Research Article, Biotechnology, Transposable element, Biology, Cell Line, Tumor, Animals, Humans, Codon, Embryonic Stem Cells, lcsh:R, Human Genetics, Fusion protein, Mutagenesis, Insertional, HEK293 Cells, DNA Transposable Elements, HIV-1, lcsh:Q, HeLa Cells

Abstract

PiggyBac is a prevalent transposon system used to deliver transgenes and functionally explore the mammalian untouched genomic territory. The important features of piggyBac transposon are the relatively low insertion site preference and the ability of seamless removal from genome, which allow its potential uses in functional genomics and regenerative medicine. Efforts to increase its transposition efficiency in mammals were made through engineering the corresponding transposase (PBase) codon usage to enhance its expression level and through screening for mutant PBase variants with increased enzyme activity. To improve the safety for its potential use in regenerative medicine applications, site-specific transposition was achieved by using engineered zinc finger- and Gal4-fused PBases. An excision-prone PBase variant has also been successfully developed. Here we describe the construction of a nucleolus-predominant PBase, NP-mPB, by adding a nucleolus-predominant (NP) signal peptide from HIV-1 TAT protein to a mammalian codon-optimized PBase (mPB). Although there is a predominant fraction of the NP-mPB-tGFP fusion proteins concentrated in the nucleoli, an insertion site preference toward nucleolar organizer regions is not detected. Instead a 3-4 fold increase in piggyBac transposition efficiency is reproducibly observed in mouse and human cells.

Published

2013

44. Abstract 3495: A nucleolus-predominant piggyBac transposase increases transposition efficiency in human cancer cells

Author

You-Tzung Chen, T. Lee, Amy T. Ku, Yung-Hsin Huang, I-Chang Su, Fu-Ju Chou, Jin-Bon Hong, and Hsiang-Hsuan Fan

Subjects

Genetics, Transposition (music), Transposable element, Signal peptide, Cancer Research, Oncology, Nucleolus, Codon usage bias, Mutant, Biology, Fusion protein, Transposase

Abstract

PiggyBac is a prevalent transposon system used to deliver transgenes into and to functionally explore the mammalian untouched genomic territory. Efforts to increase its transposition efficiency in mammals through engineering the corresponding transposase (PBase) codon usage to improve its expression level is reported. The hyperactive PBase developed through screening for mutant variants are also established. To increase the safety for its potential use in regenerative medicine applications, site-specific transposition using engineered Zn finger-, Gal4- fused PBase, and an excision-prone PBase variant are also successfully developed. Here we report the construction of a nucleolus predominant PBase, NP-mPB, by adding a nucleolus predominant (NP) signal peptide from HIV-1 TAT protein to a mammalian codon optimized PBase (mPB). Although there is a predominant fraction of the NP-mPB-tGFP fusion proteins concentrated in the nucleoli, an insertion site preference toward nuleolar organizer regions (NORs) is not detected. Instead a 3-fold increase in piggyBac transposition efficiency is found in human cancer cell line. Citation Format: Jin-Bon Hong, Fu-Ju Chou, Amy T. Ku, Hsiang-Hsuan Fan, Tung-Lung Lee, Yung-Hsin Huang, I-Chang Su, You-Tzung Chen. A nucleolus-predominant piggyBac transposase increases transposition efficiency in human cancer cells. [abstract]. In: Proceedings of the 105th Annual Meeting of the American Association for Cancer Research; 2014 Apr 5-9; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2014;74(19 Suppl):Abstract nr 3495. doi:10.1158/1538-7445.AM2014-3495

Published

2014

45. R26R-GR: A Cre-Activable Dual Fluorescent Protein Reporter Mouse

Author

Shu-Wha Lin, Ke-Han Huang, Yu-Chen Hsu, Shuo-Ting Yen, Silvia K. Nicolis, Richard R. Behringer, I-Shing Yu, Chung-Liang Chien, You-Tzung Chen, I-Chang Su, Fu-Ju Chou, Hsiang-Hsuan Fan, Jin-Bon Hong, Rebecca Favaro, Cheng-Yen Huang, Ming-Shian Tsai, Chang-Ching Lin, Wei-Le Wang, Tsung-Lin Yang, Amy T. Ku, Chuan Wei Jang, Kang-Yi Su, Chen, Y, Tsai, M, Yang, T, Ku, A, Huang, K, Huang, C, Chou, F, Fan, H, Hong, J, Yen, S, Wang, W, Lin, C, Hsu, Y, Su, K, Su, I, Jang, C, Behringer, R, Favaro, R, Nicolis, S, Chien, C, Lin, S, and Yu, I

Subjects

Embryology, Anatomy and Physiology, Mouse, lcsh:Medicine, Gene Expression, Metastasis, Green fluorescent protein, Mice, Bimolecular fluorescence complementation, 0302 clinical medicine, Nucleic Acids, Molecular Cell Biology, Basic Cancer Research, Morphogenesis, Fluorescence microscope, lcsh:Science, Cells, Cultured, 0303 health sciences, Multidisciplinary, Stem Cells, Cell Differentiation, Intracellular vesicle, Animal Models, Fluorescence, Cellular Structures, Cell biology, Oncology, Medicine, Membranes and Sorting, Cellular Types, Genetic Engineering, Cell Division, Research Article, Biotechnology, Cell Physiology, Green Fluorescent Proteins, Mitosis, Mice, Transgenic, Biology, 03 medical and health sciences, Model Organisms, Genetics, Cancer Genetics, Animals, Alleles, 030304 developmental biology, Reporter gene, Tissue Engineering, Integrases, lcsh:R, reporter gene, transgene, Molecular biology, Transplantation, lcsh:Q, mCherry, Organism Development, Animal Genetics, 030217 neurology & neurosurgery, Developmental Biology

Abstract

Green fluorescent protein (GFP) and its derivatives are the most widely used molecular reporters for live cell imagining. The development of organelle-specific fusion fluorescent proteins improves the labeling resolution to a higher level. Here we generate a R26 dual fluorescent protein reporter mouse, activated by Cre-mediated DNA recombination, labeling target cells with a chromatin-specific enhanced green fluorescence protein (EGFP) and a plasma membrane-anchored monomeric cherry fluorescent protein (mCherry). This dual labeling allows the visualization of mitotic events, cell shapes and intracellular vesicle behaviors. We expect this reporter mouse to have a wide application in developmental biology studies, transplantation experiments as well as cancer/stem cell lineage tracing.

Published

2012

46. Estrogen receptor α in cancer associated fibroblasts suppresses prostate cancer invasion via reducing CCL5, IL6 and macrophage infiltration in the tumor microenvironment.

Author

Chiuan-Ren Yeh, Spencer Slavin, Jun Da, Iawen Hsu, Jie Luo, Guang-Qian Xiao, Jie Ding, Fu-Ju Chou, and Shuyuan Yeh

Subjects

FIBROBLASTS, EPITHELIAL cell tumors, ESTROGEN receptors, TUMOR markers, PROSTATE cancer

Abstract

Background: Cancer associated fibroblasts (CAF) play important roles in tumor growth that involves inflammation and epithelial cell differentiation. Early studies suggested that estrogen receptor alpha (ERα) was expressed in stromal cells in normal prostates and prostate cancer (PCa), but the detailed functions of stromal ERα in the PCa remain to be further elucidated. Methods: Migration and invasion assays demonstrated the presence of high levels of ERα in CAF cells (CAF.ERα(+)) suppressed PCa invasion via influencing the infiltration of tumor associated macrophages. ERα decreased CAF CCL5 secretion via suppressing the CCL5 promoter activity was examined by luciferase assay. ERα decreased CCL5 and IL-6 expression in conditioned media that was collected from CAF cell only or CAF cell co-cultured with macrophages as measured by ELISA assay. Results: Both in vitro and in vivo studies demonstrated CAF.ERα(+) led to a reduced macrophage migration toward PCa via inhibiting CAF cells secreted chemokine CCL5. This CAF.ERα(+) suppressed macrophage infiltration affected the neighboring PCa cells invasion and the reduced invasiveness of PCa cells are at least partly due to reduced IL6 expression in the macrophages and CAF. Conclusion: Our data suggest that CAF ERα could be applied as a prognostic marker to predict cancer progression, and targeting CCL5 and IL6 may be applied as an alternative therapeutic approach to reduce M2 type macrophages and PCa invasion in PCa patients with low or little ERα expression in CAF cells. [ABSTRACT FROM AUTHOR]

Published

2016

47. Additional file 4: Figure S4. of Estrogen receptor α in cancer associated fibroblasts suppresses prostate cancer invasion via reducing CCL5, IL6 and macrophage infiltration in the tumor microenvironment

Author

Chiuan-Ren Yeh, Slavin, Spencer, Da, Jun, Iawen Hsu, Luo, Jie, Guang-Qian Xiao, Ding, Jie, Fu-Ju Chou, and Shuyuan Yeh

Subjects

3. Good health

Abstract

Co-culture of CAF ERα(+) cells and PCa cells can decrease PCa cell invasion through changing IL-6 expression. CM was collected from CAF.ERα(-) and CAF.ERα(+) cells together with or without with IL-6 neutralizing antibody (Anti IL-6) or IgG (control) into bottom wells of 24-well transwell systems. We then trypsinized and seeded CWR22Rv-1 and C4-2 cells (1x105) into matrigel-pre-coated transwells for invasion assay. Quantitation is at right.

48. Additional file 3: Figure S3. of Estrogen receptor α in cancer associated fibroblasts suppresses prostate cancer invasion via reducing CCL5, IL6 and macrophage infiltration in the tumor microenvironment

Author

Chiuan-Ren Yeh, Slavin, Spencer, Da, Jun, Iawen Hsu, Luo, Jie, Guang-Qian Xiao, Ding, Jie, Fu-Ju Chou, and Shuyuan Yeh

Subjects

3. Good health

Abstract

Infiltrated Macrophages (Mφ) can affect the macrophages recruited-related gene profiles in CAF cells. CAF.ERα(-) or CAF.ERα(+) cells were co-cultured with macrophages for 2 days. We compared gene profiles of macrophages attraction related CCL5 and IL6 in CAF.ERα(+) and CAF.ERα(-) using qPCR.

49. Estrogen receptor α in cancer associated fibroblasts suppresses prostate cancer invasion via reducing CCL5, IL6 and macrophage infiltration in the tumor microenvironment

Author

Jie Luo, Jie Ding, Chiuan-Ren Yeh, Spencer Slavin, Iawen Hsu, Jun Da, Fu-Ju Chou, Shuyuan Yeh, and Guang-Qian Xiao

Subjects

Male, 0301 basic medicine, Chemokine, Cancer Research, Stromal cell, Cell, Mice, Nude, Estrogen receptor, Models, Biological, CCL5, 03 medical and health sciences, 0302 clinical medicine, Cell Movement, Cell Line, Tumor, Tumor Microenvironment, medicine, Animals, Humans, Neoplasm Invasiveness, CAF, Chemokine CCL5, ERα, Epithelial cell differentiation, Tumor microenvironment, Prostate cancer, Tumor associated macrophages, biology, Interleukin-6, Research, Macrophages, Estrogen Receptor alpha, Prostatic Neoplasms, Fibroblasts, IL6, Coculture Techniques, 3. Good health, Disease Models, Animal, 030104 developmental biology, medicine.anatomical_structure, Oncology, Culture Media, Conditioned, 030220 oncology & carcinogenesis, Cancer research, biology.protein, Molecular Medicine, Estrogen receptor alpha

Abstract

Background Cancer associated fibroblasts (CAF) play important roles in tumor growth that involves inflammation and epithelial cell differentiation. Early studies suggested that estrogen receptor alpha (ERα) was expressed in stromal cells in normal prostates and prostate cancer (PCa), but the detailed functions of stromal ERα in the PCa remain to be further elucidated. Methods Migration and invasion assays demonstrated the presence of high levels of ERα in CAF cells (CAF.ERα(+)) suppressed PCa invasion via influencing the infiltration of tumor associated macrophages. ERα decreased CAF CCL5 secretion via suppressing the CCL5 promoter activity was examined by luciferase assay. ERα decreased CCL5 and IL-6 expression in conditioned media that was collected from CAF cell only or CAF cell co-cultured with macrophages as measured by ELISA assay. Results Both in vitro and in vivo studies demonstrated CAF.ERα(+) led to a reduced macrophage migration toward PCa via inhibiting CAF cells secreted chemokine CCL5. This CAF.ERα(+) suppressed macrophage infiltration affected the neighboring PCa cells invasion and the reduced invasiveness of PCa cells are at least partly due to reduced IL6 expression in the macrophages and CAF. Conclusion Our data suggest that CAF ERα could be applied as a prognostic marker to predict cancer progression, and targeting CCL5 and IL6 may be applied as an alternative therapeutic approach to reduce M2 type macrophages and PCa invasion in PCa patients with low or little ERα expression in CAF cells. Electronic supplementary material The online version of this article (doi:10.1186/s12943-015-0488-9) contains supplementary material, which is available to authorized users.

50. Additional file 4: Figure S4. of Estrogen receptor α in cancer associated fibroblasts suppresses prostate cancer invasion via reducing CCL5, IL6 and macrophage infiltration in the tumor microenvironment

Author

Chiuan-Ren Yeh, Slavin, Spencer, Da, Jun, Iawen Hsu, Luo, Jie, Guang-Qian Xiao, Ding, Jie, Fu-Ju Chou, and Shuyuan Yeh

Subjects

3. Good health

Abstract

Co-culture of CAF ERα(+) cells and PCa cells can decrease PCa cell invasion through changing IL-6 expression. CM was collected from CAF.ERα(-) and CAF.ERα(+) cells together with or without with IL-6 neutralizing antibody (Anti IL-6) or IgG (control) into bottom wells of 24-well transwell systems. We then trypsinized and seeded CWR22Rv-1 and C4-2 cells (1x105) into matrigel-pre-coated transwells for invasion assay. Quantitation is at right.