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1. AXL-initiated paracrine activation of pSTAT3 enhances mesenchymal and vasculogenic supportive features of tumor-associated macrophages

Author

Chia-Nung Hung, Meizhen Chen, Daniel T. DeArmond, Cheryl H.-L. Chiu, Catherine A. Limboy, Xi Tan, Meena Kusi, Chih-Wei Chou, Li-Ling Lin, Zhao Zhang, Chiou-Miin Wang, Chun-Liang Chen, Kohzoh Mitsuya, Pawel A. Osmulski, Maria E. Gaczynska, Nameer B. Kirma, Ratna K. Vadlamudi, Don L. Gibbons, Steve Warner, Andrew J. Brenner, Daruka Mahadevan, Joel E. Michalek, Tim H.-M. Huang, and Josephine A. Taverna

Subjects
CP: Cancer, CP: Immunology, Biology (General), QH301-705.5
Abstract

Summary: Tumor-associated macrophages (TAMs) are integral to the development of complex tumor microenvironments (TMEs) and can execute disparate cellular programs in response to extracellular cues. However, upstream signaling processes underpinning this phenotypic plasticity remain to be elucidated. Here, we report that concordant AXL-STAT3 signaling in TAMs is triggered by lung cancer cells or cancer-associated fibroblasts in the cytokine milieu. This paracrine action drives TAM differentiation toward a tumor-promoting “M2-like” phenotype with upregulation of CD163 and putative mesenchymal markers, contributing to TAM heterogeneity and diverse cellular functions. One of the upregulated markers, CD44, mediated by AXL-IL-11-pSTAT3 signaling cascade, enhances macrophage ability to interact with endothelial cells and facilitate formation of primitive vascular networks. We also found that AXL-STAT3 inhibition can impede the recruitment of TAMs in a xenograft mouse model, thereby suppressing tumor growth. These findings suggest the potential application of AXL-STAT3-related markers to quantitatively assess metastatic potential and inform therapeutic strategies in lung cancer.

Published
2023
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2. Modeling and analysis of Hi-C data by HiSIF identifies characteristic promoter-distal loops

Author

Yufan Zhou, Xiaolong Cheng, Yini Yang, Tian Li, Jingwei Li, Tim H.-M. Huang, Junbai Wang, Shili Lin, and Victor X. Jin

Subjects
Medicine, Genetics, QH426-470
Abstract

Abstract Current computational methods on Hi-C analysis focused on identifying Mb-size domains often failed to unveil the underlying functional and mechanistic relationship of chromatin structure and gene regulation. We developed a novel computational method HiSIF to identify genome-wide interacting loci. We illustrated HiSIF outperformed other tools for identifying chromatin loops. We applied it to Hi-C data in breast cancer cells and identified 21 genes with gained loops showing worse relapse-free survival in endocrine-treated patients, suggesting the genes with enhanced loops can be used for prognostic signatures for measuring the outcome of the endocrine treatment. HiSIF is available at https://github.com/yufanzhouonline/HiSIF .

Published
2020
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3. Age-associated genes in human mammary gland drive human breast cancer progression

Author

Xiang Gu, Bingzhi Wang, Haiyan Zhu, You Zhou, Aaron M. Horning, Tim H-M Huang, Yidong Chen, Peter Houghton, Zhao Lai, Joel E. Michalek, and Lu-Zhe Sun

Subjects
Aging, Breast cancer, Transcriptomics, Gene expression, Relapse-free survival, Tumor progression, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract Background Aging is a comorbidity of breast cancer suggesting that aging-associated transcriptome changes may promote breast cancer progression. However, the mechanism underlying the age effect on breast cancer remains poorly understood. Method We analyzed transcriptomics of the matched normal breast tissues from the 82 breast cancer patients in The Cancer Genome Atlas (TCGA) dataset with linear regression for genes with age-associated expression that are not associated with menopause. We also analyzed differentially expressed genes between the paired tumor and non-tumor breast tissues in TCGA for the identification of age and breast cancer (ABC)-associated genes. A few of these genes were selected for further investigation of their malignancy-regulating activities with in vitro and in vivo assays. Results We identified 148 upregulated and 189 downregulated genes during aging. Overlapping of tumor-associated genes between normal and tumor tissues with age-dependent genes resulted in 14 upregulated and 24 downregulated genes that were both age and breast cancer associated. These genes are predictive in relapse-free survival, indicative of their potential tumor promoting or suppressive functions, respectively. Knockdown of two upregulated genes (DYNLT3 and P4HA3) or overexpression of the downregulated ALX4 significantly reduced breast cancer cell proliferation, migration, and clonogenicity. Moreover, knockdown of P4HA3 reduced growth and metastasis whereas overexpression of ALX4 inhibited the growth of xenografted breast cancer cells in mice. Conclusion Our study suggests that transcriptome alterations during aging may contribute to breast tumorigenesis. DYNLT3, P4HA3, and ALX4 play significant roles in breast cancer progression.

Published
2020
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4. ERα-related chromothripsis enhances concordant gene transcription on chromosome 17q11.1-q24.1 in luminal breast cancer

Author

Chun-Lin Lin, Xi Tan, Meizhen Chen, Meena Kusi, Chia-Nung Hung, Chih-Wei Chou, Ya-Ting Hsu, Chiou-Miin Wang, Nameer Kirma, Chun-Liang Chen, Ching-Hung Lin, Kate I. Lathrop, Richard Elledge, Virginia G. Kaklamani, Kohzoh Mitsuya, and Tim H.-M. Huang

Subjects
Luminal subtype breast cancer, Chromosomal rearrangement, ERα, Chromothripsis, Concordant transcription, Druggable target, Internal medicine, RC31-1245, Genetics, QH426-470
Abstract

Abstract Background Chromothripsis is an event of genomic instability leading to complex chromosomal alterations in cancer. Frequent long-range chromatin interactions between transcription factors (TFs) and targets may promote extensive translocations and copy-number alterations in proximal contact regions through inappropriate DNA stitching. Although studies have proposed models to explain the initiation of chromothripsis, few discussed how TFs influence this process for tumor progression. Methods This study focused on genomic alterations in amplification associated regions within chromosome 17. Inter−/intra-chromosomal rearrangements were analyzed using whole genome sequencing data of breast tumors in the Cancer Genome Atlas (TCGA) cohort. Common ERα binding sites were defined based on MCF-7, T47D, and MDA-MB-134 breast cancer cell lines using univariate K-means clustering methods. Nanopore sequencing technology was applied to validate frequent rearrangements detected between ATC loci on 17q23 and an ERα hub on 20q13. The efficacy of pharmacological inhibition of a potentially druggable target gene on 17q23 was evaluated using breast cancer cell lines and patient-derived circulating breast tumor cells. Results There are five adjoining regions from 17q11.1 to 17q24.1 being hotspots of chromothripsis. Inter−/intra-chromosomal rearrangements of these regions occurred more frequently in ERα-positive tumors than in ERα-negative tumors. In addition, the locations of the rearrangements were often mapped within or close to dense ERα binding sites localized on these five 17q regions or other chromosomes. This chromothriptic event was linked to concordant upregulation of 96 loci that predominantly regulate cell-cycle machineries in advanced luminal tumors. Genome-editing analysis confirmed that an ERα hub localized on 20q13 coordinately regulates a subset of these loci localized on 17q23 through long-range chromosome interactions. One of these loci, Tousled Like Kinase 2 (TLK2) known to participate in DNA damage checkpoint control, is an actionable target using phenothiazine antipsychotics (PTZs). The antiproliferative effect of PTZs was prominent in high TLK2-expressing cells, compared to low expressing cells. Conclusion This study demonstrates a new approach for identifying tumorigenic drivers from genomic regions highly susceptible to ERα-related chromothripsis. We found a group of luminal breast tumors displaying 17q-related chromothripsis for which antipsychotics can be repurposed as treatment adjuncts.

Published
2020
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6. Integration of DNA methylation and gene transcription across nineteen cell types reveals cell type-specific and genomic region-dependent regulatory patterns

Author

Binhua Tang, Yufan Zhou, Chiou-Miin Wang, Tim H.-M. Huang, and Victor X. Jin

Subjects
Medicine, Science
Abstract

Abstract Despite numerous studies done on understanding the role of DNA methylation, limited work has focused on systems integration of cell type-specific interplay between DNA methylation and gene transcription. Through a genome-wide analysis of DNA methylation across 19 cell types with T-47D as reference, we identified 106,252 cell type-specific differentially-methylated CpGs categorized into 7,537 differentially (46.6% hyper- and 53.4% hypo-) methylated regions. We found 44% promoter regions and 75% CpG islands were T-47D cell type-specific methylated. Pyrosequencing experiments validated the cell type-specific methylation across three benchmark cell lines. Interestingly, these DMRs overlapped with 1,145 known tumor suppressor genes. We then developed a Bayesian Gaussian Regression model to measure the relationship among DNA methylation, genomic segment distribution, differential gene expression and tumor suppressor gene status. The model uncovered that 3′UTR methylation has much less impact on transcriptional activity than other regions. Integration of DNA methylation and 82 transcription factor binding information across the 19 cell types suggested diverse interplay patterns between the two regulators. Our integrative analysis reveals cell type-specific and genomic region-dependent regulatory patterns and provides a perspective for integrating hundreds of various omics-seq data together.

Published
2017
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7. Supplementary Tables 1 - 5 from A Phase Ib Study of the Effects of Black Raspberries on Rectal Polyps in Patients with Familial Adenomatous Polyposis

Author

Gary D. Stoner, Wendy L. Frankel, Tim H.-M. Huang, Pengyuan Liu, Claire Seguin, Christine L. Sardo Molmenti, Chieh-Ti Kuo, Henrietta Hasson, Carol A. Burke, and Li-Shu Wang

Abstract

PDF file - 50KB, Supplemental Table 1. Some chemopreventive agents in black raspberry powder. Supplemental Table 2. Vender information and dilution for primary antibodies. Supplemental Table 3. List of primer sequences for MassARRAY analysis. Supplemental Table 4. Patient characteristics and polyp data from all 14 patients. Supplemental Table 5. Effects of oral BRBs and BRB suppositories on the development of adenomas.

Published
2023
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12. Data from A Phase Ib Study of the Effects of Black Raspberries on Rectal Polyps in Patients with Familial Adenomatous Polyposis

Author

Gary D. Stoner, Wendy L. Frankel, Tim H.-M. Huang, Pengyuan Liu, Claire Seguin, Christine L. Sardo Molmenti, Chieh-Ti Kuo, Henrietta Hasson, Carol A. Burke, and Li-Shu Wang

Abstract

Familial adenomatous polyposis (FAP) is characterized by the early onset of colonic polyposis and a high risk for colorectal cancer. FAP is treated by colectomy followed by lifelong removal of rectal polyps. This study determined whether black raspberries (BRBs) might regress rectal polyps in patients with FAP. Fourteen patients with FAP were treated with BRBs daily for 9 months. Seven patients received BRB powder orally plus two BRB suppositories inserted into the rectum at bedtime. The other 7 received an oral placebo plus the suppositories. Rectal polyp counts and polyp sizes were obtained at time zero and after 9 months of BRB treatment. Polyps and adjacent normal tissue were collected at both time points. The burden (P = 0.036) but not number (P = 0.069) of rectal polyps was significantly decreased. No benefit was noted with the addition of oral BRBs. Three patients were nonresponders. BRBs significantly decreased cellular proliferation, DNA methylation methyl transferase 1 protein expression, and p16 promoter methylation, but not promoter methylation of the Wnt pathway antagonists, SFRP2 and WIF1, in rectal polyps (adenomas) from responders but not from nonresponders. The MBD-seq assay revealed more demethylated transcription start sites (TSS), including those for miRNAs, in BRB-treated adenomas from the responders. In conclusion, BRB suppositories seem sufficient for regressing rectal polyps in patients with FAP. Cancer Prev Res; 7(7); 666–74. ©2014 AACR.

Published
2023
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13. Data from Modulation of Genetic and Epigenetic Biomarkers of Colorectal Cancer in Humans by Black Raspberries: A Phase I Pilot Study

Author

Gary Stoner, Guang-Yu Yang, John Winston, Yiqing Xu, Dennis Pearl, Wendy Frankel, Steven Schwartz, Ken Riedl, Tim H.-M. Huang, Edward Martin, Claire Seguin, Christine Sardo, Yi-Wen Huang, Mark Arnold, and Li-Shu Wang

Abstract

Purpose: This study evaluated the effects of black raspberries (BRBs) on biomarkers of tumor development in the human colon and rectum including methylation of relevant tumor suppressor genes, cell proliferation, apoptosis, angiogenesis, and expression of Wnt pathway genes.Experimental Design: Biopsies of adjacent normal tissues and colorectal adenocarcinomas were taken from 20 patients before and after oral consumption of BRB powder (60 g/d) for 1–9 weeks. Methylation status of promoter regions of five tumor suppressor genes was quantified. Protein expression of DNA methyltransferase 1 (DNMT1) and genes associated with cell proliferation, apoptosis, angiogenesis, and Wnt signaling were measured.Results: The methylation of three Wnt inhibitors, SFRP2, SFRP5, and WIF1, upstream genes in Wnt pathway, and PAX6a, a developmental regulator, was modulated in a protective direction by BRBs in normal tissues and in colorectal tumors only in patients who received BRB treatment for an average of 4 weeks, but not in all 20 patients with 1–9 weeks of BRB treatment. This was associated with decreased expression of DNMT1. BRBs modulated expression of genes associated with Wnt pathway, proliferation, apoptosis, and angiogenesis in a protective direction.Conclusions: These data provide evidence of the ability of BRBs to demethylate tumor suppressor genes and to modulate other biomarkers of tumor development in the human colon and rectum. While demethylation of genes did not occur in colorectal tissues from all treated patients, the positive results with the secondary endpoints suggest that additional studies of BRBs for the prevention of colorectal cancer in humans now appear warranted. Clin Cancer Res; 17(3); 598–610. ©2010 AACR.

Published
2023
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15. Supplementary Table from A First-in-Class Inhibitor of ER Coregulator PELP1 Targets ER+ Breast Cancer

Author

Ratna K. Vadlamudi, Hariprasad Vankayalapati, Manjeet K. Rao, Tim H.-M. Huang, Stan McHardy, Rajeshwar R. Tekmal, Gangadhara R. Sareddy, Daohong Zhou, Yaxia Yuan, Ganesh V. Raj, Zhao Lai, Yidong Chen, Bindu Santhamma, Ben H. Park, Shihong Ma, Xiaonan Li, John R. Sanchez, Behnam Ebrahimi, Uday P. Pratap, Junhao Liu, Zexuan Liu, Samaya Krishnan, Dimple Chakravarty, Monica Mann, Suryavathi Viswanadhapalli, and Kristin A. Altwegg

Abstract

Supplementary Table from A First-in-Class Inhibitor of ER Coregulator PELP1 Targets ER+ Breast Cancer

Published
2023
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16. Data from PRC2-Mediated Epigenetic Suppression of Type I IFN-STAT2 Signaling Impairs Antitumor Immunity in Luminal Breast Cancer

Author

Kexin Xu, Tim H.-M. Huang, Xi Tan, Tyler Curiel, Zhenming Xu, Nu Zhang, Douglas Pechacek, Jessica Scheirer, Richard de la Rosa, Yiji Liao, Mei Yang, Yanming Wu, Zhao Zhang, Ji Hoon Lee, and Juyeong Hong

Abstract

The immunosuppressive tumor microenvironment in some cancer types, such as luminal breast cancer, supports tumor growth and limits therapeutic efficacy. Identifying approaches to induce an immunostimulatory environment could help improve cancer treatment. Here, we demonstrate that inhibition of cancer-intrinsic EZH2 promotes antitumor immunity in estrogen receptor α–positive (ERα+) breast cancer. EZH2 is a component of the polycomb-repressive complex 2 (PRC2) complex, which catalyzes trimethylation of histone H3 at lysine 27 (H3K27me3). A 53-gene PRC2 activity signature was closely associated with the immune responses of ERα+ breast cancer cells. The stimulatory effects of EZH2 inhibition on immune surveillance required specific activation of type I IFN signaling. Integrative analysis of PRC2-repressed genes and genome-wide H3K27me3 landscape revealed that type I IFN ligands are epigenetically silenced by H3K27me3. Notably, the transcription factor STAT2, but not STAT1, mediated the immunostimulatory functions of type I IFN signaling. Following EZH2 inhibition, STAT2 was recruited to the promoters of IFN-stimulated genes even in the absence of the cytokines, suggesting the formation of an autocrine IFN-STAT2 axis. In patients with luminal breast cancer, high levels of EZH2 and low levels of STAT2 were associated with the worst antitumor immune responses. Collectively, this work paves the way for the development of an effective therapeutic strategy that may reverse immunosuppression in cancer.Significance:Inhibition of EZH2 activates a type I IFN-STAT2 signaling axis and provides a therapeutic strategy to stimulate antitumor immunity and therapy responsiveness in immunologically cold luminal breast cancer.

Published
2023
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17. Supplementary Methods, Figure Legend, Table 1 from Mapping Geographic Zones of Cancer Risk with Epigenetic Biomarkers in Normal Breast Tissue

Author

Tim H.-M. Huang, Timothy J. Yeatman, Charis Eng, Charles L. Shapiro, Yu-Wei Leu, Frank Weber, Barbara Centeno, Nils M. Diaz, Rulong Z. Shen, Joseph C. Liu, Ashraf Ibrahim, Chinnambally Venkataramu, and Pearlly S. Yan

Abstract

Supplementary Methods, Figure Legend, Table 1 from Mapping Geographic Zones of Cancer Risk with Epigenetic Biomarkers in Normal Breast Tissue

Published
2023
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19. Supplementary Data from A First-in-Class Inhibitor of ER Coregulator PELP1 Targets ER+ Breast Cancer

Author

Ratna K. Vadlamudi, Hariprasad Vankayalapati, Manjeet K. Rao, Tim H.-M. Huang, Stan McHardy, Rajeshwar R. Tekmal, Gangadhara R. Sareddy, Daohong Zhou, Yaxia Yuan, Ganesh V. Raj, Zhao Lai, Yidong Chen, Bindu Santhamma, Ben H. Park, Shihong Ma, Xiaonan Li, John R. Sanchez, Behnam Ebrahimi, Uday P. Pratap, Junhao Liu, Zexuan Liu, Samaya Krishnan, Dimple Chakravarty, Monica Mann, Suryavathi Viswanadhapalli, and Kristin A. Altwegg

Abstract

Supplementary Data from A First-in-Class Inhibitor of ER Coregulator PELP1 Targets ER+ Breast Cancer

Published
2023
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20. Supplementary Figure 1 from Mapping Geographic Zones of Cancer Risk with Epigenetic Biomarkers in Normal Breast Tissue

Author

Tim H.-M. Huang, Timothy J. Yeatman, Charis Eng, Charles L. Shapiro, Yu-Wei Leu, Frank Weber, Barbara Centeno, Nils M. Diaz, Rulong Z. Shen, Joseph C. Liu, Ashraf Ibrahim, Chinnambally Venkataramu, and Pearlly S. Yan

Abstract

Supplementary Figure 1 from Mapping Geographic Zones of Cancer Risk with Epigenetic Biomarkers in Normal Breast Tissue

Published
2023
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21. Data from Antimitogenic and chemosensitizing effects of the methylation inhibitor zebularine in ovarian cancer

Author

Kenneth P. Nephew, Tim H-M. Huang, David G. Skalnik, Suzanne Young, Teresa Craft, Pearlly Yan, and Curtis Balch

Abstract

Deoxycytosine methylation within CpG islands of tumor suppressor genes plays a prominent role in the development and progression of drug-resistant ovarian cancer. Consequently, epigenetic therapies directed toward tumor suppressor demethylation/reexpression could potentially reverse malignant phenotypes and chemosensitize recalcitrant tumors. In this report, we examined the demethylating agent zebularine [1-(β-d-ribofuranosyl)-1,2-dihydropyrimidin-2-one], in comparison with the well-known methylation inhibitor 5-aza-2′-deoxycytidine (5-aza-dC), for its ability to inhibit ovarian cancer cell proliferation and to demethylate and induce tumor suppressor genes. Zebularine exerted significant (>5-aza-dC) antiproliferative effects against the ovarian cancer cell lines Hey, A2780, and the cisplatin-resistant A2780/CP in a dose-dependent manner (65% versus 35% inhibition at 48 hours, zebularine versus 5-aza-dC). Moreover, 48-hour treatment with 0.2 mmol/L zebularine significantly induced demethylation of the tumor suppressors ras-associated domain family 1A and human MutL homologue-1. RASSF1A gene reexpression was also observed, as was reexpression of two other tumor suppressors, ARHI and BLU, although levels differed from those induced by 5-aza-dC. Global analyses of DNA methylation revealed similar overall demethylation (2.5- to 3-fold) by 5-aza-dC and zebularine as determined by methyl acceptance assay. However, differences in demethylation of individual loci were observed as determined by differential methylation hybridization. Finally, we found that zebularine could resensitize the drug-resistant cell line A2780/CP to cisplatin, with a 16-fold reduction in the IC50 of that conventional agent. In summary, zebularine seems to be a promising clinical candidate, singly or combined with conventional regimens, for the therapy of drug-resistant ovarian cancer.

Published
2023
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23. Supplementary Table S2 from Single-Cell RNA-seq Reveals a Subpopulation of Prostate Cancer Cells with Enhanced Cell-Cycle–Related Transcription and Attenuated Androgen Response

Author

Tim H.-M. Huang, Chun-Liang Chen, Victor X. Jin, Qianben Wang, Wei-Ting Chao, Zhijie Liu, LuZhe Sun, Addanki P. Kumar, Michael A. Liss, Nameer B. Kirma, Chun-Lin Lin, Chiou-Miin Wang, Chia-Nung Hung, Rohit R. Jadhav, Anna D. Louie, Che-Kuang Lin, Yao Wang, and Aaron M. Horning

Abstract

Supplementary Table S2: qPCR primer for subcluster E genes

Published
2023
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24. Data from Contacts with Macrophages Promote an Aggressive Nanomechanical Phenotype of Circulating Tumor Cells in Prostate Cancer

Author

Maria E. Gaczynska, Tim H.-M. Huang, Ian M. Thompson, Michael A. Liss, Josephine A. Taverna, Chun-Liang Chen, Nameer B. Kirma, Devalingam Mahalingam, Chia-Nung Hung, Chun-Lin Lin, Yusheng Qian, Meizhen Chen, Alessandra Cunsolo, and Pawel A. Osmulski

Abstract

Aggressive tumors of epithelial origin shed cells that intravasate and become circulating tumor cells (CTC). The CTCs that are able to survive the stresses encountered in the bloodstream can then seed metastases. We demonstrated previously that CTCs isolated from the blood of prostate cancer patients display specific nanomechanical phenotypes characteristic of cell endurance and invasiveness and patient sensitivity to androgen deprivation therapy. Here we report that patient-isolated CTCs are nanomechanically distinct from cells randomly shed from the tumor, with high adhesion as the most distinguishing biophysical marker. CTCs uniquely coisolated with macrophage-like cells bearing the markers of tumor-associated macrophages (TAM). The presence of these immune cells was indicative of a survival-promoting phenotype of “mechanical fitness” in CTCs based on high softness and high adhesion as determined by atomic force microscopy. Correlations between enumeration of macrophages and mechanical fitness of CTCs were strong in patients before the start of hormonal therapy. Single-cell proteomic analysis and nanomechanical phenotyping of tumor cell–macrophage cocultures revealed that macrophages promoted epithelial–mesenchymal plasticity in prostate cancer cells, manifesting in their mechanical fitness. The resulting softness and adhesiveness of the mechanically fit CTCs confer resistance to shear stress and enable protective cell clustering. These findings suggest that selected tumor cells are coached by TAMs and accompanied by them to acquire intermediate epithelial/mesenchymal status, thereby facilitating survival during the critical early stage leading to metastasis.Significance:The interaction between macrophages and circulating tumor cells increases the capacity of tumor cells to initiate metastasis and may constitute a new set of blood-based targets for pharmacologic intervention.

Published
2023
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25. Data from Single-Cell RNA-seq Reveals a Subpopulation of Prostate Cancer Cells with Enhanced Cell-Cycle–Related Transcription and Attenuated Androgen Response

Author

Tim H.-M. Huang, Chun-Liang Chen, Victor X. Jin, Qianben Wang, Wei-Ting Chao, Zhijie Liu, LuZhe Sun, Addanki P. Kumar, Michael A. Liss, Nameer B. Kirma, Chun-Lin Lin, Chiou-Miin Wang, Chia-Nung Hung, Rohit R. Jadhav, Anna D. Louie, Che-Kuang Lin, Yao Wang, and Aaron M. Horning

Abstract

Increasing evidence suggests the presence of minor cell subpopulations in prostate cancer that are androgen independent and poised for selection as dominant clones after androgen deprivation therapy. In this study, we investigated this phenomenon by stratifying cell subpopulations based on transcriptome profiling of 144 single LNCaP prostate cancer cells treated or untreated with androgen after cell-cycle synchronization. Model-based clustering of 397 differentially expressed genes identified eight potential subpopulations of LNCaP cells, revealing a previously unappreciable level of cellular heterogeneity to androgen stimulation. One subpopulation displayed stem-like features with a slower cell doubling rate, increased sphere formation capability, and resistance to G2–M arrest induced by a mitosis inhibitor. Advanced growth of this subpopulation was associated with enhanced expression of 10 cell-cycle–related genes (CCNB2, DLGAP5, CENPF, CENPE, MKI67, PTTG1, CDC20, PLK1, HMMR, and CCNB1) and decreased dependence upon androgen receptor signaling. In silico analysis of RNA-seq data from The Cancer Genome Atlas further demonstrated that concordant upregulation of these genes was linked to recurrent prostate cancers. Analysis of receiver operating characteristic curves implicates aberrant expression of these genes and could be useful for early identification of tumors that subsequently develop biochemical recurrence. Moreover, this single-cell approach provides a better understanding of how prostate cancer cells respond heterogeneously to androgen deprivation therapies and reveals characteristics of subpopulations resistant to this treatment.Significance: Illustrating the challenge in treating cancers with targeted drugs, which by selecting for drug resistance can drive metastatic progression, this study characterized the plasticity and heterogeneity of prostate cancer cells with regard to androgen dependence, defining the character or minor subpopulations of androgen-independent cells that are poised for clonal selection after androgen-deprivation therapy. Cancer Res; 78(4); 853–64. ©2017 AACR.

Published
2023
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26. Supplementary Figure S1-10 from Single-Cell RNA-seq Reveals a Subpopulation of Prostate Cancer Cells with Enhanced Cell-Cycle–Related Transcription and Attenuated Androgen Response

Author

Tim H.-M. Huang, Chun-Liang Chen, Victor X. Jin, Qianben Wang, Wei-Ting Chao, Zhijie Liu, LuZhe Sun, Addanki P. Kumar, Michael A. Liss, Nameer B. Kirma, Chun-Lin Lin, Chiou-Miin Wang, Chia-Nung Hung, Rohit R. Jadhav, Anna D. Louie, Che-Kuang Lin, Yao Wang, and Aaron M. Horning

Abstract

Supplementary Figure S1: Time-course expression analysis of LNCaP cells reveals dynamic and heterogeneous responses to androgen stimulation. Supplementary Figure S2: Cell cycle progression of LNCaP cells treated with or without R1881 after cell synchronization by double thymidine block (DTB). Supplementary Figure S3: The summary of aligned and unaligned single-cell RNA-seq reads counts. Supplementary Figure S4: Correlation of single-cell RNA-seq ensemble reads with representative bulk RNA-seq reads. Supplementary Figure S5: Venn diagrams illustrating the comparison of differentially expressed genes found in single- and bulk-cell LNCaP experiments. Supplementary Figure S6: The Mclust algorithm defines likely subgroups using a "model-based" approach. Supplementary Figure S7: Each cell within each subcluster exhibits a similar gene expression profile. Supplementary Figure S8: Gleason score and biochemical recurrence status compared to each subcluster''s gene expression profile. Supplementary Figure S9: Differential expression of 10 genes in LNCaP''s 8.1 subpopulation of cells. Supplementary Figure S10: High single-cell expression of 10 genes in PC3 similar to 12hr-R1881 LNCaP cells.

Published
2023
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27. Supplementary Figure from A First-in-Class Inhibitor of ER Coregulator PELP1 Targets ER+ Breast Cancer

Author

Ratna K. Vadlamudi, Hariprasad Vankayalapati, Manjeet K. Rao, Tim H.-M. Huang, Stan McHardy, Rajeshwar R. Tekmal, Gangadhara R. Sareddy, Daohong Zhou, Yaxia Yuan, Ganesh V. Raj, Zhao Lai, Yidong Chen, Bindu Santhamma, Ben H. Park, Shihong Ma, Xiaonan Li, John R. Sanchez, Behnam Ebrahimi, Uday P. Pratap, Junhao Liu, Zexuan Liu, Samaya Krishnan, Dimple Chakravarty, Monica Mann, Suryavathi Viswanadhapalli, and Kristin A. Altwegg

Abstract

Supplementary Figure from A First-in-Class Inhibitor of ER Coregulator PELP1 Targets ER+ Breast Cancer

Published
2023
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28. Supplementary Data from Contacts with Macrophages Promote an Aggressive Nanomechanical Phenotype of Circulating Tumor Cells in Prostate Cancer

Author

Maria E. Gaczynska, Tim H.-M. Huang, Ian M. Thompson, Michael A. Liss, Josephine A. Taverna, Chun-Liang Chen, Nameer B. Kirma, Devalingam Mahalingam, Chia-Nung Hung, Chun-Lin Lin, Yusheng Qian, Meizhen Chen, Alessandra Cunsolo, and Pawel A. Osmulski

Abstract

Supplementary Materials and Methods, Figures and Tables

Published
2023
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29. Data from Prognostic DNA Methylation Biomarkers in Ovarian Cancer

Author

Kenneth P. Nephew, Tim H-M. Huang, Sun Kim, Robert Brown, Gillian Gifford, Beth Y. Karlan, Ramana V. Davuluri, Joseph C. Wan, Zailong Wang, Lang Li, Sandya Liyanarachchi, Rae Lynn Baldwin, Yoo-Sung Kim, Henry H. Paik, Curtis Balch, and Susan H. Wei

Abstract

Purpose: Aberrant DNA methylation, now recognized as a contributing factor to neoplasia, often shows definitive gene/sequence preferences unique to specific cancer types. Correspondingly, distinct combinations of methylated loci can function as biomarkers for numerous clinical correlates of ovarian and other cancers.Experimental Design: We used a microarray approach to identify methylated loci prognostic for reduced progression-free survival (PFS) in advanced ovarian cancer patients. Two data set classification algorithms, Significance Analysis of Microarray and Prediction Analysis of Microarray, successfully identified 220 candidate PFS-discriminatory methylated loci. Of those, 112 were found capable of predicting PFS with 95% accuracy, by Prediction Analysis of Microarray, using an independent set of 40 advanced ovarian tumors (from 20 short-PFS and 20 long-PFS patients, respectively). Additionally, we showed the use of these predictive loci using two bioinformatics machine-learning algorithms, Support Vector Machine and Multilayer Perceptron.Conclusion: In this report, we show that highly prognostic DNA methylation biomarkers can be successfully identified and characterized, using previously unused, rigorous classifying algorithms. Such ovarian cancer biomarkers represent a promising approach for the assessment and management of this devastating disease.

Published
2023
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30. Data from A First-in-Class Inhibitor of ER Coregulator PELP1 Targets ER+ Breast Cancer

Author

Ratna K. Vadlamudi, Hariprasad Vankayalapati, Manjeet K. Rao, Tim H.-M. Huang, Stan McHardy, Rajeshwar R. Tekmal, Gangadhara R. Sareddy, Daohong Zhou, Yaxia Yuan, Ganesh V. Raj, Zhao Lai, Yidong Chen, Bindu Santhamma, Ben H. Park, Shihong Ma, Xiaonan Li, John R. Sanchez, Behnam Ebrahimi, Uday P. Pratap, Junhao Liu, Zexuan Liu, Samaya Krishnan, Dimple Chakravarty, Monica Mann, Suryavathi Viswanadhapalli, and Kristin A. Altwegg

Abstract

Most patients with estrogen receptor alpha–positive (ER+) breast cancers initially respond to treatment but eventually develop therapy resistance with disease progression. Overexpression of oncogenic ER coregulators, including proline, glutamic acid, and leucine-rich protein 1 (PELP1), are implicated in breast cancer progression. The lack of small molecules that inhibits PELP1 represents a major knowledge gap. Here, using a yeast-two-hybrid screen, we identified novel peptide inhibitors of PELP1 (PIP). Biochemical assays demonstrated that one of these peptides, PIP1, directly interacted with PELP1 to block PELP1 oncogenic functions. Computational modeling of PIP1 revealed key residues contributing to its activity and facilitated the development of a small-molecule inhibitor of PELP1, SMIP34, and further analyses confirmed that SMIP34 directly bound to PELP1. In breast cancer cells, SMIP34 reduced cell growth in a dose-dependent manner. SMIP34 inhibited proliferation of not only wild-type (WT) but also mutant (MT) ER+ and therapy-resistant breast cancer cells, in part by inducing PELP1 degradation via the proteasome pathway. RNA sequencing analyses showed that SMIP34 treatment altered the expression of genes associated with estrogen response, cell cycle, and apoptosis pathways. In cell line–derived and patient-derived xenografts of both WT and MT ER+ breast cancer models, SMIP34 reduced proliferation and significantly suppressed tumor progression. Collectively, these results demonstrate SMIP34 as a first-in-class inhibitor of oncogenic PELP1 signaling in advanced breast cancer.Significance:Development of a novel inhibitor of oncogenic PELP1 provides potential therapeutic avenues for treating therapy-resistant, advanced ER+ breast cancer.

Published
2023
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31. Data from Mapping Geographic Zones of Cancer Risk with Epigenetic Biomarkers in Normal Breast Tissue

Author

Tim H.-M. Huang, Timothy J. Yeatman, Charis Eng, Charles L. Shapiro, Yu-Wei Leu, Frank Weber, Barbara Centeno, Nils M. Diaz, Rulong Z. Shen, Joseph C. Liu, Ashraf Ibrahim, Chinnambally Venkataramu, and Pearlly S. Yan

Abstract

Purpose: Genetic alterations were previously identified in normal epithelia adjacent to invasive cancers. The aim of this study was to determine DNA methylation in histologically normal tissues from multiple geographic zones adjacent to primary breast tumors.Experimental Design: First, methylation status of a 4-kb region of RASSF1A promoter was interrogated using oligonucleotide-based microarray in 144 samples (primary tumors, 47; adjacent normals, 69; reduction mammoplasty tissues, 28). Second, allelic imbalance (AI)/loss of heterozygosity (LOH) surrounding RASSF1A promoter were analyzed in 30 samples (tumors, 8; adjacent normals, 22). Third, global methylation screening of 49 samples (tumors, 12; adjacent normals, 25; reduction mammoplasty, 12) was done by differential methylation hybridization. Real-time quantitative methylation-specific PCR was used to validate the microarray findings.Results: DNA methylation in the core RASSF1A promoter was low in reduction mammoplasty tissues (P = 0.0001) when compared with primary tumors. The adjacent normals had an intermediate level of methylation. The regions surrounding the core were highly methylated in all sample types. Microsatellite markers showed AI/LOH in tumors and some of the adjacent normals. Concurrent AI/LOH and DNA methylation in RASSF1A promoter occurred in two of six tumors. Global methylation screening uncovered genes more methylated in adjacent normals than in reduction mammoplasty tissues. The methylation status of four genes was confirmed by quantitative methylation-specific PCR.Conclusions: Our findings suggest a field of methylation changes extending as far as 4 cm from primary tumors. These frequent alterations may explain why normal tissues are at risk for local recurrence and are useful in disease prognostication.

Published
2023
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32. Supplementary Figures 1-10, Tables 1-3 from Targeted Methylation of Two Tumor Suppressor Genes Is Sufficient to Transform Mesenchymal Stem Cells into Cancer Stem/Initiating Cells

Author

Yu-Wei Leu, Shu-Huei Hsiao, Tim H.-M. Huang, Kenneth P. Nephew, Long-Bin Jeng, Kuen-daw Tsai, H. Sunny Sun, Chi-Sheng Wu, Yu-Sun Chang, Shaw-Jenq Tsai, Min-Jen Tseng, Victor X. Jin, Kun-Tu Yeh, Pei-Yi Chu, Kuan-Der Lee, Pei-Chi Hou, and I-Wen Teng

Abstract

Supplementary Figures 1-10, Tables 1-3 from Targeted Methylation of Two Tumor Suppressor Genes Is Sufficient to Transform Mesenchymal Stem Cells into Cancer Stem/Initiating Cells

Published
2023
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34. Supplementary Table 1 from Diverse Gene Expression and DNA Methylation Profiles Correlate with Differential Adaptation of Breast Cancer Cells to the Antiestrogens Tamoxifen and Fulvestrant

Author

Kenneth P. Nephew, Tim H-M. Huang, Phillip H. Abbosh, Lang Li, Alfred S.L. Cheng, Jonathan D. Salisbury, Samuel L. Oyer, Henry Paik, Lei Chen, Cori Hartman-Frey, Pearlly S. Yan, and Meiyun Fan

Abstract

Supplementary Table 1 from Diverse Gene Expression and DNA Methylation Profiles Correlate with Differential Adaptation of Breast Cancer Cells to the Antiestrogens Tamoxifen and Fulvestrant

Published
2023
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35. Supplementary Methods, Figures 1-9, Tables 2-6 from EZH2-Mediated Concordant Repression of Wnt Antagonists Promotes β-Catenin–Dependent Hepatocarcinogenesis

Author

Joseph J.Y. Sung, Tim H.-M. Huang, Nathalie Wong, Ka F. To, Jun Yu, Kwong W. Choy, Hongchuan Jin, Joanna H. Tong, Hoi K. Wong, Kin F. Cheung, Arthur K. Ching, Hai Feng, May S. Li, Yutaka Kondo, Yangchao Chen, Suki S. Lau, and Alfred S.L. Cheng

Abstract

Supplementary Methods, Figures 1-9, Tables 2-6 from EZH2-Mediated Concordant Repression of Wnt Antagonists Promotes β-Catenin–Dependent Hepatocarcinogenesis

Published
2023
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36. Data from Epigenetic Repression of microRNA-129-2 Leads to Overexpression of SOX4 Oncogene in Endometrial Cancer

Author

Tim H-M. Huang, David S. Miller, Paul J. Goodfellow, David G. Mutch, Jingqin Luo, Daniel E. Deatherage, Joseph C. Liu, and Yi-Wen Huang

Abstract

Genetic amplification, mutation, and translocation are known to play a causal role in the upregulation of an oncogene in cancer cells. Here, we report an emerging role of microRNA, the epigenetic deregulation of which may also lead to this oncogenic activation. SOX4, an oncogene belonging to the SRY-related high mobility group box family, was found to be overexpressed (P < 0.005) in endometrial tumors (n = 74) compared with uninvolved controls (n = 20). This gene is computationally predicted to be the target of a microRNA, miR-129-2. When compared with the matched endometria, the expression of miR-129-2 was lost in 27 of 31 primary endometrial tumors that also showed a concomitant gain of SOX4 expression (P < 0.001). This inverse relationship is associated with hypermethylation of the miR-129-2 CpG island, which was observed in endometrial cancer cell lines (n = 6) and 68% of 117 endometrioid endometrial tumors analyzed. Reactivation of miR-129-2 in cancer cells by pharmacologic induction of histone acetylation and DNA demethylation resulted in decreased SOX4 expression. In addition, restoration of miR-129-2 by cell transfection led to decreased SOX4 expression and reduced proliferation of cancer cells. Further analysis found a significant correlation of hypermethylated miR-129-2 with microsatellite instability and MLH1 methylation status (P < 0.001) and poor overall survival (P < 0.039) in patients. Therefore, these results imply that the aberrant expression of SOX4 is, in part, caused by epigenetic repression of miR-129-2 in endometrial cancer. Unlike the notion that promoter hypomethylation may upregulate an oncogene, we present a new paradigm in which hypermethylation-mediated silencing of a microRNA derepresses its oncogenic target in cancer cells. [Cancer Res 2009;69(23):9038–46]

Published
2023
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38. Supplementary Table 2 from Diverse Gene Expression and DNA Methylation Profiles Correlate with Differential Adaptation of Breast Cancer Cells to the Antiestrogens Tamoxifen and Fulvestrant

Author

Kenneth P. Nephew, Tim H-M. Huang, Phillip H. Abbosh, Lang Li, Alfred S.L. Cheng, Jonathan D. Salisbury, Samuel L. Oyer, Henry Paik, Lei Chen, Cori Hartman-Frey, Pearlly S. Yan, and Meiyun Fan

Abstract

Supplementary Table 2 from Diverse Gene Expression and DNA Methylation Profiles Correlate with Differential Adaptation of Breast Cancer Cells to the Antiestrogens Tamoxifen and Fulvestrant

Published
2023
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39. Supplementary Table 7 from EZH2-Mediated Concordant Repression of Wnt Antagonists Promotes β-Catenin–Dependent Hepatocarcinogenesis

Author

Joseph J.Y. Sung, Tim H.-M. Huang, Nathalie Wong, Ka F. To, Jun Yu, Kwong W. Choy, Hongchuan Jin, Joanna H. Tong, Hoi K. Wong, Kin F. Cheung, Arthur K. Ching, Hai Feng, May S. Li, Yutaka Kondo, Yangchao Chen, Suki S. Lau, and Alfred S.L. Cheng

Abstract

Supplementary Table 7 from EZH2-Mediated Concordant Repression of Wnt Antagonists Promotes β-Catenin–Dependent Hepatocarcinogenesis

Published
2023
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40. Supplementary Figures 1-6, Tables 1-15, Methods from Epigenetic Silencing Mediated through Activated PI3K/AKT Signaling in Breast Cancer

Author

Tim H.-M. Huang, Victor X. Jin, Alfred S. L. Cheng, Huey-Jen L. Lin, Charles L. Shapiro, Bhuvaneswari Ramaswamy, Cenny Taslim, Pei-Yin Hsu, Daniel E. Deatherage, Sandya Liyanarachchi, Yi-Wen Huang, Fei Gu, Rulong Shen, Yu-I Weng, Xun Lan, Ta-Ming Liu, and Tao Zuo

Abstract

Supplementary Figures 1-6, Tables 1-15, Methods from Epigenetic Silencing Mediated through Activated PI3K/AKT Signaling in Breast Cancer

Published
2023
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41. Supplementary Table 6 from Diverse Gene Expression and DNA Methylation Profiles Correlate with Differential Adaptation of Breast Cancer Cells to the Antiestrogens Tamoxifen and Fulvestrant

Author

Kenneth P. Nephew, Tim H-M. Huang, Phillip H. Abbosh, Lang Li, Alfred S.L. Cheng, Jonathan D. Salisbury, Samuel L. Oyer, Henry Paik, Lei Chen, Cori Hartman-Frey, Pearlly S. Yan, and Meiyun Fan

Abstract

Supplementary Table 6 from Diverse Gene Expression and DNA Methylation Profiles Correlate with Differential Adaptation of Breast Cancer Cells to the Antiestrogens Tamoxifen and Fulvestrant

Published
2023
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42. Data from Loss of Estrogen Receptor Signaling Triggers Epigenetic Silencing of Downstream Targets in Breast Cancer

Author

Tim H-M. Huang, Kenneth P. Nephew, Christoph Plass, Ramana V. Davuluri, Susan H. Wei, Wade V. Welshons, Edward M. Curran, Joseph C. Liu, Victor X. Jin, Meiyun Fan, Pearlly S. Yan, and Yu-Wei Leu

Abstract

Alterations in histones, chromatin-related proteins, and DNA methylation contribute to transcriptional silencing in cancer, but the sequence of these molecular events is not well understood. Here we demonstrate that on disruption of estrogen receptor (ER) α signaling by small interfering RNA, polycomb repressors and histone deacetylases are recruited to initiate stable repression of the progesterone receptor (PR) gene, a known ERα target, in breast cancer cells. The event is accompanied by acquired DNA methylation of the PR promoter, leaving a stable mark that can be inherited by cancer cell progeny. Reestablishing ERα signaling alone was not sufficient to reactivate the PR gene; reactivation of the PR gene also requires DNA demethylation. Methylation microarray analysis further showed that progressive DNA methylation occurs in multiple ERα targets in breast cancer genomes. The results imply, for the first time, the significance of epigenetic regulation on ERα target genes, providing new direction for research in this classical signaling pathway.

Published
2023
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43. Supplementary Table 1 from Loss of Estrogen Receptor Signaling Triggers Epigenetic Silencing of Downstream Targets in Breast Cancer

Author

Tim H-M. Huang, Kenneth P. Nephew, Christoph Plass, Ramana V. Davuluri, Susan H. Wei, Wade V. Welshons, Edward M. Curran, Joseph C. Liu, Victor X. Jin, Meiyun Fan, Pearlly S. Yan, and Yu-Wei Leu

Abstract

Supplementary Table 1 from Loss of Estrogen Receptor Signaling Triggers Epigenetic Silencing of Downstream Targets in Breast Cancer

Published
2023
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46. Supplementary Table 5 from Diverse Gene Expression and DNA Methylation Profiles Correlate with Differential Adaptation of Breast Cancer Cells to the Antiestrogens Tamoxifen and Fulvestrant

Author

Kenneth P. Nephew, Tim H-M. Huang, Phillip H. Abbosh, Lang Li, Alfred S.L. Cheng, Jonathan D. Salisbury, Samuel L. Oyer, Henry Paik, Lei Chen, Cori Hartman-Frey, Pearlly S. Yan, and Meiyun Fan

Abstract

Supplementary Table 5 from Diverse Gene Expression and DNA Methylation Profiles Correlate with Differential Adaptation of Breast Cancer Cells to the Antiestrogens Tamoxifen and Fulvestrant

Published
2023
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47. Supplementary Figure Legends 1-3 from Diverse Gene Expression and DNA Methylation Profiles Correlate with Differential Adaptation of Breast Cancer Cells to the Antiestrogens Tamoxifen and Fulvestrant

Author

Kenneth P. Nephew, Tim H-M. Huang, Phillip H. Abbosh, Lang Li, Alfred S.L. Cheng, Jonathan D. Salisbury, Samuel L. Oyer, Henry Paik, Lei Chen, Cori Hartman-Frey, Pearlly S. Yan, and Meiyun Fan

Abstract

Supplementary Figure Legends 1-3 from Diverse Gene Expression and DNA Methylation Profiles Correlate with Differential Adaptation of Breast Cancer Cells to the Antiestrogens Tamoxifen and Fulvestrant

Published
2023
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48. Data from Diverse Gene Expression and DNA Methylation Profiles Correlate with Differential Adaptation of Breast Cancer Cells to the Antiestrogens Tamoxifen and Fulvestrant

Author

Kenneth P. Nephew, Tim H-M. Huang, Phillip H. Abbosh, Lang Li, Alfred S.L. Cheng, Jonathan D. Salisbury, Samuel L. Oyer, Henry Paik, Lei Chen, Cori Hartman-Frey, Pearlly S. Yan, and Meiyun Fan

Abstract

The development of targeted therapies for antiestrogen-resistant breast cancer requires a detailed understanding of its molecular characteristics. To further elucidate the molecular events underlying acquired resistance to the antiestrogens tamoxifen and fulvestrant, we established drug-resistant sublines from a single colony of hormone-dependent breast cancer MCF7 cells. These model systems allowed us to examine the cellular and molecular changes induced by antiestrogens in the context of a uniform clonal background. Global changes in both basal and estrogen-induced gene expression profiles were determined in hormone-sensitive and hormonal-resistant sublines using Affymetrix Human Genome U133 Plus 2.0 Arrays. Changes in DNA methylation were assessed by differential methylation hybridization, a high-throughput promoter CpG island microarray analysis. By comparative studies, we found distinct gene expression and promoter DNA methylation profiles associated with acquired resistance to fulvestrant versus tamoxifen. Fulvestrant resistance was characterized by pronounced up-regulation of multiple growth-stimulatory pathways, resulting in estrogen receptor α (ERα)–independent, autocrine-regulated proliferation. Conversely, acquired resistance to tamoxifen correlated with maintenance of the ERα-positive phenotype, although receptor-mediated gene regulation was altered. Activation of growth-promoting genes, due to promoter hypomethylation, was more frequently observed in antiestrogen-resistant cells compared with gene inactivation by promoter hypermethylation, revealing an unexpected insight into the molecular changes associated with endocrine resistance. In summary, this study provides an in-depth understanding of the molecular changes specific to acquired resistance to clinically important antiestrogens. Such knowledge of resistance-associated mechanisms could allow for identification of therapy targets and strategies for resensitization to these well-established antihormonal agents. (Cancer Res 2006; 66(24): 11954–66)

Published
2023
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50. Supplementary Figures 1-3 from Diverse Gene Expression and DNA Methylation Profiles Correlate with Differential Adaptation of Breast Cancer Cells to the Antiestrogens Tamoxifen and Fulvestrant

Author

Kenneth P. Nephew, Tim H-M. Huang, Phillip H. Abbosh, Lang Li, Alfred S.L. Cheng, Jonathan D. Salisbury, Samuel L. Oyer, Henry Paik, Lei Chen, Cori Hartman-Frey, Pearlly S. Yan, and Meiyun Fan

Abstract

Supplementary Figures 1-3 from Diverse Gene Expression and DNA Methylation Profiles Correlate with Differential Adaptation of Breast Cancer Cells to the Antiestrogens Tamoxifen and Fulvestrant

Published
2023
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