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1. ARID1A loss activates MAPK signaling via DUSP4 downregulation

Author

Jayaprakash Mandal, Zheng-Cheng Yu, Ie-Ming Shih, and Tian-Li Wang

Subjects
ARID1A, DUSP4, MAPK, Chromatin remodeling, Therapeutics, Medicine
Abstract

Abstract Background ARID1A, a tumor suppressor gene encoding BAF250, a protein participating in chromatin remodeling, is frequently mutated in endometrium-related malignancies, including ovarian or uterine clear cell carcinoma (CCC) and endometrioid carcinoma (EMCA). However, how ARID1A mutations alter downstream signaling to promote tumor development is yet to be established. Methods We used RNA-sequencing (RNA-seq) to explore transcriptomic changes in isogenic human endometrial epithelial cells after deleting ARID1A. Chromatin immunoprecipitation sequencing (ChIP-seq) was employed to assess the active or repressive histone marks on DUSP4 promoter and regulatory regions. We validated our findings using genetically engineered murine endometroid carcinoma models, human endometroid carcinoma tissues, and in silico approaches. Results RNA-seq revealed the downregulation of the MAPK phosphatase dual-specificity phosphatase 4 (DUSP4) in ARID1A-deficient cells. ChIP-seq demonstrated decreased histone acetylation marks (H3K27Ac, H3K9Ac) on DUSP4 regulatory regions as one of the causes for DUSP4 downregulation in ARID1A-deficient cells. Ectopic DUSP4 expression decreased cell proliferation, and pharmacologically inhibiting the MAPK pathway significantly mitigated tumor formation in vivo. Conclusions Our findings suggest that ARID1A protein transcriptionally modulates DUSP4 expression by remodeling chromatin, subsequently inactivating the MAPK pathway, leading to tumor suppression. The ARID1A-DUSP4-MAPK axis may be further considered for developing targeted therapies against ARID1A-mutated cancers.

Published
2023
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2. Novel cancer treatment paradigm targeting hypoxia-induced factor in conjunction with current therapies to overcome resistance

Author

Ting-Wan Kao, Geng-Hao Bai, Tian-Li Wang, Ie-Ming Shih, Chi-Mu Chuang, Chun-Liang Lo, Meng-Chen Tsai, Li-Yun Chiu, Chu-Chien Lin, and Yao-An Shen

Subjects
Hypoxia, HIF-1, HIF-2, Chemotherapy, Target therapy, Radiotherapy, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract Chemotherapy, radiotherapy, targeted therapy, and immunotherapy are established cancer treatment modalities that are widely used due to their demonstrated efficacy against tumors and favorable safety profiles or tolerability. Nevertheless, treatment resistance continues to be one of the most pressing unsolved conundrums in cancer treatment. Hypoxia-inducible factors (HIFs) are a family of transcription factors that regulate cellular responses to hypoxia by activating genes involved in various adaptations, including erythropoiesis, glucose metabolism, angiogenesis, cell proliferation, and apoptosis. Despite this critical function, overexpression of HIFs has been observed in numerous cancers, leading to resistance to therapy and disease progression. In recent years, much effort has been poured into developing innovative cancer treatments that target the HIF pathway. Combining HIF inhibitors with current cancer therapies to increase anti-tumor activity and diminish treatment resistance is one strategy for combating therapeutic resistance. This review focuses on how HIF inhibitors could be applied in conjunction with current cancer treatments, including those now being evaluated in clinical trials, to usher in a new era of cancer therapy.

Published
2023
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3. Establishment of a novel model of endometriosis-associated ovarian cancer by transplanting uterine tissue from Arid1a/Pten knockout mice

Author

Motoki Ono, Tsutomu Miyamoto, Ryoichi Asaka, Junko Uchikawa, Hirofumi Ando, Yasuhiro Tanaka, Manaka Shinagawa, Yusuke Yokokawa, Shiho Asaka, Tian-Li Wang, Ie-Ming Shih, and Tanri Shiozawa

Subjects
Medicine, Science
Abstract

Abstract Although endometriosis is primarily benign, it has been identified as a risk factor for endometriosis-associated ovarian cancer (EAOC). Genetic alterations in ARID1A, PTEN, and PIK3CA have been reported in EAOC; however, an appropriate EAOC animal model has yet to be established. Therefore, the present study aimed to create an EAOC mouse model by transplanting uterine pieces from donor mice, in which Arid1a and/or Pten was conditionally knocked out (KO) in Pax8-expressing endometrial cells by the administration of doxycycline (DOX), onto the ovarian surface or peritoneum of recipient mice. Two weeks after transplantation, gene KO was induced by DOX and endometriotic lesions were thereafter removed. The induction of only Arid1a KO did not cause any histological changes in the endometriotic cysts of recipients. In contrast, the induction of only Pten KO evoked a stratified architecture and nuclear atypia in the epithelial lining of all endometriotic cysts, histologically corresponding to atypical endometriosis. The induction of Arid1a; Pten double-KO evoked papillary and cribriform structures with nuclear atypia in the lining of 42 and 50% of peritoneal and ovarian endometriotic cysts, respectively, which were histologically similar to EAOC. These results indicate that this mouse model is useful for investigating the mechanisms underlying the development of EAOC and the related microenvironment.

Published
2023
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5. Treating ARID1A mutated cancers by harnessing synthetic lethality and DNA damage response

Author

Jayaprakash Mandal, Prativa Mandal, Tian-Li Wang, and Ie-Ming Shih

Subjects
ARID1A, Chromatin remodeling, Synthetic lethality, Cancer, Medicine
Abstract

Abstract Chromatin remodeling is an essential cellular process for organizing chromatin structure into either open or close configuration at specific chromatin locations by orchestrating and modifying histone complexes. This task is responsible for fundamental cell physiology including transcription, DNA replication, methylation, and damage repair. Aberrations in this activity have emerged as epigenomic mechanisms in cancer development that increase tumor clonal fitness and adaptability amidst various selection pressures. Inactivating mutations in AT-rich interaction domain 1A (ARID1A), a gene encoding a large nuclear protein member belonging to the SWI/SNF chromatin remodeling complex, result in its loss of expression. ARID1A is the most commonly mutated chromatin remodeler gene, exhibiting the highest mutation frequency in endometrium-related uterine and ovarian carcinomas. As a tumor suppressor gene, ARID1A is essential for regulating cell cycle, facilitating DNA damage repair, and controlling expression of genes that are essential for maintaining cellular differentiation and homeostasis in non-transformed cells. Thus, ARID1A deficiency due to somatic mutations propels tumor progression and dissemination. The recent success of PARP inhibitors in treating homologous recombination DNA repair-deficient tumors has engendered keen interest in developing synthetic lethality-based therapeutic strategies for ARID1A-mutated neoplasms. In this review, we summarize recent advances in understanding the biology of ARID1A in cancer development, with special emphasis on its roles in DNA damage repair. We also discuss strategies to harness synthetic lethal mechanisms for future therapeutics against ARID1A-mutated cancers.

Published
2022
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6. Development of small molecule inhibitors targeting PBX1 transcription signaling as a novel cancer therapeutic strategy

Author

Yao-An Shen, Jin Jung, Geoffrey D. Shimberg, Fang-Chi Hsu, Yohan Suryo Rahmanto, Stephanie L. Gaillard, Jiaxin Hong, Jürgen Bosch, Ie-Ming Shih, Chi-Mu Chuang, and Tian-Li Wang

Subjects
Chemistry, Cancer, Science
Abstract

Summary: PBX1 is a transcription factor involved in diverse cellular functions including organ development, stem cell renewal, and tumorigenesis. PBX1 is localized at chr1q23.3, a frequently amplified chromosomal region, and it is overexpressed in many human malignancies. Cancer cells with elevated PBX1 signaling are particularly vulnerable to PBX1 withdrawal. We designed a series of small molecule compounds capable of docking to the interface between PBX1 and its cognate DNA target sequence. Among them, T417 is found to be a lead compound. In cell-based assays, T417 significantly suppressed self-renewal and proliferation of cancer cells expressing high levels of PBX1. T417 also re-sensitized platinum-resistant ovarian tumors to carboplatin. T417 did not affect healthy tissues likely due to their lower PBX1 expression levels. Therefore, targeting PBX-DNA interface can be a promising strategy for treating human tumors reliant on PBX1 for survival.

Published
2021
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7. Progestin and aromatase inhibitor therapy in recurrent, estrogen/progestin receptor positive uterine carcinosarcoma: A case report

Author

Angela L. Liang, Payam Katebi Kashi, Mark Hopkins, Anna Beavis, Stephanie Gaillard, Ie-Ming Shih, and Amanda N. Fader

Subjects
Uterine carcinosarcoma, Hormone receptors, Aromatase inhibitors, Progestin therapy, Gynecology and obstetrics, RG1-991, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Published
2021
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8. Inactivation of Arid1a in the endometrium is associated with endometrioid tumorigenesis through transcriptional reprogramming

Author

Yohan Suryo Rahmanto, Wenjing Shen, Xu Shi, Xi Chen, Yu Yu, Zheng-Cheng Yu, Tsutomu Miyamoto, Meng-Horng Lee, Vivek Singh, Ryoichi Asaka, Geoffrey Shimberg, Michele I. Vitolo, Stuart S. Martin, Denis Wirtz, Ronny Drapkin, Jianhua Xuan, Tian-Li Wang, and Ie-Ming Shih

Subjects
Science
Abstract

ARID1A, which is often mutated in human endometrial cancer, is a component of the SWI/SNF chromatin remodelling complex. Here, the authors show that Arid1a mutations in the mouse endometrium and primary human endometrial epithelial cells cause widespread reprogramming of gene transcription and result in a loss of response to TGFβ.

Published
2020
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9. Spleen tyrosine kinase activity regulates epidermal growth factor receptor signaling pathway in ovarian cancerResearch in context

Author

Yu Yu, Yohan Suryo Rahmanto, Yao-An Shen, Laura Ardighieri, Ben Davidson, Stephanie Gaillard, Ayse Ayhan, Xu Shi, Jianhua Xuan, Tian-Li Wang, and Ie-Ming Shih

Subjects
Medicine, Medicine (General), R5-920
Abstract

Background: Spleen tyrosine kinase (SYK) is frequently upregulated in recurrent ovarian carcinomas, for which effective therapy is urgently needed. SYK phosphorylates several substrates, but their translational implications remain unclear. Here, we show that SYK interacts with EGFR and ERBB2, and directly enhances their phosphorylation. Methods: We used immunohistochemistry and immunoblotting to assess SYK and EGFR phosphorylation in ovarian serous carcinomas. Association with survival was determined by Kaplan-Meier analysis and the log-rank test. To study its role in EGFR signaling, SYK activity was modulated using a small molecule inhibitor, a syngeneic knockout, and an active kinase inducible system. We applied RNA-seq and phosphoproteomic mass spectrometry to investigate the SYK-regulated EGF-induced transcriptome and downstream substrates. Findings: Induced expression of constitutively active SYK130E reduced cellular response to EGFR/ERBB2 inhibitor, lapatinib. Expression of EGFRWT, but not SYK non-phosphorylatable EGFR3F mutant, resulted in paclitaxel resistance, a phenotype characteristic to SYK active ovarian cancers. In tumor xenografts, SYK inhibitor reduces phosphorylation of EGFR substrates. Compared to SYKWT cells, SYKKO cells have an attenuated EGFR/ERBB2-transcriptional activity and responsiveness to EGF-induced transcription. In ovarian cancer tissues, pSYK (Y525/526) levels showed a positive correlation with pEGFR (Y1187). Intense immunoreactivity of pSYK (Y525/526) correlated with poor overall survival in ovarian cancer patients. Interpretation: These findings indicate that SYK activity positively modulates the EGFR pathway, providing a biological foundation for co-targeting SYK and EGFR. Fund: Department of Gynecology and Obstetrics, Johns Hopkins University School of Medicine, NIH/NCI, Ovarian Cancer Research Foundation Alliance, HERA Women's Cancer Foundation and Roseman Foundation. Funders had no role in the design of the study and collection, analysis, and interpretation of data and in writing the manuscript and eventually in the decision to submit the manuscript.

Published
2019
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10. Lung Cancer Recurrence Risk Prediction through Integrated Deep Learning Evaluation

Author

Peng Huang, Peter B. Illei, Wilbur Franklin, Pei-Hsun Wu, Patrick M. Forde, Saeed Ashrafinia, Chen Hu, Hamza Khan, Harshna V. Vadvala, Ie-Ming Shih, Richard J. Battafarano, Michael A. Jacobs, Xiangrong Kong, Justine Lewis, Rongkai Yan, Yun Chen, Franck Housseau, Arman Rahmim, Elliot K. Fishman, David S. Ettinger, Kenneth J. Pienta, Denis Wirtz, Malcolm V. Brock, Stephen Lam, and Edward Gabrielson

Subjects
postoperative-stage IA NSCLC, artificial intelligent, biomarker, computer-aided diagnosis, tumor grade, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Background: Prognostic risk factors for completely resected stage IA non-small-cell lung cancers (NSCLCs) have advanced minimally over recent decades. Although several biomarkers have been found to be associated with cancer recurrence, their added value to TNM staging and tumor grade are unclear. Methods: Features of preoperative low-dose CT image and histologic findings of hematoxylin- and eosin-stained tissue sections of resected lung tumor specimens were extracted from 182 stage IA NSCLC patients in the National Lung Screening Trial. These features were combined to predict the risk of tumor recurrence or progression through integrated deep learning evaluation (IDLE). Added values of IDLE to TNM staging and tumor grade in progression risk prediction and risk stratification were evaluated. Results: The 5-year AUC of IDLE was 0.817 ± 0.037 as compared to the AUC = 0.561 ± 0.042 and 0.573 ± 0.044 from the TNM stage and tumor grade, respectively. The IDLE score was significantly associated with cancer recurrence (p < 0.0001) even after adjusting for TNM staging and tumor grade. Synergy between chest CT image markers and histological markers was the driving force of the deep learning algorithm to produce a stronger prognostic predictor. Conclusions: Integrating markers from preoperative CT images and pathologist’s readings of resected lung specimens through deep learning can improve risk stratification of stage 1A NSCLC patients over TNM staging and tumor grade alone. Our study suggests that combining markers from nonoverlapping platforms can increase the cancer risk prediction accuracy.

Published
2022
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11. Current and Emerging Methods for Ovarian Cancer Screening and Diagnostics: A Comprehensive Review

Author

Juliane M. Liberto, Sheng-Yin Chen, Ie-Ming Shih, Tza-Huei Wang, Tian-Li Wang, and Thomas R. Pisanic

Subjects
ovarian cancer, diagnostic, emerging, screening, biomarkers, HGSC, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

With a 5-year survival rate of less than 50%, ovarian high-grade serous carcinoma (HGSC) is one of the most highly aggressive gynecological malignancies affecting women today. The high mortality rate of HGSC is largely attributable to delays in diagnosis, as most patients remain undiagnosed until the late stages of -disease. There are currently no recommended screening tests for ovarian cancer and there thus remains an urgent need for new diagnostic methods, particularly those that can detect the disease at early stages when clinical intervention remains effective. While diagnostics for ovarian cancer share many of the same technical hurdles as for other cancer types, the low prevalence of the disease in the general population, coupled with a notable lack of sensitive and specific biomarkers, have made the development of a clinically useful screening strategy particularly challenging. Here, we present a detailed review of the overall landscape of ovarian cancer diagnostics, with emphasis on emerging methods that employ novel protein, genetic, epigenetic and imaging-based biomarkers and/or advanced diagnostic technologies for the noninvasive detection of HGSC, particularly in women at high risk due to germline mutations such as BRCA1/2. Lastly, we discuss the translational potential of these approaches for achieving a clinically implementable solution for screening and diagnostics of early-stage ovarian cancer as a means of ultimately improving patient outcomes in both the general and high-risk populations.

Published
2022
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12. Genomic characterization of genes encoding histone acetylation modulator proteins identifies therapeutic targets for cancer treatment

Author

Zhongyi Hu, Junzhi Zhou, Junjie Jiang, Jiao Yuan, Youyou Zhang, Xuepeng Wei, Nicki Loo, Yueying Wang, Yutian Pan, Tianli Zhang, Xiaomin Zhong, Meixiao Long, Kathleen T. Montone, Janos L. Tanyi, Yi Fan, Tian-Li Wang, Ie-Ming Shih, Xiaowen Hu, and Lin Zhang

Subjects
Science
Abstract

Targeting histone acetylation modulators (HAMPs) is a promising avenue of drug discovery in cancer research. Here, the authors integrate multi-dimensional genomic profiles to systematically investigate recurrent genomic alterations in HAMPs, identifying potential therapeutic targets for precision epigenetic treatment.

Published
2019
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13. Integrated Proteomic and Glycoproteomic Characterization of Human High-Grade Serous Ovarian Carcinoma

Author

Yingwei Hu, Jianbo Pan, Punit Shah, Minghui Ao, Stefani N. Thomas, Yang Liu, Lijun Chen, Michael Schnaubelt, David J. Clark, Henry Rodriguez, Emily S. Boja, Tara Hiltke, Christopher R. Kinsinger, Karin D. Rodland, Qing Kay Li, Jiang Qian, Zhen Zhang, Daniel W. Chan, Hui Zhang, Akhilesh Pandey, Amanda Paulovich, Andrew Hoofnagle, Bing Zhang, D.R. Mani, Daniel C. Liebler, David F. Ransohoff, David Fenyo, David L. Tabb, Douglas A. Levine, Eric Kuhn, Forest M. White, Gordon A. Whiteley, Heng Zhu, Ie-Ming Shih, Jasmin Bavarva, Jason E. McDermott, Jeffrey Whiteaker, Karen A. Ketchum, Karl R. Clauser, Kelly Ruggles, Kimberly Elburn, Li Ding, Linda Hannick, Lisa J. Zimmerman, Mark Watson, Mathangi Thiagarajan, Matthew J.C. Ellis, Mauricio Oberti, Mehdi Mesri, Melinda E. Sanders, Melissa Borucki, Michael A. Gillette, Michael Snyder, Nathan J. Edwards, Negin Vatanian, Paul A. Rudnick, Peter B. McGarvey, Philip Mertins, R. Reid Townsend, Ratna R. Thangudu, Richard D. Smith, Robert C. Rivers, Robert J.C. Slebos, Samuel H. Payne, Sherri R. Davies, Shuang Cai, Stephen E. Stein, Steven A. Carr, Steven J. Skates, Subha Madhavan, Tao Liu, Xian Chen, Yingming Zhao, Yue Wang, and Zhiao Shi

Subjects
CPTAC, glycosylation, mass spectrometry, glycoproteomics, tumor clusters, high-grade serous ovarian carcinoma, Biology (General), QH301-705.5
Abstract

Summary: Many gene products exhibit great structural heterogeneity because of an array of modifications. These modifications are not directly encoded in the genomic template but often affect the functionality of proteins. Protein glycosylation plays a vital role in proper protein functions. However, the analysis of glycoproteins has been challenging compared with other protein modifications, such as phosphorylation. Here, we perform an integrated proteomic and glycoproteomic analysis of 83 prospectively collected high-grade serous ovarian carcinoma (HGSC) and 23 non-tumor tissues. Integration of the expression data from global proteomics and glycoproteomics reveals tumor-specific glycosylation, uncovers different glycosylation associated with three tumor clusters, and identifies glycosylation enzymes that were correlated with the altered glycosylation. In addition to providing a valuable resource, these results provide insights into the potential roles of glycosylation in the pathogenesis of HGSC, with the possibility of distinguishing pathological outcomes of ovarian tumors from non-tumors, as well as classifying tumor clusters.

Published
2020
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14. Repurposing Pan-HDAC Inhibitors for ARID1A-Mutated Ovarian Cancer

Author

Takeshi Fukumoto, Pyoung Hwa Park, Shuai Wu, Nail Fatkhutdinov, Sergey Karakashev, Timothy Nacarelli, Andrew V. Kossenkov, David W. Speicher, Stephanie Jean, Lin Zhang, Tian-Li Wang, Ie-Ming Shih, Jose R. Conejo-Garcia, Benjamin G. Bitler, and Rugang Zhang

Subjects
Biology (General), QH301-705.5
Abstract

Summary: ARID1A, a subunit of the SWI/SNF complex, is among the most frequently mutated genes across cancer types. ARID1A is mutated in more than 50% of ovarian clear cell carcinomas (OCCCs), diseases that have no effective therapy. Here, we show that ARID1A mutation confers sensitivity to pan-HDAC inhibitors such as SAHA in ovarian cancers. This correlated with enhanced growth suppression induced by the inhibition of HDAC2 activity in ARID1A-mutated cells. HDAC2 interacts with EZH2 in an ARID1A status-dependent manner. HDAC2 functions as a co-repressor of EZH2 to suppress the expression of EZH2/ARID1A target tumor suppressor genes such as PIK3IP1 to inhibit proliferation and promote apoptosis. SAHA reduced the growth and ascites of the ARID1A-inactivated OCCCs in both orthotopic and genetic mouse models. This correlated with a significant improvement of survival of mice bearing ARID1A-mutated OCCCs. These findings provided preclinical rationales for repurposing FDA-approved pan-HDAC inhibitors for treating ARID1A-mutated cancers. : Fukumoto et al. show that ARID1A mutation confers sensitivity to pan-HDAC inhibitors such as SAHA in ovarian cancers. This correlated with enhanced growth suppression induced by the inhibition of HDAC2 activity in ARID1A-mutated cells. These findings provided preclinical rationales for repurposing FDA-approved pan-HDAC inhibitors for treating ARID1A-mutated cancers. Keywords: ovarian cancer, ARID1A, HDAC2, pan-HDAC inhibitor, SAHA, SWI/SNF, chromatin remodeling

Published
2018
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15. High grade serous ovarian carcinomas originate in the fallopian tube

Author

S. Intidhar Labidi-Galy, Eniko Papp, Dorothy Hallberg, Noushin Niknafs, Vilmos Adleff, Michael Noe, Rohit Bhattacharya, Marian Novak, Siân Jones, Jillian Phallen, Carolyn A. Hruban, Michelle S. Hirsch, Douglas I. Lin, Lauren Schwartz, Cecile L. Maire, Jean-Christophe Tille, Michaela Bowden, Ayse Ayhan, Laura D. Wood, Robert B. Scharpf, Robert Kurman, Tian-Li Wang, Ie-Ming Shih, Rachel Karchin, Ronny Drapkin, and Victor E. Velculescu

Subjects
Science
Abstract

It has previously been proposed that high-grade serous ovarian carcinoma (HGSOC) may originate from the fallopian tube. Here, the authors analyze genetic aberrances in fallopian tube lesions, ovarian cancers, and metastases from HGSOC patients and establish the evolutionary origins of HGSOC in the fallopian tube.

Published
2017
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16. Molecular analysis of high-grade serous ovarian carcinoma with and without associated serous tubal intra-epithelial carcinoma

Author

Jennifer Ducie, Fanny Dao, Michael Considine, Narciso Olvera, Patricia A. Shaw, Robert J. Kurman, Ie-Ming Shih, Robert A. Soslow, Leslie Cope, and Douglas A. Levine

Subjects
Science
Abstract

High-grade serous carcinomas (HGSCs) are associated with precursor lesions (STICs) in the fallopian epithelium in only half of the cases. Here the authors report the molecular analysis of HGSCs with and without associated STICs and show similar profiles supporting a common origin for all HGSCs.

Published
2017
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17. CINdex: A Bioconductor Package for Analysis of Chromosome Instability in DNA Copy Number Data

Author

Lei Song, Krithika Bhuvaneshwar, Yue Wang, Yuanjian Feng, Ie-Ming Shih, Subha Madhavan, and Yuriy Gusev

Subjects
Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

The CINdex Bioconductor package addresses an important area of high-throughput genomic analysis. It calculates the chromosome instability (CIN) index, a novel measurement that quantitatively characterizes genome-wide copy number alterations (CNAs) as a measure of CIN. The advantage of this package is an ability to compare CIN index values between several groups for patients (case and control groups), which is a typical use case in translational research. The differentially changed cytobands or chromosomes can then be linked to genes located in the affected genomic regions, as well as pathways. This enables in-depth systems biology–based network analysis and assessment of the impact of CNA on various biological processes or clinical outcomes. This package was successfully applied to analysis of DNA copy number data in colorectal cancer as a part of multi-omics integrative study as well as for analysis of several other cancer types. The source code, along with an end-to-end tutorial, and example data are freely available in Bioconductor at http://bioconductor.org/packages/CINdex/ .

Published
2017
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18. The Role of Forkhead Box Q1 Transcription Factor in Ovarian Epithelial Carcinomas

Author

Tian-Li Wang, Min Gao, and Ie-Ming Shih

Subjects
ovarian cancer, FOXQ1, survival, migration, invasion, Biology (General), QH301-705.5, Chemistry, QD1-999
Abstract

The role of the forkhead box Q1 (FOXQ1) transcription factor in cancer pathogenesis has recently emerged. Overexpression of FOXQ1 has been found in a variety of human cancers, and its upregulation has been associated with poor prognosis in colorectal, breast, and non-small cell lung carcinomas. However, the molecular mechanism underlying how FOXQ1 contributes to ovarian epithelial carcinomas remains unclear. To this end, we analyzed gene expression levels in ovarian cancer tissues and cell lines and demonstrated a higher expression level of FOXQ1 in epithelial ovarian cancer cells than that in normal epithelial cells. We then used a human ovarian cancer cell line, SKOV3, which expressed a higher level of FOXQ1, as a cell model to investigate the biological effects of FOXQ1 by using RNA interference. Silencing of FOXQ1 expression using a shRNA knockdown approach affected the expression of several cell cycle regulators, leading to suppressed cell proliferation, reduced cell motility/invasion, and upregulation of epithelial cell markers and the downregulation of mesenchymal cell markers. Taken together, these results suggest that FOXQ1 expression is essential to maintain cell proliferation, motility/invasion, and epithelial-mesenchymal transition phenotypes in ovarian cancer cells.

Published
2012
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19. Functional Analysis of In-frame Indel ARID1A Mutations Reveals New Regulatory Mechanisms of Its Tumor Suppressor Functions

Author

Bin Guan, Min Gao, Chen-Hsuan Wu, Tian-Li Wang, and Ie-Ming Shih

Subjects
Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

AT-rich interactive domain 1A (ARID1A) has emerged as a new tumor suppressor in which frequent somatic mutations have been identified in several types of human cancers. Although most ARID1A somatic mutations are frame-shift or nonsense mutations that contribute to mRNA decay and loss of protein expression, 5% of ARID1A mutations are in-frame insertions or deletions (indels) that involve only a small stretch of peptides. Naturally occurring in-frame indel mutations provide unique and useful models to explore the biology and regulatory role of ARID1A. In this study, we analyzed indel mutations identified in gynecological cancers to determine how these mutations affect the tumor suppressor function of ARID1A. Our results demonstrate that all in-frame mutants analyzed lost their ability to inhibit cellular proliferation or activate transcription of CDKN1A, which encodes p21, a downstream effector of ARID1A. We also showed that ARID1A is a nucleocytoplasmic protein whose stability depends on its subcellular localization. Nuclear ARID1A is less stable than cytoplasmic ARID1A because ARID1A is rapidly degraded by the ubiquitin-proteasome system in the nucleus. In-frame deletions affecting the consensus nuclear export signal reduce steady-state protein levels of ARID1A. This defect in nuclear exportation leads to nuclear retention and subsequent degradation. Our findings delineate a mechanism underlying the regulation of ARID1A subcellular distribution and protein stability and suggest that targeting the nuclear ubiquitin-proteasome system can increase the amount of the ARID1A protein in the nucleus and restore its tumor suppressor functions.

Published
2012
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20. Diagnostic potential of tumor DNA from ovarian cyst fluid

Author

Yuxuan Wang, Karin Sundfeldt, Constantina Mateoiu, Ie-Ming Shih, Robert J Kurman, Joy Schaefer, Natalie Silliman, Isaac Kinde, Simeon Springer, Michael Foote, Björg Kristjansdottir, Nathan James, Kenneth W Kinzler, Nickolas Papadopoulos, Luis A Diaz, and Bert Vogelstein

Subjects
biomarker, tumor DNA, ovarian cancer, Medicine, Science, Biology (General), QH301-705.5
Abstract

We determined whether the mutations found in ovarian cancers could be identified in the patients' ovarian cyst fluids. Tumor-specific mutations were detectable in the cyst fluids of 19 of 23 (83%) borderline tumors, 10 of 13 (77%) type I cancers, and 18 of 18 (100%) type II cancers. In contrast, no mutations were found in the cyst fluids of 18 patients with benign tumors or non-neoplastic cysts. Though large, prospective studies are needed to demonstrate the safety and clinical utility of this approach, our results suggest that the genetic evaluation of cyst fluids might be able to inform the management of the large number of women with these lesions.

Published
2016
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21. Expression of Cell Competition Markers at the Interface between p53 Signature and Normal Epithelium in the Human Fallopian Tube.

Author

Masahiko Kito, Daichi Maeda, Yukitsugu Kudo-Asabe, Naoki Sato, Ie-Ming Shih, Tian-Li Wang, Masamitsu Tanaka, Yukihiro Terada, and Akiteru Goto

Subjects
Medicine, Science
Abstract

There is a growing body of evidence regarding cell competition between normal and mutant mammalian cells, which suggest that it may play a defensive role in the early phase of carcinogenesis. In vitro study in the past has shown that overexpression of vimentin in normal epithelial cells at the contact surface with transformed cells is essential for the cell competition involved in epithelial defense against cancer. In this study, we attempted to examine cell competition in human tissue in vivo by investigating surgically resected human fallopian tubes that contain p53 signatures and serous tubal intraepithelial lesions (STILs), a linear expansion of p53-immunopositive/TP53 mutant tubal epithelial cells that are considered as precursors of pelvic high grade serous carcinoma. Immunofluorescence double staining for p53 and the cell competition marker vimentin was performed in 21 sections of human fallopian tube tissue containing 17 p53 signatures and 4 STILs. The intensities of vimentin expression at the interface between p53-positive cells at the end of the p53 signature/STIL and adjacent p53-negative normal tubal epithelial cells were compared with the background tubal epithelium. As a result, the average vimentin intensity at the interfaces relative to the background intensity was 1.076 (95% CI, 0.9412 - 1.211 for p53 signature and 0.9790 (95% CI, 0.7206 - 1.237) for STIL. Thus, it can be concluded that overexpression of the cell competition marker vimentin are not observed in human tissue with TP53 alterations.

Published
2016
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23. Clinicopathological Significance of Loss of ARID1A Immunoreactivity in Ovarian Clear Cell Carcinoma

Author

Ie-Ming Shih, Yuji Taketani, Tetsu Yano, Shunsuke Nakagawa, Daichi Maeda, Tsui-Lien Mao, and Masashi Fukayama

Subjects
ovarian, ARID1A, pathology, Biology (General), QH301-705.5, Chemistry, QD1-999
Abstract

Recent genome-wide analysis has demonstrated that somatic mutations in ARID1A (BAF250) are the most common molecular genetic changes in ovarian clear cell carcinoma (OCCC). ARID1A mutations, which occur in approximately half of OCCC cases, lead to deletion of the encoded protein and inactivation of the putative tumor suppressor. In this study, we determined the significance of loss of ARID1A immunoreactivity with respect to several clinicopathological features in a total of 149 OCCCs. First, we demonstrated that ARID1A immunohistochemistry showed concordance with the mutational status in 91% of cases with 100% sensitivity and 66% specificity. Specifically, among 12 OCCC cases for which ARIDA mutational status was known, ARIDIA immunoreactivity was undetectable in all 9 cases harboring ARID1A mutations and was undetectable in one of 3 cases with wild-type ARID1A. With respect to the entire cohort, ARID1A immunoreactivity was undetectable in 88 (59%) of 149 OCCCs. There was no significant difference between ARID1A negative and positive cases in terms of histopathologic features, age, clinical stage, or overall survival. In conclusion, this study provides further evidence that mutations in ARID1A resulted in loss of ARID1A protein expression in OCCC, although no significant differences between ARID1A positive and negative cases were observed with respect to any clinicopathological features examined.

Published
2010
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24. HLA-G and Immune Evasion in Cancer Cells

Author

Jim Sheu and Ie-Ming Shih

Subjects
cancer, HLA-G, immunosurveillance, therapeutics, Medicine (General), R5-920
Abstract

Acquisition of novel gene products or new antigens in cancer cells elicits a host immune response that results in selection pressure for tumor clones to evade immunosurveillance. Similar to maternal–fetal tolerance and allotransplantation acceptance, upregulation of HLA-G expression has been found as one of the mechanisms that are programmed in cancer cells. HLA-G expression is frequently detected in a wide variety of human cancers and its protein levels negatively correlate with poor clinical outcome. The immune inhibitory effect can be achieved by binding of HLA-G molecules to the immunoglobulin-like inhibitory receptors that are expressed on the immunocompetent cells at all stages of the immune response. This review summarizes recent studies of HLA-G expression in human cancer, with a special focus on the molecular mechanisms that underlie how HLA-G molecules facilitate tumor cell evasion of the host immune response, and presents new directions for developing HLA-G-based diagnosis/therapeutics.

Published
2010
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25. Suppression of Annexin A11 in Ovarian Cancer: Implications in Chemoresistance

Author

Jin Song, Ie-Ming Shih, Daniel W. Chan, and Zhen Zhang

Subjects
Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Ovarian cancer patients treated with cisplatin-based chemotherapy often develop acquired cisplatin resistance and, consequently, cancer recurrence. We have previously reported that annexin A11 is associated with cisplatin resistance and related to tumor recurrence in ovarian cancer patients. In this study, we used small interfering RNA to suppress annexin A11 expression in ovarian cancer cells followed by various in vitro assays. We showed that knockdown of annexin A11 expression reduced cell proliferation and colony formation ability of ovarian cancer cells. Epigenetic silencing of annexin A11 conferred cisplatin resistance to ovarian cancer cells. Through a comprehensive time course study of cisplatin response in ovarian cancer cells with/without suppression of annexin A11 expression using whole-genome oligonucleotide microarrays, we identified a set of differentially expressed genes associated with annexin A11 expression and some patterns of gene expressions in response to cisplatin exposure. These identified genes/patterns were further validated by real-time polymerase chain reaction and immunoblot analysis. Many of them such as HMOX1, TGFBI, LY6D, S100P, EIF4EBP2, DHRS2, and PCSK9 have been involved in apoptosis, cell cycling/proliferation, cell adhesion/migration, transcription regulation, and signal transduction. In addition, immunohistochemistry analyses indicated that annexin A11 immunointensity inversely correlated with HMOX1 immunoreactivity in 142 ovarian cancer patients. In contrast to annexin A11, HMOX1 immunoreactivity positively correlated with in vitro cisplatin resistance in ovarian cancers. Collectively, annexin A11 is directly involved in cell proliferation and cisplatin resistance of ovarian cancer. Manipulation of annexin A11 and its associated genes may represent a novel therapeutic strategy in human ovarian cancers.

Published
2009
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26. Notch3 interactome analysis identified WWP2 as a negative regulator of Notch3 signaling in ovarian cancer.

Author

Jin-Gyoung Jung, Alexander Stoeck, Bin Guan, Ren-Chin Wu, Heng Zhu, Seth Blackshaw, Ie-Ming Shih, and Tian-Li Wang

Subjects
Genetics, QH426-470
Abstract

The Notch3 signaling pathway is thought to play a critical role in cancer development, as evidenced by the Notch3 amplification and rearrangement observed in human cancers. However, the molecular mechanism by which Notch3 signaling contributes to tumorigenesis is largely unknown. In an effort to identify the molecular modulators of the Notch3 signaling pathway, we screened for Notch3-intracellular domain (N3-ICD) interacting proteins using a human proteome microarray. Pathway analysis of the Notch3 interactome demonstrated that ubiquitin C was the molecular hub of the top functional network, suggesting the involvement of ubiquitination in modulating Notch3 signaling. Thereby, we focused on functional characterization of an E3 ubiquitin-protein ligase, WWP2, a top candidate in the Notch3 interactome list. Co-immunoprecipitation experiments showed that WWP2 interacted with N3-ICD but not with intracellular domains from other Notch receptors. Wild-type WWP2 but not ligase-deficient mutant WWP2 increases mono-ubiquitination of the membrane-tethered Notch3 fragment, therefore attenuating Notch3 pathway activity in cancer cells and leading to cell cycle arrest. The mono-ubiquitination by WWP2 may target an endosomal/lysosomal degradation fate for Notch3 as suggested by the fact that the process could be suppressed by the endosomal/lysosomal inhibitor. Analysis of The Cancer Genome Atlas dataset showed that the majority of ovarian carcinomas harbored homozygous or heterozygous deletions in WWP2 locus, and there was an inverse correlation in the expression levels between WWP2 and Notch3 in ovarian carcinomas. Furthermore, ectopic expression of WWP2 decreased tumor development in a mouse xenograft model and suppressed the Notch3-induced phenotypes including increase in cancer stem cell-like cell population and platinum resistance. Taken together, our results provide evidence that WWP2 serves as a tumor suppressor by negatively regulating Notch3 signaling in ovarian cancer.

Published
2014
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27. Loss of NAC1 expression is associated with defective bony patterning in the murine vertebral axis.

Author

Kai Lee Yap, Polina Sysa-Shah, Brad Bolon, Ren-Chin Wu, Min Gao, Alice L Herlinger, Fengying Wang, Francesco Faiola, David Huso, Kathleen Gabrielson, Tian-Li Wang, Jianlong Wang, and Ie-Ming Shih

Subjects
Medicine, Science
Abstract

NAC1 encoded by NACC1 is a member of the BTB/POZ family of proteins and participates in several pathobiological processes. However, its function during tissue development has not been elucidated. In this study, we compared homozygous null mutant Nacc1(-/-) and wild type Nacc1(+/+) mice to determine the consequences of diminished NAC1 expression. The most remarkable change in Nacc1(-/-) mice was a vertebral patterning defect in which most knockout animals exhibited a morphological transformation of the sixth lumbar vertebra (L6) into a sacral identity; thus, the total number of pre-sacral vertebrae was decreased by one (to 25) in Nacc1(-/-) mice. Heterozygous Nacc1(+/-) mice had an increased tendency to adopt an intermediate phenotype in which L6 underwent partial sacralization. Nacc1(-/-) mice also exhibited non-closure of the dorsal aspects of thoracic vertebrae T10-T12. Chondrocytes from Nacc1(+/+) mice expressed abundant NAC1 while Nacc1(-/-) chondrocytes had undetectable levels. Loss of NAC1 in Nacc1(-/-) mice was associated with significantly reduced chondrocyte migratory potential as well as decreased expression of matrilin-3 and matrilin-4, two cartilage-associated extracellular matrix proteins with roles in the development and homeostasis of cartilage and bone. These data suggest that NAC1 participates in the motility and differentiation of developing chondrocytes and cartilaginous tissues, and its expression is necessary to maintain normal axial patterning of murine skeleton.

Published
2013
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28. Identification of PBX1 target genes in cancer cells by global mapping of PBX1 binding sites.

Author

Michelle M Thiaville, Alexander Stoeck, Li Chen, Ren-Chin Wu, Luca Magnani, Jessica Oidtman, Ie-Ming Shih, Mathieu Lupien, and Tian-Li Wang

Subjects
Medicine, Science
Abstract

PBX1 is a TALE homeodomain transcription factor involved in organogenesis and tumorigenesis. Although it has been shown that ovarian, breast, and melanoma cancer cells depend on PBX1 for cell growth and survival, the molecular mechanism of how PBX1 promotes tumorigenesis remains unclear. Here, we applied an integrated approach by overlapping PBX1 ChIP-chip targets with the PBX1-regulated transcriptome in ovarian cancer cells to identify genes whose transcription was directly regulated by PBX1. We further determined if PBX1 target genes identified in ovarian cancer cells were co-overexpressed with PBX1 in carcinoma tissues. By analyzing TCGA gene expression microarray datasets from ovarian serous carcinomas, we found co-upregulation of PBX1 and a significant number of its direct target genes. Among the PBX1 target genes, a homeodomain protein MEOX1 whose DNA binding motif was enriched in PBX1-immunoprecipicated DNA sequences was selected for functional analysis. We demonstrated that MEOX1 protein interacts with PBX1 protein and inhibition of MEOX1 yields a similar growth inhibitory phenotype as PBX1 suppression. Furthermore, ectopically expressed MEOX1 functionally rescued the PBX1-withdrawn effect, suggesting MEOX1 mediates the cellular growth signal of PBX1. These results demonstrate that MEOX1 is a critical target gene and cofactor of PBX1 in ovarian cancers.

Published
2012
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29. Oncoproteomic analysis reveals co-upregulation of RELA and STAT5 in carboplatin resistant ovarian carcinoma.

Author

Natini Jinawath, Chanont Vasoontara, Artit Jinawath, Xueping Fang, Kejia Zhao, Kai-Lee Yap, Tong Guo, Cheng S Lee, Weijie Wang, Brian M Balgley, Ben Davidson, Tian-Li Wang, and Ie-Ming Shih

Subjects
Medicine, Science
Abstract

Ovarian cancer is one of the most lethal types of female malignancy. Although most patients are initially responsive to platinum-based chemotherapy, almost all develop recurrent chemoresistant tumors and succumb to their diseases. Elucidating the pathogenesis underlying drug resistance is fundamental to the development of new therapeutics, leading to improved clinical outcomes in these patients.We compared the proteomes of paired primary and recurrent post-chemotherapy ovarian high-grade serous carcinomas from nine ovarian cancer patients using CIEF/Nano-RPLC coupled with ESI-Tandem MS. As compared to their primary tumors, more than half of the recurrent tumors expressed higher levels of several proteins including CP, FN1, SYK, CD97, AIF1, WNK1, SERPINA3, APOD, URP2, STAT5B and RELA (NF-kappaB p65), which were also validated by quantitative RT-PCR. Based on shRNA screening for the upregulated genes in in vitro carboplatin-resistant cells, we found that simultaneous knockdown of RELA and STAT5B was most effective in sensitizing tumor cells for carboplatin treatment. Similarly, the NF-kappaB inhibitor, BMS-345541, and the STAT5 inhibitor, Dasatinib, significantly enhanced cell sensitivity to carboplatin. Moreover, both RELA and STAT5 are known to bind to the promoter region of Bcl-X, regulating its promoter activity. In this regard, augmented Bcl-xL expression was detected in carboplatin-resistant cells. Combined ectopic expression of RELA and STAT5B enhanced Bcl-xL promoter activity while treatment with BMS-345541 and Dasatinib decreased it. Chromatin immunoprecipitation of the Bcl-X promoter region using a STAT5 antibody showed induction of RELA and STAT5 DNA-binding segments both in naïve cells treated with a high concentration of carboplatin as well as in carboplatin-resistant cells.Proteomic analysis identified RELA and STAT5 as two major proteins associated with carboplatin resistance in ovarian tumors. Our results further showed that NF-kappaB and STAT5 inhibitor could sensitize carboplatin-resistant cells and suggest that such inhibitors can be used to benefit patients with carboplatin-resistant recurrent ovarian cancer.

Published
2010
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30. MicroRNA expression and identification of putative miRNA targets in ovarian cancer.

Author

Neetu Dahiya, Cheryl A Sherman-Baust, Tian-Li Wang, Ben Davidson, Ie-Ming Shih, Yongqing Zhang, William Wood, Kevin G Becker, and Patrice J Morin

Subjects
Medicine, Science
Abstract

MicroRNAs (miRNAs) represent a class of small non-coding RNAs that control gene expression by targeting mRNAs and triggering either translation repression or RNA degradation. Emerging evidence suggests the potential involvement of altered regulation of miRNA in the pathogenesis of cancers, and these genes are thought to function as both tumor suppressors and oncogenes.Using microRNA microarrays, we identify several miRNAs aberrantly expressed in human ovarian cancer tissues and cell lines. miR-221 stands out as a highly elevated miRNA in ovarian cancer, while miR-21 and several members of the let-7 family are found downregulated. Public databases were used to reveal potential targets for the highly differentially expressed miRNAs. In order to experimentally identify transcripts whose stability may be affected by the differentially expressed miRNAs, we transfected precursor miRNAs into human cancer cell lines and used oligonucleotide microarrays to examine changes in the mRNA levels. Interestingly, there was little overlap between the predicted and the experimental targets or pathways, or between experimental targets/pathways obtained using different cell lines, highlighting the complexity of miRNA target selection.Our results identify several differentially expressed miRNAs in ovarian cancer and identify potential target transcripts that may be regulated by these miRNAs. These miRNAs and their targets may have important roles in the initiation and development of ovarian cancer.

Published
2008
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32. Multi-compartment tumor organoids

Author

Meng-Horng Lee, Gabriella C. Russo, Yohan Suryo Rahmanto, Wenxuan Du, Ashleigh J. Crawford, Pei-Hsun Wu, Daniele Gilkes, Ashley Kiemen, Tsutomu Miyamoto, Yu Yu, Mehran Habibi, Ie-Ming Shih, Tian-Li Wang, and Denis Wirtz

Subjects
Mechanics of Materials, Mechanical Engineering, General Materials Science, Condensed Matter Physics
Published
2022

34. Combination ATR (ceralasertib) and PARP (olaparib) Inhibitor (CAPRI) trial in acquired PARP-inhibitor-resistant homologous recombination deficient ovarian cancer

Author

Stephanie L. Wethington, Payal D. Shah, Lainie Martin, Janos L. Tanyi, Nawar Latif, Mark Morgan, Drew A. Torigian, Diego Rodriguez, Simon A. Smith, Emma Dean, Susan M. Domchek, Ronny Drapkin, Ie-Ming Shih, Eric J. Brown, Wei-Ting Hwang, Deborah K. Armstrong, Stephanie Gaillard, Robert Giuntoli, and Fiona Simpkins

Subjects
Cancer Research, Oncology
Abstract

Purpose: Addition of ataxia telangiectasia and Rad3-related kinase inhibitors (ATRi) to poly-ADP ribose polymerase inhibitors (PARPi) overcomes PARPi-resistance in high grade serous ovarian cancer (HGSOC) cell and mouse models. We present the results of an investigator-initiated study of combination PARPi(olaparib) and ATRi(ceralasertib) in patients with acquired PARPi-resistant HGSOC. Patients and Methods: Eligible patients had recurrent, platinum-sensitive BRCA1/2 mutated or homologous recombination (HR) deficient HGSOC and clinically benefited from PARPi (response by imaging/CA-125 or duration of maintenance therapy; >12 months 1st-line or >6 months ≥2nd-line) before progression. No intervening chemotherapy was permitted. Patients received olaparib 300mg twice daily and ceralasertib 160mg daily on days 1-7 of a 28-day cycle. Primary objectives were safety and objective response rate (ORR). Results: Thirteen patients enrolled were evaluable for safety and 12 for efficacy. 62%(n=8) had germline BRCA1/2 mutations, 23% (n=3) somatic BRCA1/2 mutations, and 15%(n=2) HR-deficient tumors. Prior PARPi indication was treatment for recurrence (54%, n=7), 2nd line-maintenance (38%, n=5), and frontline treatment with carboplatin/paclitaxel (8%, n=1). There were 6 partial responses yielding an ORR of 50% (95% CI:0.15, 0.72). Median treatment duration was 8 cycles (range 4-23+). Grade(G) 3/4 toxicities were 38%(n=5); 15%(n=2) G3 anemia, 23%(n=3) G3 thrombocytopenia, 8% (n=1) G4 neutropenia. Four patients required dose-reductions. No patient discontinued treatment due to toxicity. Conclusion: Combination olaparib and ceralasertib is tolerable and shows activity in HR-deficient platinum-sensitive recurrent HGSOC that benefited and then progressed with PARPi as the penultimate regimen. These data suggest that ceralasertib re-sensitizes PARPi resistant HGSOCs to olaparib, warranting further investigation.

Published
2023

35. Data from PVRIG and PVRL2 Are Induced in Cancer and Inhibit CD8+ T-cell Function

Author

Spencer C. Liang, Drew M. Pardoll, Mark White, Ie-Ming Shih, Tian-Li Wang, Amanda Nickles Fader, Janis M. Taube, Abha Soni, Benjamin Murter, David Bernados, Kyle Hansen, Liat Dassa, Sandeep Kumar, Ilan Vaknin, Ling Leung, Sudipto Ganguly, Ofer Levy, Maya F. Kotturi, Eran Ophir, and Sarah Whelan

Abstract

Although checkpoint inhibitors that block CTLA-4 and PD-1 have improved cancer immunotherapies, targeting additional checkpoint receptors may be required to broaden patient response to immunotherapy. PVRIG is a coinhibitory receptor of the DNAM/TIGIT/CD96 nectin family that binds to PVRL2. We report that antagonism of PVRIG and TIGIT, but not CD96, increased CD8+ T-cell cytokine production and cytotoxic activity. The inhibitory effect of PVRL2 was mediated by PVRIG and not TIGIT, demonstrating that the PVRIG–PVRL2 pathway is a nonredundant signaling node. A combination of PVRIG blockade with TIGIT or PD-1 blockade further increased T-cell activation. In human tumors, PVRIG expression on T cells was increased relative to normal tissue and trended with TIGIT and PD-1 expression. Tumor cells coexpressing PVR and PVRL2 were observed in multiple tumor types, with highest coexpression in endometrial cancers. Tumor cells expressing either PVR or PVRL2 were also present in numbers that varied with the cancer type, with ovarian cancers having the highest percentage of PVR−PVRL2+ tumor cells and colorectal cancers having the highest percentage of PVR+PVRL2− cells. To demonstrate a role of PVRIG and TIGIT on tumor-derived T cells, we examined the effect of PVRIG and TIGIT blockade on human tumor-infiltrating lymphocytes. For some donors, blockade of PVRIG increased T-cell function, an effect enhanced by combination with TIGIT or PD-1 blockade. In summary, we demonstrate that PVRIG and PVRL2 are expressed in human cancers and the PVRIG–PVRL2 and TIGIT–PVR pathways are nonredundant inhibitory signaling pathways.See related article on p. 244

Published
2023

38. Supplementary Table 4 from HIST1H2BB and MAGI2 Methylation and Somatic Mutations as Precision Medicine Biomarkers for Diagnosis and Prognosis of High-grade Serous Ovarian Cancer

Author

Rafael Guerrero-Preston, David Sidransky, Ie-Ming Shih, James Herman, James R. Eshleman, Priscilla Brebi-Mieville, Carmen Ili-Gangas, Oluwasina Folawiyo, Fahcina P. Lawson, Edgardo Parrilla-Castellar, Teresa Díaz-Montes, Elisabetta Kuhn, Sebastian Rodriguez-Torres, and Blanca L. Valle

Abstract

Somatic mutations and single nucleotide variants (SNVs) in paired tissue from cervical swabs, serum/plasma and urine from patient TG01

Published
2023

39. Supplementary Figure 1 from HIST1H2BB and MAGI2 Methylation and Somatic Mutations as Precision Medicine Biomarkers for Diagnosis and Prognosis of High-grade Serous Ovarian Cancer

Author

Rafael Guerrero-Preston, David Sidransky, Ie-Ming Shih, James Herman, James R. Eshleman, Priscilla Brebi-Mieville, Carmen Ili-Gangas, Oluwasina Folawiyo, Fahcina P. Lawson, Edgardo Parrilla-Castellar, Teresa Díaz-Montes, Elisabetta Kuhn, Sebastian Rodriguez-Torres, and Blanca L. Valle

Abstract

Supplementary Figure 1

Published
2023

41. Supplementary Figure 4 from HIST1H2BB and MAGI2 Methylation and Somatic Mutations as Precision Medicine Biomarkers for Diagnosis and Prognosis of High-grade Serous Ovarian Cancer

Author

Rafael Guerrero-Preston, David Sidransky, Ie-Ming Shih, James Herman, James R. Eshleman, Priscilla Brebi-Mieville, Carmen Ili-Gangas, Oluwasina Folawiyo, Fahcina P. Lawson, Edgardo Parrilla-Castellar, Teresa Díaz-Montes, Elisabetta Kuhn, Sebastian Rodriguez-Torres, and Blanca L. Valle

Abstract

Supplementary Figure 4

Published
2023

43. Supplementary Figure 2 from HIST1H2BB and MAGI2 Methylation and Somatic Mutations as Precision Medicine Biomarkers for Diagnosis and Prognosis of High-grade Serous Ovarian Cancer

Author

Rafael Guerrero-Preston, David Sidransky, Ie-Ming Shih, James Herman, James R. Eshleman, Priscilla Brebi-Mieville, Carmen Ili-Gangas, Oluwasina Folawiyo, Fahcina P. Lawson, Edgardo Parrilla-Castellar, Teresa Díaz-Montes, Elisabetta Kuhn, Sebastian Rodriguez-Torres, and Blanca L. Valle

Abstract

Supplementary Figure 2

Published
2023

44. Supplementary Figure Legends from HIST1H2BB and MAGI2 Methylation and Somatic Mutations as Precision Medicine Biomarkers for Diagnosis and Prognosis of High-grade Serous Ovarian Cancer

Author

Rafael Guerrero-Preston, David Sidransky, Ie-Ming Shih, James Herman, James R. Eshleman, Priscilla Brebi-Mieville, Carmen Ili-Gangas, Oluwasina Folawiyo, Fahcina P. Lawson, Edgardo Parrilla-Castellar, Teresa Díaz-Montes, Elisabetta Kuhn, Sebastian Rodriguez-Torres, and Blanca L. Valle

Abstract

Legends for Supplementary Figures 1-4

Published
2023

46. Supplementary Figures 1 - 16 from ARID1A Deficiency Impairs the DNA Damage Checkpoint and Sensitizes Cells to PARP Inhibitors

Author

Guang Peng, Gordon B. Mills, Xuetong Shen, Powel H. Brown, Xiangwei Wu, Ivan P. Uray, Ie-Ming Shih, Qianxing Mo, Zhenlin Ju, Prabodh Kapoor, Li Lan, Lin Yang, Wei Zhang, Leizhen Wei, Yang Peng, and Jianfeng Shen

Abstract

Supplementary Figure 1. Proteomic analysis of ATR-interacting proteins. Supplementary Figure 2. ARID1A interacts with ATR in MDA-MB-231 Cells. Supplementary Figure 3. ARID1A recruitment to I-SceI-induced DSBs analyzed by ChIP assay. Supplementary Figure 4. Schematic diagram of KillerRed system in U2OS TRE cells. Supplementary Figure 5. Expression of ARID1A mutants. Supplementary Figure 6. Knockdown BRG1, BRM, or ARID1A in U2OS cells. Supplementary Figure 7. ARID1A depletion did not affect the number of ATM foci after exposure to IR. Supplementary Figure 8. (A) ARID1A depletion did not affect the presence of DSBs after exposure to IR. Supplementary Figure 9. ARID1A depletion did not affect the expression of DSB end resection factors. Supplementary Figure 10. ARID1A depletion did not affect the expression of ATM and MRN complex. Supplementary Figure 11. (A) ARID1A depletion sensitize MDA-MB-231 cells to PARP inhibitor. Supplementary Figure 12. ARID1A knockdown sensitizes ovarian cancer cell line HOC8 to PARP inhibitor. Supplementary Figure 13. Ovarian cancer cells with lower expression levels of ARID1A are more sensitive to PARP inhibitor treatment than cells with higher ARID1A expression levels. Supplementary Figure 14. Rescuing experiments were conducted with ARID1A wild-type and mutant constructs (deletion mutants/patient-derived mutants). Supplementary Figure 15. ATR inhibitor sensitizes cells to PAPR Inhibitor treatment. Supplementary Figure 16. Proposed model for ARID1A function in DSB End Resection and repair.

Published
2023

47. Supplementary Table 2 from HIST1H2BB and MAGI2 Methylation and Somatic Mutations as Precision Medicine Biomarkers for Diagnosis and Prognosis of High-grade Serous Ovarian Cancer

Author

Rafael Guerrero-Preston, David Sidransky, Ie-Ming Shih, James Herman, James R. Eshleman, Priscilla Brebi-Mieville, Carmen Ili-Gangas, Oluwasina Folawiyo, Fahcina P. Lawson, Edgardo Parrilla-Castellar, Teresa Díaz-Montes, Elisabetta Kuhn, Sebastian Rodriguez-Torres, and Blanca L. Valle

Abstract

Survival alleles at SNV level

Published
2023

48. Supplementary Figure 3 from HIST1H2BB and MAGI2 Methylation and Somatic Mutations as Precision Medicine Biomarkers for Diagnosis and Prognosis of High-grade Serous Ovarian Cancer

Author

Rafael Guerrero-Preston, David Sidransky, Ie-Ming Shih, James Herman, James R. Eshleman, Priscilla Brebi-Mieville, Carmen Ili-Gangas, Oluwasina Folawiyo, Fahcina P. Lawson, Edgardo Parrilla-Castellar, Teresa Díaz-Montes, Elisabetta Kuhn, Sebastian Rodriguez-Torres, and Blanca L. Valle

Abstract

Supplementary Figure 3

Published
2023

50. Supplementary Table 3 from HIST1H2BB and MAGI2 Methylation and Somatic Mutations as Precision Medicine Biomarkers for Diagnosis and Prognosis of High-grade Serous Ovarian Cancer

Author

Rafael Guerrero-Preston, David Sidransky, Ie-Ming Shih, James Herman, James R. Eshleman, Priscilla Brebi-Mieville, Carmen Ili-Gangas, Oluwasina Folawiyo, Fahcina P. Lawson, Edgardo Parrilla-Castellar, Teresa Díaz-Montes, Elisabetta Kuhn, Sebastian Rodriguez-Torres, and Blanca L. Valle

Abstract

Methylation and mutation associations

Published
2023

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