Your search keyword '"Michael C. Haffner"' showing total 261 results

1. CDC7 inhibition impairs neuroendocrine transformation in lung and prostate tumors through MYC degradation

Author

Alvaro Quintanal-Villalonga, Kenta Kawasaki, Esther Redin, Fathema Uddin, Swanand Rakhade, Vidushi Durani, Amin Sabet, Moniquetta Shafer, Wouter R. Karthaus, Samir Zaidi, Yingqian A. Zhan, Parvathy Manoj, Harsha Sridhar, Dennis Kinyua, Hong Zhong, Barbara P. Mello, Metamia Ciampricotti, Umesh K. Bhanot, Irina Linkov, Juan Qiu, Radhika A. Patel, Colm Morrissey, Sanjoy Mehta, Jesse Barnes, Michael C. Haffner, Nicholas D. Socci, Richard P. Koche, Elisa de Stanchina, Sonia Molina-Pinelo, Sohrab Salehi, Helena A. Yu, Joseph M. Chan, and Charles M. Rudin

Subjects

Medicine, Biology (General), QH301-705.5

Abstract

Abstract Neuroendocrine (NE) transformation is a mechanism of resistance to targeted therapy in lung and prostate adenocarcinomas leading to poor prognosis. Up to date, even if patients at high risk of transformation can be identified by the occurrence of Tumor Protein P53 (TP53) and Retinoblastoma Transcriptional Corepressor 1 (RB1) mutations in their tumors, no therapeutic strategies are available to prevent or delay histological transformation. Upregulation of the cell cycle kinase Cell Division Cycle 7 (CDC7) occurred in tumors during the initial steps of NE transformation, already after TP53/RB1 co-inactivation, leading to induced sensitivity to the CDC7 inhibitor simurosertib. CDC7 inhibition suppressed NE transdifferentiation and extended response to targeted therapy in in vivo models of NE transformation by inducing the proteasome-mediated degradation of the MYC Proto-Oncogen (MYC), implicated in stemness and histological transformation. Ectopic overexpression of a degradation-resistant MYC isoform reestablished the NE transformation phenotype observed on targeted therapy, even in the presence of simurosertib. CDC7 inhibition also markedly extended response to standard cytotoxics (cisplatin, irinotecan) in lung and prostate small cell carcinoma models. These results nominate CDC7 inhibition as a therapeutic strategy to constrain lineage plasticity, as well as to effectively treat NE tumors de novo or after transformation. As simurosertib clinical efficacy trials are ongoing, this concept could be readily translated for patients at risk of transformation.

Published

2024

2. Assessment of TROP2, CEACAM5 and DLL3 in metastatic prostate cancer: Expression landscape and molecular correlates

Author

Azra Ajkunic, Erolcan Sayar, Martine P. Roudier, Radhika A. Patel, Ilsa M. Coleman, Navonil De Sarkar, Brian Hanratty, Mohamed Adil, Jimmy Zhao, Samir Zaidi, Lawrence D. True, Jamie M. Sperger, Heather H. Cheng, Evan Y. Yu, Robert B. Montgomery, Jessica E. Hawley, Gavin Ha, Thomas Persse, Patricia Galipeau, John K. Lee, Stephanie A. Harmon, Eva Corey, Joshua M. Lang, Charles L. Sawyers, Colm Morrissey, Michael T. Schweizer, Roman Gulati, Peter S. Nelson, and Michael C. Haffner

Subjects

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

Abstract

Abstract Therapeutic approaches targeting proteins on the surface of cancer cells have emerged as an important strategy for precision oncology. To capitalize on the potential impact of drugs targeting surface proteins, detailed knowledge about the expression patterns of the target proteins in tumor tissues is required. In castration-resistant prostate cancer (CRPC), agents targeting prostate-specific membrane antigen (PSMA) have demonstrated clinical activity. However, PSMA expression is lost in a significant number of CRPC tumors. The identification of additional cell surface targets is necessary to develop new therapeutic approaches. Here, we performed a comprehensive analysis of the expression heterogeneity and co-expression patterns of trophoblast cell-surface antigen 2 (TROP2), delta-like ligand 3 (DLL3), and carcinoembryonic antigen-related cell adhesion molecule 5 (CEACAM5) in CRPC samples from a rapid autopsy cohort. We show that DLL3 and CEACAM5 exhibit the highest expression in neuroendocrine prostate cancer (NEPC), while TROP2 is expressed across different CRPC molecular subtypes, except for NEPC. We further demonstrated that AR alterations were associated with higher expression of PSMA and TROP2. Conversely, PSMA and TROP2 expression was lower in RB1-altered tumors. In addition to genomic alterations, we show a tight correlation between epigenetic states, particularly histone H3 lysine 27 methylation (H3K27me3) at the transcriptional start site and gene body of TACSTD2 (encoding TROP2), DLL3, and CEACAM5, and their respective protein expression in CRPC patient-derived xenografts. Collectively, these findings provide insights into patterns and determinants of expression of TROP2, DLL3, and CEACAM5 with implications for the clinical development of cell surface targeting agents in CRPC.

Published

2024

3. SND1 binds to ERG and promotes tumor growth in genetic mouse models of prostate cancer

Author

Sheng-You Liao, Dmytro Rudoy, Sander B. Frank, Luan T. Phan, Olga Klezovitch, Julian Kwan, Ilsa Coleman, Michael C. Haffner, Dapei Li, Peter S. Nelson, Andrew Emili, and Valeri Vasioukhin

Subjects

Science

Abstract

Abstract SND1 and MTDH are known to promote cancer and therapy resistance, but their mechanisms and interactions with other oncogenes remain unclear. Here, we show that oncoprotein ERG interacts with SND1/MTDH complex through SND1’s Tudor domain. ERG, an ETS-domain transcription factor, is overexpressed in many prostate cancers. Knocking down SND1 in human prostate epithelial cells, especially those overexpressing ERG, negatively impacts cell proliferation. Transcriptional analysis shows substantial overlap in genes regulated by ERG and SND1. Mechanistically, we show that ERG promotes nuclear localization of SND1/MTDH. Forced nuclear localization of SND1 prominently increases its growth promoting function irrespective of ERG expression. In mice, prostate-specific Snd1 deletion reduces cancer growth and tumor burden in a prostate cancer model (PB-Cre/Pten flox/flox /ERG mice), Moreover, we find a significant overlap between prostate transcriptional signatures of ERG and SND1. These findings highlight SND1’s crucial role in prostate tumorigenesis, suggesting SND1 as a potential therapeutic target in prostate cancer.

Published

2023

4. An international multi-institutional validation study of the algorithm for prostate cancer detection and Gleason grading

Author

Yuri Tolkach, Vlado Ovtcharov, Alexey Pryalukhin, Marie-Lisa Eich, Nadine Therese Gaisa, Martin Braun, Abdukhamid Radzhabov, Alexander Quaas, Peter Hammerer, Ansgar Dellmann, Wolfgang Hulla, Michael C. Haffner, Henning Reis, Ibrahim Fahoum, Iryna Samarska, Artem Borbat, Hoa Pham, Axel Heidenreich, Sebastian Klein, George Netto, Peter Caie, and Reinhard Buettner

Subjects

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

Abstract

Abstract Pathologic examination of prostate biopsies is time consuming due to the large number of slides per case. In this retrospective study, we validate a deep learning-based classifier for prostate cancer (PCA) detection and Gleason grading (AI tool) in biopsy samples. Five external cohorts of patients with multifocal prostate biopsy were analyzed from high-volume pathology institutes. A total of 5922 H&E sections representing 7473 biopsy cores from 423 patient cases (digitized using three scanners) were assessed concerning tumor detection. Two tumor-bearing datasets (core n = 227 and 159) were graded by an international group of pathologists including expert urologic pathologists (n = 11) to validate the Gleason grading classifier. The sensitivity, specificity, and NPV for the detection of tumor-bearing biopsies was in a range of 0.971–1.000, 0.875–0.976, and 0.988–1.000, respectively, across the different test cohorts. In several biopsy slides tumor tissue was correctly detected by the AI tool that was initially missed by pathologists. Most false positive misclassifications represented lesions suspicious for carcinoma or cancer mimickers. The quadratically weighted kappa levels for Gleason grading agreement for single pathologists was 0.62–0.80 (0.77 for AI tool) and 0.64–0.76 (0.72 for AI tool) for the two grading datasets, respectively. In cases where consensus for grading was reached among pathologists, kappa levels for AI tool were 0.903 and 0.855. The PCA detection classifier showed high accuracy for PCA detection in biopsy cases during external validation, independent of the institute and scanner used. High levels of agreement for Gleason grading were indistinguishable between experienced genitourinary pathologists and the AI tool.

Published

2023

5. Targeting advanced prostate cancer with STEAP1 chimeric antigen receptor T cell and tumor-localized IL-12 immunotherapy

Author

Vipul Bhatia, Nikhil V. Kamat, Tiffany E. Pariva, Li-Ting Wu, Annabelle Tsao, Koichi Sasaki, Huiyun Sun, Gerardo Javier, Sam Nutt, Ilsa Coleman, Lauren Hitchcock, Ailin Zhang, Dmytro Rudoy, Roman Gulati, Radhika A. Patel, Martine P. Roudier, Lawrence D. True, Shivani Srivastava, Colm M. Morrissey, Michael C. Haffner, Peter S. Nelson, Saul J. Priceman, Jun Ishihara, and John K. Lee

Subjects

Science

Abstract

Abstract Six transmembrane epithelial antigen of the prostate 1 (STEAP1) is a cell surface antigen for therapeutic targeting in prostate cancer. Here, we report broad expression of STEAP1 relative to prostate-specific membrane antigen (PSMA) in lethal metastatic prostate cancers and the development of a STEAP1-directed chimeric antigen receptor (CAR) T cell therapy. STEAP1 CAR T cells demonstrate reactivity in low antigen density, antitumor activity across metastatic prostate cancer models, and safety in a human STEAP1 knock-in mouse model. STEAP1 antigen escape is a recurrent mechanism of treatment resistance and is associated with diminished tumor antigen processing and presentation. The application of tumor-localized interleukin-12 (IL-12) therapy in the form of a collagen binding domain (CBD)-IL-12 fusion protein combined with STEAP1 CAR T cell therapy enhances antitumor efficacy by remodeling the immunologically cold tumor microenvironment of prostate cancer and combating STEAP1 antigen escape through the engagement of host immunity and epitope spreading.

Published

2023

6. Development and Characterisation of a New Patient-Derived Xenograft Model of AR-Negative Metastatic Castration-Resistant Prostate Cancer

Author

Daniel J. Turnham, Manisha S. Mullen, Nicholas P. Bullock, Kathryn L. Gilroy, Anna E. Richards, Radhika Patel, Marcos Quintela, Valerie S. Meniel, Gillian Seaton, Howard Kynaston, Richard W. E. Clarkson, Toby J. Phesse, Peter S. Nelson, Michael C. Haffner, John N. Staffurth, and Helen B. Pearson

Subjects

patient-derived xenograft (PDX), double-negative prostate cancer (DNPC), castration-resistant prostate cancer (CRPC), neuroendocrine (NE), androgen receptor (AR), Cytology, QH573-671

Abstract

As the treatment landscape for prostate cancer gradually evolves, the frequency of treatment-induced neuroendocrine prostate cancer (NEPC) and double-negative prostate cancer (DNPC) that is deficient for androgen receptor (AR) and neuroendocrine (NE) markers has increased. These prostate cancer subtypes are typically refractory to AR-directed therapies and exhibit poor clinical outcomes. Only a small range of NEPC/DNPC models exist, limiting our molecular understanding of this disease and hindering our ability to perform preclinical trials exploring novel therapies to treat NEPC/DNPC that are urgently needed in the clinic. Here, we report the development of the CU-PC01 PDX model that represents AR-negative mCRPC with PTEN/RB/PSMA loss and CTNN1B/TP53/BRCA2 genetic variants. The CU-PC01 model lacks classic NE markers, with only focal and/or weak expression of chromogranin A, INSM1 and CD56. Collectively, these findings are most consistent with a DNPC phenotype. Ex vivo and in vivo preclinical studies revealed that CU-PC01 PDX tumours are resistant to mCRPC standard-of-care treatments enzalutamide and docetaxel, mirroring the donor patient’s treatment response. Furthermore, short-term CU-PC01 tumour explant cultures indicate this model is initially sensitive to PARP inhibition with olaparib. Thus, the CU-PC01 PDX model provides a valuable opportunity to study AR-negative mCRPC biology and to discover new treatment avenues for this hard-to-treat disease.

Published

2024

7. MYC is a regulator of androgen receptor inhibition-induced metabolic requirements in prostate cancer

Author

Preston D. Crowell, Jenna M. Giafaglione, Anthony E. Jones, Nicholas M. Nunley, Takao Hashimoto, Amelie M.L. Delcourt, Anton Petcherski, Raag Agrawal, Matthew J. Bernard, Johnny A. Diaz, Kylie Y. Heering, Rong Rong Huang, Jin-Yih Low, Nedas Matulionis, Nora M. Navone, Huihui Ye, Amina Zoubeidi, Heather R. Christofk, Matthew B. Rettig, Robert E. Reiter, Michael C. Haffner, Paul C. Boutros, Orian S. Shirihai, Ajit S. Divakaruni, and Andrew S. Goldstein

Subjects

CP: Cancer, CP: Metabolism, Biology (General), QH301-705.5

Abstract

Summary: Advanced prostate cancers are treated with therapies targeting the androgen receptor (AR) signaling pathway. While many tumors initially respond to AR inhibition, nearly all develop resistance. It is critical to understand how prostate tumor cells respond to AR inhibition in order to exploit therapy-induced phenotypes prior to the outgrowth of treatment-resistant disease. Here, we comprehensively characterize the effects of AR blockade on prostate cancer metabolism using transcriptomics, metabolomics, and bioenergetics approaches. The metabolic response to AR inhibition is defined by reduced glycolysis, robust elongation of mitochondria, and increased reliance on mitochondrial oxidative metabolism. We establish DRP1 activity and MYC signaling as mediators of AR-blockade-induced metabolic phenotypes. Rescuing DRP1 phosphorylation after AR inhibition restores mitochondrial fission, while rescuing MYC restores glycolytic activity and prevents sensitivity to complex I inhibition. Our study provides insight into the regulation of treatment-induced metabolic phenotypes and vulnerabilities in prostate cancer.

Published

2023

8. Transcriptional profiling of matched patient biopsies clarifies molecular determinants of enzalutamide-induced lineage plasticity

Author

Thomas C. Westbrook, Xiangnan Guan, Eva Rodansky, Diana Flores, Chia Jen Liu, Aaron M. Udager, Radhika A. Patel, Michael C. Haffner, Ya-Mei Hu, Duanchen Sun, Tomasz M. Beer, Adam Foye, Rahul Aggarwal, David A. Quigley, Jack F. Youngren, Charles J. Ryan, Martin Gleave, Yuzhuo Wang, Jiaoti Huang, Ilsa Coleman, Colm Morrissey, Peter S. Nelson, Christopher P. Evans, Primo Lara, Robert E. Reiter, Owen Witte, Matthew Rettig, Christopher K. Wong, Alana S. Weinstein, Vlado Uzunangelov, Josh M. Stuart, George V. Thomas, Felix Y. Feng, Eric J. Small, Joel A. Yates, Zheng Xia, and Joshi J. Alumkal

Subjects

Science

Abstract

Lineage plasticity is increasingly recognized as an emergent resistance mechanism after treatment with androgen receptor signalling inhibitors. To understand determinants of resistance, the authors analyzed the transcriptomes of patient tumor biopsies before enzalutamide treatment and at progression and identified a gene expression program associated with lineage plasticity risk and poor outcomes.

Published

2022

9. Reversible epigenetic alterations regulate class I HLA loss in prostate cancer

Author

Tamara S. Rodems, Erika Heninger, Charlotte N. Stahlfeld, Cole S. Gilsdorf, Kristin N. Carlson, Madison R. Kircher, Anupama Singh, Timothy E. G. Krueger, David J. Beebe, David F. Jarrard, Douglas G. McNeel, Michael C. Haffner, and Joshua M. Lang

Subjects

Biology (General), QH301-705.5

Abstract

Loss of HLA-I gene expression in prostate cancer is associated with repressive chromatin states, which can be reversed by pharmacological DNMT and HDAC inhibition leading to increased activation of co-cultured tumor-specific CD8+ T-cells.

Published

2022

10. Reversible epigenetic alterations mediate PSMA expression heterogeneity in advanced metastatic prostate cancer

Author

Erolcan Sayar, Radhika A. Patel, Ilsa M. Coleman, Martine P. Roudier, Ailin Zhang, Pallabi Mustafi, Jin-Yih Low, Brian Hanratty, Lisa S. Ang, Vipul Bhatia, Mohamed Adil, Hasim Bakbak, David A. Quigley, Michael T. Schweizer, Jessica E. Hawley, Lori Kollath, Lawrence D. True, Felix Y. Feng, Neil H. Bander, Eva Corey, John K. Lee, Colm Morrissey, Roman Gulati, Peter S. Nelson, and Michael C. Haffner

Subjects

Oncology, Medicine

Abstract

Prostate-specific membrane antigen (PSMA) is an important cell surface target in prostate cancer. There are limited data on the heterogeneity of PSMA tissue expression in metastatic castration-resistant prostate cancer (mCRPC). Furthermore, the mechanisms regulating PSMA expression (encoded by the FOLH1 gene) are not well understood. Here, we demonstrate that PSMA expression is heterogeneous across different metastatic sites and molecular subtypes of mCRPC. In a rapid autopsy cohort in which multiple metastatic sites per patient were sampled, we found that 13 of 52 (25%) cases had no detectable PSMA and 23 of 52 (44%) cases showed heterogeneous PSMA expression across individual metastases, with 33 (63%) cases harboring at least 1 PSMA-negative site. PSMA-negative tumors displayed distinct transcriptional profiles with expression of druggable targets such as MUC1. Loss of PSMA was associated with epigenetic changes of the FOLH1 locus, including gain of CpG methylation and loss of histone 3 lysine 27 (H3K27) acetylation. Treatment with histone deacetylase (HDAC) inhibitors reversed this epigenetic repression and restored PSMA expression in vitro and in vivo. Collectively, these data provide insights into the expression patterns and regulation of PSMA in mCRPC and suggest that epigenetic therapies — in particular, HDAC inhibitors — can be used to augment PSMA levels.

Published

2023

11. Subtype heterogeneity and epigenetic convergence in neuroendocrine prostate cancer

Author

Paloma Cejas, Yingtian Xie, Alba Font-Tello, Klothilda Lim, Sudeepa Syamala, Xintao Qiu, Alok K. Tewari, Neel Shah, Holly M. Nguyen, Radhika A. Patel, Lisha Brown, Ilsa Coleman, Wenzel M. Hackeng, Lodewijk Brosens, Koen M. A. Dreijerink, Leigh Ellis, Sarah Abou Alaiwi, Ji-Heui Seo, Sylvan Baca, Himisha Beltran, Francesca Khani, Mark Pomerantz, Alessandra Dall’Agnese, Jett Crowdis, Eliezer M. Van Allen, Joaquim Bellmunt, Colm Morrisey, Peter S. Nelson, James DeCaprio, Anna Farago, Nicholas Dyson, Benjamin Drapkin, X. Shirley Liu, Matthew Freedman, Michael C. Haffner, Eva Corey, Myles Brown, and Henry W. Long

Subjects

Science

Abstract

Neuroendocrine carcinomas (NECs) arise from different anatomic sites, but have similar histological and clinical features. Here, the authors show that the epigenetic landscape of a range of NECs converges towards a common epigenetic state, while distinct subtypes occur within neuroendocrine prostate cancer contributing to intratumor heterogeneity in clinical samples.

Published

2021

12. Prostate multi-parametric magnetic resonance imaging appearance of diffuse adenosis of the peripheral zone (DAPZ)

Author

Avanka W. Lowe, Katarzyna J. Macura, Max Kates, Tamara Lotan, Michael C. Haffner, and Steven P. Rowe

Subjects

Diffuse adenosis, Peripheral zone, Prostate, Prostate cancer, Acinar proliferation, Diseases of the genitourinary system. Urology, RC870-923

Abstract

Imaging specialists must recognize potential mimics of prostate cancer (PCa) on multi-parametric magnetic resonance imaging (mpMRI). We describe the appearance of diffuse adenosis of the peripheral zone (DAPZ) on mpMRI. The features of DAPZ parallel those of diffuse PCa, with low signal on T2-weighted images, rapid enhancement on dynamic contrast-enhanced sequences, and restricted diffusion. DAPZ is typically encountered in younger men with elevated prostate specific antigen (PSA) levels and portends an increased risk of the development of PCa. Recognition of the imaging appearance of DAPZ may reassure patients with concordant pathologic findings and may aid in selecting patients for follow-up.

Published

2022

13. Epigenetic and transcriptional analysis reveals a core transcriptional program conserved in clonal prostate cancer metastases

Author

Tesa M. Severson, Yanyun Zhu, Angelo M. De Marzo, Tracy Jones, Jonathan W. Simons, William G. Nelson, Srinivasan Yegnasubramanian, Matthew L. Freedman, Lodewyk Wessels, Andries M. Bergman, Michael C. Haffner, and Wilbert Zwart

Subjects

ChIP‐seq, cistrome, epigenomics, metastasis, prostate cancer, transcriptomics, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

The epigenomic regulation of transcriptional programs in metastatic prostate cancer is poorly understood. We studied the epigenomic landscape of prostate cancer drivers using transcriptional profiling and ChIP‐seq in four clonal metastatic tumors derived from a single prostate cancer patient. Our epigenomic analyses focused on androgen receptor (AR), which is a key oncogenic driver in prostate cancer, the AR pioneer factor FOXA1, chromatin insulator CCCTC‐Binding Factor, as well as for modified histones H3K27ac and H3K27me3. The vast majority of AR binding sites were shared among healthy prostate, primary prostate cancer, and metastatic tumor samples, signifying core AR‐driven transcriptional regulation within the prostate cell lineage. Genes associated with core AR‐binding events were significantly enriched for essential genes in prostate cancer cell proliferation. Remarkably, the metastasis‐specific active AR binding sites showed no differential transcriptional output, indicating a robust transcriptional program across metastatic samples. Combined, our data reveal a core transcriptional program in clonal metastatic prostate cancer, despite epigenomic differences in the AR cistrome.

Published

2021

14. Response to supraphysiological testosterone is predicted by a distinct androgen receptor cistrome

Author

Xintao Qiu, Lisha G. Brown, Jennifer L. Conner, Holly M. Nguyen, Nadia Boufaied, Sarah Abou Alaiwi, Ji-Heui Seo, Talal El Zarif, Connor Bell, Edward O’Connor, Brian Hanratty, Mark Pomerantz, Matthew L. Freedman, Myles Brown, Michael C. Haffner, Peter S. Nelson, Felix Y. Feng, David P. Labbé, Henry W. Long, and Eva Corey

Subjects

Endocrinology, Oncology, Medicine

Abstract

The androgen receptor (AR) is a master transcription factor that regulates prostate cancer (PC) development and progression. Inhibition of AR signaling by androgen deprivation is the first-line therapy with initial efficacy for advanced and recurrent PC. Paradoxically, supraphysiological levels of testosterone (SPT) also inhibit PC progression. However, as with any therapy, not all patients show a therapeutic benefit, and responses differ widely in magnitude and duration. In this study, we evaluated whether differences in the AR cistrome before treatment can distinguish between SPT-responding (R) and -nonresponding (NR) tumors. We provide the first preclinical evidence to our knowledge that SPT-R tumors exhibit a distinct AR cistrome when compared with SPT-NR tumors, indicating a differential biological role of the AR. We applied an integrated analysis of ChIP-Seq and RNA-Seq to the pretreatment tumors and identified an SPT-R signature that distinguishes R and NR tumors. Because transcriptomes of SPT-treated clinical specimens are not available, we interrogated available castration-resistant PC (CRPC) transcriptomes and showed that the SPT-R signature is associated with improved survival and has the potential to identify patients who would respond to SPT. These findings provide an opportunity to identify the subset of patients with CRPC who would benefit from SPT therapy.

Published

2022

15. Convergent network effects along the axis of gene expression during prostate cancer progression

Author

Konstantina Charmpi, Tiannan Guo, Qing Zhong, Ulrich Wagner, Rui Sun, Nora C. Toussaint, Christine E. Fritz, Chunhui Yuan, Hao Chen, Niels J. Rupp, Ailsa Christiansen, Dorothea Rutishauser, Jan H. Rüschoff, Christian Fankhauser, Karim Saba, Cedric Poyet, Thomas Hermanns, Kathrin Oehl, Ariane L. Moore, Christian Beisel, Laurence Calzone, Loredana Martignetti, Qiushi Zhang, Yi Zhu, María Rodríguez Martínez, Matteo Manica, Michael C. Haffner, Ruedi Aebersold, Peter J. Wild, and Andreas Beyer

Subjects

Molecular aberrations, Network effects, Prostate cancer, Proteogenomic analysis, Tumor heterogeneity, Biology (General), QH301-705.5, Genetics, QH426-470

Abstract

Abstract Background Tumor-specific genomic aberrations are routinely determined by high-throughput genomic measurements. It remains unclear how complex genome alterations affect molecular networks through changing protein levels and consequently biochemical states of tumor tissues. Results Here, we investigate the propagation of genomic effects along the axis of gene expression during prostate cancer progression. We quantify genomic, transcriptomic, and proteomic alterations based on 105 prostate samples, consisting of benign prostatic hyperplasia regions and malignant tumors, from 39 prostate cancer patients. Our analysis reveals the convergent effects of distinct copy number alterations impacting on common downstream proteins, which are important for establishing the tumor phenotype. We devise a network-based approach that integrates perturbations across different molecular layers, which identifies a sub-network consisting of nine genes whose joint activity positively correlates with increasingly aggressive tumor phenotypes and is predictive of recurrence-free survival. Further, our data reveal a wide spectrum of intra-patient network effects, ranging from similar to very distinct alterations on different molecular layers. Conclusions This study uncovers molecular networks with considerable convergent alterations across tumor sites and patients. It also exposes a diversity of network effects: we could not identify a single sub-network that is perturbed in all high-grade tumor regions.

Published

2020

16. Genomic attributes of homology-directed DNA repair deficiency in metastatic prostate cancer

Author

Navonil De Sarkar, Sayan Dasgupta, Payel Chatterjee, Ilsa Coleman, Gavin Ha, Lisa S. Ang, Emily A. Kohlbrenner, Sander B. Frank, Talina A. Nunez, Stephen J. Salipante, Eva Corey, Colm Morrissey, Eliezer Van Allen, Michael T. Schweizer, Michael C. Haffner, Radhika Patel, Brian Hanratty, Jared M. Lucas, Ruth F. Dumpit, Colin C. Pritchard, Robert B. Montgomery, and Peter S. Nelson

Subjects

Oncology, Medicine

Abstract

Cancers with homology-directed DNA repair (HRR) deficiency exhibit high response rates to poly(ADP-ribose) polymerase inhibitors (PARPi) and platinum chemotherapy. Though mutations disrupting BRCA1 and BRCA2 associate with HRR deficiency (HRRd), patterns of genomic aberrations and mutation signatures may be more sensitive and specific indicators of compromised repair. Here, we evaluated whole-exome sequences from 418 metastatic prostate cancers (mPCs) and determined that one-fifth exhibited genomic characteristics of HRRd that included Catalogue Of Somatic Mutations In Cancer mutation signature 3. Notably, a substantial fraction of tumors with genomic features of HRRd lacked biallelic loss of a core HRR-associated gene, such as BRCA2. In this subset, HRRd associated with loss of chromodomain helicase DNA binding protein 1 but not with mutations in serine-protein kinase ATM, cyclin dependent kinase 12, or checkpoint kinase 2. HRRd genomic status was strongly correlated with responses to PARPi and platinum chemotherapy, a finding that supports evaluating biomarkers reflecting functional HRRd for treatment allocation.

Published

2021

17. If this is true, what does it imply? How end-user antibody validation facilitates insights into biology and disease

Author

Karen S. Sfanos, Srinivasan Yegnasubramanian, William G. Nelson, Tamara L. Lotan, Ibrahim Kulac, Jessica L. Hicks, Qizhi Zheng, Charles J. Bieberich, Michael C. Haffner, and Angelo M. De Marzo

Subjects

Diseases of the genitourinary system. Urology, RC870-923

Abstract

Antibodies are employed ubiquitously in biomedical sciences, including for diagnostics and therapeutics. One of the most important uses is for immunohistochemical (IHC) staining, a process that has been improving and evolving over decades. IHC is useful when properly employed, yet misuse of the method is widespread and contributes to the “reproducibility crisis” in science. We report some of the common problems encountered with IHC assays, and direct readers to a wealth of literature documenting and providing some solutions to this problem. We also describe a series of vignettes that include our approach to analytical validation of antibodies and IHC assays that have facilitated a number of biological insights into prostate cancer and the refutation of a controversial association of a viral etiology in gliomas. We postulate that a great deal of the problem with lack of accuracy in IHC assays stems from the lack of awareness by researchers for the critical necessity for end-users to validate IHC antibodies and assays in their laboratories, regardless of manufacturer claims or past publications. We suggest that one reason for the pervasive lack of end-user validation for research antibodies is that researchers fail to realize that there are two general classes of antibodies employed in IHC. First, there are antibodies that are “clinical grade” reagents used by pathologists to help render diagnoses that influence patient treatment. Such diagnostic antibodies, which tend to be highly validated prior to clinical implementation, are in the vast minority (e.g. 3 800 000), which are often not extensively validated prior to commercialization. Given increased awareness of the problem, both the United States, National Institutes of Health and some journals are requiring investigators to provide evidence of specificity of their antibody-based assays. Keywords: Prostate cancer, Antibodies, Immunohistochemistry

Published

2019

18. Resistance to androgen receptor signaling inhibition does not necessitate development of neuroendocrine prostate cancer

Author

W. Nathaniel Brennen, Yezi Zhu, Ilsa M. Coleman, Susan L. Dalrymple, Lizamma Antony, Radhika A. Patel, Brian Hanratty, Roshan Chikarmane, Alan K. Meeker, S. Lilly Zheng, Jody E. Hooper, Jun Luo, Angelo M. De Marzo, Eva Corey, Jianfeng Xu, Srinivasan Yegnasubramanian, Michael C. Haffner, Peter S. Nelson, William G. Nelson, William B. Isaacs, and John T. Isaacs

Subjects

Oncology, Medicine

Abstract

Resistance to AR signaling inhibitors (ARSis) in a subset of metastatic castration-resistant prostate cancers (mCRPCs) occurs with the emergence of AR– neuroendocrine prostate cancer (NEPC) coupled with mutations/deletions in PTEN, TP53, and RB1 and the overexpression of DNMTs, EZH2, and/or SOX2. To resolve whether the lack of AR is the driving factor for the emergence of the NE phenotype, molecular, cell, and tumor biology analyses were performed on 23 xenografts derived from patients with PC, recapitulating the full spectrum of genetic alterations proposed to drive NE differentiation. Additionally, phenotypic response to CRISPR/Cas9-mediated AR KO in AR+ CRPC cells was evaluated. These analyses document that (a) ARSi-resistant NEPC developed without androgen deprivation treatment; (b) ARS in ARSi-resistant AR+/NE+ double-positive “amphicrine” mCRPCs did not suppress NE differentiation; (c) the lack of AR expression did not necessitate acquiring a NE phenotype, despite concomitant mutations/deletions in PTEN and TP53, and the loss of RB1 but occurred via emergence of an AR–/NE– double-negative PC (DNPC); (d) despite DNPC cells having homogeneous genetic driver mutations, they were phenotypically heterogeneous, expressing basal lineage markers alone or in combination with luminal lineage markers; and (e) AR loss was associated with AR promoter hypermethylation in NEPCs but not in DNPCs.

Published

2021

19. Genomic analysis identifies frequent deletions of Dystrophin in olfactory neuroblastoma

Author

Gary L. Gallia, Ming Zhang, Yi Ning, Michael C. Haffner, Denise Batista, Zev A. Binder, Justin A. Bishop, Christine L. Hann, Ralph H. Hruban, Masaru Ishii, Alison P. Klein, Douglas D. Reh, Lisa M. Rooper, Vafi Salmasi, Rafael J. Tamargo, Qing Wang, Tara Williamson, Tianna Zhao, Ying Zou, Alan K. Meeker, Nishant Agrawal, Bert Vogelstein, Kenneth W. Kinzler, Nickolas Papadopoulos, and Chetan Bettegowda

Subjects

Science

Abstract

Olfactory neuroblastoma (ONB) is a rare malignant tumor whose genetic basis is poorly understood. Here the authors identify recurrent deletions involving dystrophin in the majority of ONB patient tumors examined.

Published

2018

20. CD38 is methylated in prostate cancer and regulates extracellular NAD+

Author

Jack Mottahedeh, Michael C. Haffner, Tristan R. Grogan, Takao Hashimoto, Preston D. Crowell, Himisha Beltran, Andrea Sboner, Rohan Bareja, David Esopi, William B. Isaacs, Srinivasan Yegnasubramanian, Matthew B. Rettig, David A. Elashoff, Elizabeth A. Platz, Angelo M. De Marzo, Michael A. Teitell, and Andrew S. Goldstein

Subjects

Prostate, CD38, NAD+, Methylation, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Cancer cell metabolism requires sustained pools of intracellular nicotinamide adenine dinucleotide (NAD+) which is maintained by a balance of NAD+ hydrolase activity and NAD+ salvage activity. We recently reported that human prostate cancer can be initiated following oncogene expression in progenitor-like luminal cells marked by low expression of the NAD+-consuming enzyme CD38. CD38 expression is reduced in prostate cancer compared to benign prostate, suggesting that tumor cells may reduce CD38 expression in order to enhance pools of NAD+. However, little is known about how CD38 expression is repressed in advanced prostate cancer and whether CD38 plays a role in regulating NAD+ levels in prostate epithelial cells. Methods CD38 expression, its association with recurrence after prostatectomy for clinically localized prostate cancer, and DNA methylation of the CD38 promoter were evaluated in human prostate tissues representing various stages of disease progression. CD38 was inducibly over-expressed in benign and malignant human prostate cell lines in order to determine the effects on cell proliferation and levels of NAD+ and NADH. NAD+ and NADH were also measured in urogenital tissues from wild-type and CD38 knockout mice. Results CD38 mRNA expression was reduced in metastatic castration-resistant prostate cancer compared to localized prostate cancer. In a large cohort of men undergoing radical prostatectomy, CD38 protein expression was inversely correlated with recurrence. We identified methylation of the CD38 promoter in primary and metastatic prostate cancer. Over-expression of wild-type CD38, but not an NAD+ hydrolase-deficient mutant, depleted extracellular NAD+ levels in benign and malignant prostate cell lines. However, expression of CD38 did not significantly alter intracellular NAD+ levels in human prostate cell lines grown in vitro and in urogenital tissues isolated from wild-type and CD38 knockout mice. Conclusions CD38 protein expression in prostate cancer is associated with risk of recurrence. Methylation results suggest that CD38 is epigenetically regulated in localized and metastatic prostate cancer tissues. Our study provides support for CD38 as a regulator of extracellular, but not intracellular, NAD+ in epithelial cells. These findings suggest that repression of CD38 by methylation may serve to increase the availability of extracellular NAD+ in prostate cancer tissues.

Published

2018

21. AIM1 is an actin-binding protein that suppresses cell migration and micrometastatic dissemination

Author

Michael C. Haffner, David M. Esopi, Alcides Chaux, Meltem Gürel, Susmita Ghosh, Ajay M. Vaghasia, Harrison Tsai, Kunhwa Kim, Nicole Castagna, Hong Lam, Jessica Hicks, Nicolas Wyhs, Debika Biswal Shinohara, Paula J. Hurley, Brian W. Simons, Edward M. Schaeffer, Tamara L. Lotan, William B. Isaacs, George J. Netto, Angelo M. De Marzo, William G. Nelson, Steven S. An, and Srinivasan Yegnasubramanian

Subjects

Science

Abstract

Invasion of malignant cells involves changes in cytoskeleton dynamics. Here the authors identify absent in melanoma 1 as an actin binding protein and show that it regulates cytoskeletal remodeling and cell migration in prostate epithelial cells, acting as a metastatic suppressor in cancer cells.

Published

2017

22. Putative Autoantigen Leiomodin-1 Is Expressed in the Human Brain and in the Membrane Fraction of Newly Formed Neurons

Author

David W. Nauen, Michael C. Haffner, Juyun Kim, Qizhi Zheng, Hao Yin, Angelo M. DeMarzo, Vasiliki Mahairaki, Carlo Colantuoni, J. Geoffrey Pickering, and Tory P. Johnson

Subjects

nodding syndrome, leiomodin-1, autoantibody, CNS, neuron, membrane, Medicine

Abstract

Nodding syndrome is a pediatric epilepsy disorder associated with Onchocerca volvulus infection, but the mechanism driving this relationship is unclear. One hypothesis proposes that parasite-induced immune responses cross-react with human leiomodin-1 resulting in immune-mediated central nervous system (CNS) damage. However, as leiomodin-1 expression and epitope availability in human neurons remains uncharacterized, the relevance of leiomodin-1 autoimmunity is unknown. Leiomodin-1 transcript expression was assessed in silico using publicly available ribonucleic acid (RNA) sequencing databases and in tissue by in situ hybridization and quantitative polymerase chain reaction. Abundance and subcellular localization were examined by cell fractionation and immunoblotting. Leiomodin-1 transcripts were expressed in cells of the CNS, including neurons and astrocytes. Protein was detectable from all brain regions examined as well as from representative cell lines and in vitro differentiated neurons and astrocytes. Leiomodin-1 was expressed on the membrane of newly formed neurons, but not neural progenitor cells or mature neurons. Importantly, leiomodin-1 antibodies were only toxic to cells expressing leiomodin-1 on the membrane. Our findings provide evidence that leiomodin-1 is expressed in human neurons and glia. Furthermore, we show membrane expression mediates leiomodin-1 antibody toxicity, suggesting these antibodies may play a role in pathogenesis.

Published

2020

23. Clinical, pathologic, and molecular features of amphicrine prostate cancer

Author

Laura S. Graham, Michael C. Haffner, Erolcan Sayar, Agnes Gawne, Michael T. Schweizer, Colin C. Pritchard, Ilsa Coleman, Peter S. Nelson, and Evan Y. Yu

Subjects

Oncology, Urology

Published

2023

24. Clonal relationships of adjacent Gleason pattern 3 and Gleason pattern 5 lesions in Gleason Scores 3+5=8 and 5+3=8

Author

Hasim Bakbak, Erolcan Sayar, Harsimar B. Kaur, Daniela C. Salles, Radhika A. Patel, Jessica Hicks, Tamara L. Lotan, Angelo M. De Marzo, Roman Gulati, Jonathan I. Epstein, and Michael C. Haffner

Subjects

Male, Prostatectomy, Prostate, Humans, Prostatic Neoplasms, Tumor Suppressor Protein p53, Neoplasm Grading, Pathology and Forensic Medicine

Abstract

Genomic studies have demonstrated a high level of intra-tumoral heterogeneity in prostate cancer. There is strong evidence suggesting that individual tumor foci can arise as genetically distinct, clonally independent lesions. However, recent studies have also demonstrated that adjacent Gleason pattern (GP) 3 and GP4 lesions can originate from the same clone but follow divergent genetic and morphologic evolution. The clonal relationship of adjacent GP3 and GP5 lesions has thus far not been investigated. Here we analyzed a cohort of 14 cases-11 biopsy and 3 radical prostatectomy specimens-with a Gleason score of 3 + 5 = 8 or 5 + 3 = 8 present in the same biopsy or in a single dominant tumor nodule at radical prostatectomy. Clonal and subclonal relationships between GP3 and GP5 lesions were assessed using genetically validated immunohistochemical assays for ERG, PTEN, and P53. 9/14 (64%) cases showed ERG reactivity in both GP3 and GP5 lesions. Only 1/14 (7%) cases showed a discordant pattern with ERG staining present only in GP3. PTEN expression was lost in 2/14 (14%) cases with perfect concordance between GP5 and GP3. P53 nuclear reactivity was present in 1/14 (7%) case in both GP5 and GP3. This study provides first evidence that the majority of adjacent GP3 and GP5 lesions share driver alterations and are clonally related. In addition, we observed a lower-than-expected rate of PTEN loss in GP5 in the context of Gleason score 3 + 5 = 8 or 5 + 3 = 8 tumors.

Published

2022

25. Supplementary Table S4 from Nucleosome Patterns in Circulating Tumor DNA Reveal Transcriptional Regulation of Advanced Prostate Cancer Phenotypes

Author

Gavin Ha, Peter S. Nelson, Steven Henikoff, Eva Corey, R. Bruce Montgomery, Michael C. Haffner, Kami Ahmad, Matthew L. Freedman, Jacob E. Berchuck, Sylvan C. Baca, Atish D. Choudhury, Colm Morrissey, Michael T. Schweizer, Colin C. Pritchard, Heather M. McClure, Holly M. Nguyen, Talina A. Nunez, Jared M. Lucas, Ruth F. Dumpit, Arnab Bose, Ilsa M. Coleman, Lisa S. Ang, Derek H. Janssens, Michael P. Meers, Sandipan Brahma, Minjeong Ko, Jay F. Sarthy, Adam J. Kreitzman, Mohamed Adil, Brian Hanratty, Anna-Lisa Doebley, Robert D. Patton, and Navonil De Sarkar

Abstract

Feature-region combination AUCs and benchmarking Sheet 1: Log2 fold-change, p-value, and q-value between ARPC and NEPC lines for central mean coverage in all queried (338) TFs (two tailed Mann-Whitney U test, Benjamini-Hochberg adjusted). Sheet 2: 100-fold cross-validation AUCs for all region and feature combinations subset by the ‘AR10’ overlapping features (see Methods). Sheet 3: 100-fold cross-validation AUCs for all region and feature combinations subset by the ‘Phenotype 47-defining’ overlapping features. Sheet 4: 100-fold cross-validation AUCs for all region and feature combinations (global). Sheet 5: Predictions scores, tumor fraction, depth of coverage, and subtype for benchmarking admixtures. Sheet 6: AUCs for unsupervised prediction of admixture subtypes grouped by tumor fraction and depth. Sheet 7: NEPC:ARPC ratio, tumor fraction, and ARPC and NEPC fraction predictions for mixed phenotype admixtures using Keraon (see Methods).

Published

2023

26. Supplementary Figures from Nucleosome Patterns in Circulating Tumor DNA Reveal Transcriptional Regulation of Advanced Prostate Cancer Phenotypes

Author

Gavin Ha, Peter S. Nelson, Steven Henikoff, Eva Corey, R. Bruce Montgomery, Michael C. Haffner, Kami Ahmad, Matthew L. Freedman, Jacob E. Berchuck, Sylvan C. Baca, Atish D. Choudhury, Colm Morrissey, Michael T. Schweizer, Colin C. Pritchard, Heather M. McClure, Holly M. Nguyen, Talina A. Nunez, Jared M. Lucas, Ruth F. Dumpit, Arnab Bose, Ilsa M. Coleman, Lisa S. Ang, Derek H. Janssens, Michael P. Meers, Sandipan Brahma, Minjeong Ko, Jay F. Sarthy, Adam J. Kreitzman, Mohamed Adil, Brian Hanratty, Anna-Lisa Doebley, Robert D. Patton, and Navonil De Sarkar

Abstract

Supplementary Figures S1-S18 and Supplementary Table legends.

Published

2023

27. Combinatorial genetic strategy accelerates the discovery of cancer genotype-phenotype associations

Author

Shan Li, Alicia Wong, Huiyun Sun, Vipul Bhatia, Gerardo Javier, Sujata Jana, Robert B. Montgomery, Jonathan L. Wright, Hung-Ming Lam, Andrew C. Hsieh, Bishoy M. Faltas, Michael C. Haffner, and John K. Lee

Abstract

Available genetically-defined cancer models are limited in genotypic and phenotypic complexity and underrepresent the heterogeneity of human cancer. Herein, we describe a combinatorial genetic strategy applied to an organoid transformation assay to rapidly generate diverse, clinically relevant bladder and prostate cancer models. Importantly, the clonal architecture of the resultant tumors can be resolved using single-cell or spatially resolved next-generation sequencing to uncover polygenic drivers of cancer phenotypes.

Published

2023

28. Data from Comprehensive Assessment of Anaplastic Lymphoma Kinase in Localized and Metastatic Prostate Cancer Reveals Targetable Alterations

Author

Michael C. Haffner, Colin C. Pritchard, Colm Morrissey, Peter S. Nelson, Angelo M. De Marzo, Lawrence D. True, John K. Lee, Gavin Ha, Maria S. Tretiakova, Jin-Yih Low, Lisa S. Ang, Jared M. Lucas, Ruth Dumpit, Brian Hanratty, Eric Q. Konnick, Martine P. Roudier, Ilsa Coleman, and Radhika A. Patel

Abstract

Anaplastic lymphoma kinase (ALK) is a tyrosine kinase with genomic and expression changes in many solid tumors. ALK inhibition is the first-line therapy for lung cancers with ALK alterations, and an effective therapy in other tumor types, but has not been well-studied in prostate cancer. Here, we aim to delineate the role of ALK genomic and expression changes in primary and metastatic prostate cancer. We determined ALK expression by IHC and RNA sequencing, and genomic alterations by NGS. We assessed functional consequences of ALK overexpression and pharmacologic ALK inhibition by cell proliferation and cell viability assays. Among 372 primary prostate cancer cases, we identified one case with uniformly high ALK protein expression. Genomic analysis revealed a novel SLC45A3-ALK fusion which promoted oncogenesis in in vitro assays. We observed ALK protein expression in 5 of 52 (9%) of metastatic prostate cancer cases, of which 4 of 5 had neuroendocrine features. ALK-expressing neuroendocrine prostate cancer had a distinct transcriptional program, and earlier disease progression. An ALK-expressing neuroendocrine prostate cancer model was sensitive to pharmacologic ALK inhibition. In summary, we found that ALK overexpression is rare in primary prostate cancer, but more frequent in metastatic prostate cancers with neuroendocrine differentiation. Furthermore, ALK fusions similar to lung cancer are an occasional driver in prostate cancer. Our data suggest that ALK-directed therapies could be an option in selected patients with advanced prostate cancer.Significance:Anaplastic lymphoma kinase (ALK) is a validated drug target in cancer. Here we delineate the spectrum of ALK alterations in prostate cancer. We show that ALK overexpression is present in advanced prostate cancers, in particular in cases with features of neuroendocrine carcinoma. Furthermore, ALK expression is associated with responses to pharmacologic ALK inhibition. Our study demonstrates that ALK-directed therapies should be considered in selected prostate cancer cases.

Published

2023

29. Supplementary Figures 1-19, Tables 1-2 from Comprehensive Assessment of Anaplastic Lymphoma Kinase in Localized and Metastatic Prostate Cancer Reveals Targetable Alterations

Author

Michael C. Haffner, Colin C. Pritchard, Colm Morrissey, Peter S. Nelson, Angelo M. De Marzo, Lawrence D. True, John K. Lee, Gavin Ha, Maria S. Tretiakova, Jin-Yih Low, Lisa S. Ang, Jared M. Lucas, Ruth Dumpit, Brian Hanratty, Eric Q. Konnick, Martine P. Roudier, Ilsa Coleman, and Radhika A. Patel

Abstract

Supplementary Figures 1-19, Tables 1-2

Published

2023

30. Data from Identifying Phased Mutations and Complex Rearrangements in Human Prostate Cancer Cell Lines through Linked-Read Whole-Genome Sequencing

Author

Srinivasan Yegnasubramanian, William G. Nelson, Sarah J. Wheelan, William B. Isaacs, Christina DeStefano Shields, Jianfeng Xu, S. Lilly Zheng, Michael C. Haffner, Jonathan B. Coulter, McKinzie A. Garrison, Alyza Skaist, Ajay Vaghasia, Harshath Gupta, Anuj Gupta, and Minh-Tam Pham

Abstract

A limited number of cell lines have fueled the majority of preclinical prostate cancer research, but their genomes remain incompletely characterized. Here, we utilized whole-genome linked-read sequencing for comprehensive characterization of phased mutations and rearrangements in the most commonly used cell lines in prostate cancer research including PC3, LNCaP, DU145, CWR22Rv1, VCaP, LAPC4, MDA-PCa-2b, RWPE-1, and four derivative castrate-resistant (CR) cell lines LNCaP_Abl, LNCaP_C42b, VCaP-CR, and LAPC4-CR. Phasing of mutations allowed determination of “gene-level haplotype” to assess whether genes harbored heterozygous mutations in one or both alleles. Phased structural variant analysis allowed identification of complex rearrangement chains consistent with chromothripsis and chromoplexy. In addition, comparison of parental and derivative CR lines revealed previously known and novel genomic alterations associated with the CR phenotype.Implications:This study therefore comprehensively characterized phased genomic alterations in the commonly used prostate cancer cell lines, providing a useful resource for future prostate cancer research.

Published

2023

31. Supplementary Figure from Identifying Phased Mutations and Complex Rearrangements in Human Prostate Cancer Cell Lines through Linked-Read Whole-Genome Sequencing

Author

Srinivasan Yegnasubramanian, William G. Nelson, Sarah J. Wheelan, William B. Isaacs, Christina DeStefano Shields, Jianfeng Xu, S. Lilly Zheng, Michael C. Haffner, Jonathan B. Coulter, McKinzie A. Garrison, Alyza Skaist, Ajay Vaghasia, Harshath Gupta, Anuj Gupta, and Minh-Tam Pham

Abstract

Supplementary Figure from Identifying Phased Mutations and Complex Rearrangements in Human Prostate Cancer Cell Lines through Linked-Read Whole-Genome Sequencing

Published

2023

32. Supplementary Data from Identifying Phased Mutations and Complex Rearrangements in Human Prostate Cancer Cell Lines through Linked-Read Whole-Genome Sequencing

Author

Srinivasan Yegnasubramanian, William G. Nelson, Sarah J. Wheelan, William B. Isaacs, Christina DeStefano Shields, Jianfeng Xu, S. Lilly Zheng, Michael C. Haffner, Jonathan B. Coulter, McKinzie A. Garrison, Alyza Skaist, Ajay Vaghasia, Harshath Gupta, Anuj Gupta, and Minh-Tam Pham

Abstract

Supplementary Data from Identifying Phased Mutations and Complex Rearrangements in Human Prostate Cancer Cell Lines through Linked-Read Whole-Genome Sequencing

Published

2023

33. Supplementary Tables 1-4 from Functional Loss of ATRX and TERC Activates Alternative Lengthening of Telomeres (ALT) in LAPC4 Prostate Cancer Cells

Author

Christopher M. Heaphy, Alan K. Meeker, Angelo M. De Marzo, Michael C. Haffner, Michael Considine, Leslie Cope, Qizhi Zheng, Christine Davis, Michael Rubenstein, Lionel Chia, Javier A. Baena Del Valle, Anthony Rizzo, Jacqueline A. Brosnan-Cashman, Joseph Da, Jiyoung Kim, and Mindy K. Graham

Abstract

Table S1. Sequences of oligonucleotides for CRISPR, telomere assays, and RT-qPCR. Table S2. Mean telomere lengths assessed from TRF southern blots of LAPC-4 EV and ATRXKO clones, and CWR22Rv1 EV and ATRXKO clones. Table S3. Microarray results of top 10 differentially expressed genes ranked by FDR adjusted P-value, comparing parental ATRX WT cell lines (LAPC-4 and CWR22Rv1) versus ATRXKO cell lines (LAPC-4 ATRXKO1-3 and CWR22Rv1 ATRXKO1-3). Table S4. Microarray results of top 10 differentially expressed genes with FDR adjusted P-value < 0.005 ranked by absolute fold-change, comparing LAPC-4 ATRXKO1-3 clones versus CWR22Rv1 ATRXKO1-3 clones.

Published

2023

34. Data from Functional Loss of ATRX and TERC Activates Alternative Lengthening of Telomeres (ALT) in LAPC4 Prostate Cancer Cells

Author

Christopher M. Heaphy, Alan K. Meeker, Angelo M. De Marzo, Michael C. Haffner, Michael Considine, Leslie Cope, Qizhi Zheng, Christine Davis, Michael Rubenstein, Lionel Chia, Javier A. Baena Del Valle, Anthony Rizzo, Jacqueline A. Brosnan-Cashman, Joseph Da, Jiyoung Kim, and Mindy K. Graham

Abstract

A key hallmark of cancer, unlimited replication, requires cancer cells to evade both replicative senescence and potentially lethal chromosomal instability induced by telomere dysfunction. The majority of cancers overcome these critical barriers by upregulating telomerase, a telomere-specific reverse transcriptase. However, a subset of cancers maintains telomere lengths by the telomerase-independent Alternative Lengthening of Telomeres (ALT) pathway. The presence of ALT is strongly associated with recurrent cancer-specific somatic inactivating mutations in the ATRX-DAXX chromatin-remodeling complex. Here, we generate an ALT-positive adenocarcinoma cell line following functional inactivation of ATRX and telomerase in a telomerase-positive adenocarcinoma cell line. Inactivating mutations in ATRX were introduced using CRISPR-cas9 nickase into two prostate cancer cell lines, LAPC-4 (derived from a lymph node metastasis) and CWR22Rv1 (sourced from a xenograft established from a primary prostate cancer). In LAPC-4, but not CWR22Rv1, abolishing ATRX was sufficient to induce multiple ALT-associated hallmarks, including the presence of ALT-associated promyelocytic leukemia bodies (APB), extrachromosomal telomere C-circles, and dramatic telomere length heterogeneity. However, telomerase activity was still present in these ATRXKO cells. Telomerase activity was subsequently crippled in these LAPC-4 ATRXKO cells by introducing mutations in the TERC locus, the essential RNA component of telomerase. These LAPC-4 ATRXKO TERCmut cells continued to proliferate long-term and retained ALT-associated hallmarks, thereby demonstrating their reliance on the ALT mechanism for telomere maintenance.Implications:These prostate cancer cell line models provide a unique system to explore the distinct molecular alterations that occur upon induction of ALT, and may be useful tools to screen for ALT-specific therapies.

Published

2023

35. Supplementary Figures 1-6 from Functional Loss of ATRX and TERC Activates Alternative Lengthening of Telomeres (ALT) in LAPC4 Prostate Cancer Cells

Author

Christopher M. Heaphy, Alan K. Meeker, Angelo M. De Marzo, Michael C. Haffner, Michael Considine, Leslie Cope, Qizhi Zheng, Christine Davis, Michael Rubenstein, Lionel Chia, Javier A. Baena Del Valle, Anthony Rizzo, Jacqueline A. Brosnan-Cashman, Joseph Da, Jiyoung Kim, and Mindy K. Graham

Abstract

Figure S1. LAPC-4 and CWR22RV1 are telomerase-positive ALT-negative cell lines. Figure S2. ATRXKOs were generated in LAPC-4 and CWR22Rv1 cells. Figure S3. Representative telomere restriction fragment (TRF) southern blots and signal intensity traces. Figure S4. TERT and TERC expression levels. Figure S5. CRISPR cas9 genome editing strategies targeting the TERC locus. Figure S6. RT-qPCR validation of genes differentially expressed in microarray.

Published

2023

36. Supplementary Materials and Methods from Functional Loss of ATRX and TERC Activates Alternative Lengthening of Telomeres (ALT) in LAPC4 Prostate Cancer Cells

Author

Christopher M. Heaphy, Alan K. Meeker, Angelo M. De Marzo, Michael C. Haffner, Michael Considine, Leslie Cope, Qizhi Zheng, Christine Davis, Michael Rubenstein, Lionel Chia, Javier A. Baena Del Valle, Anthony Rizzo, Jacqueline A. Brosnan-Cashman, Joseph Da, Jiyoung Kim, and Mindy K. Graham

Abstract

Supplementary Materials and Methods

Published

2023

37. Assessment of Androgen Receptor Splice Variant-7 as a Biomarker of Clinical Response in Castration-Sensitive Prostate Cancer

Author

Adam G. Sowalsky, Ines Figueiredo, Rosina T. Lis, Ilsa Coleman, Bora Gurel, Denisa Bogdan, Wei Yuan, Joshua W. Russo, John R. Bright, Nichelle C. Whitlock, Shana Y. Trostel, Anson T. Ku, Radhika A. Patel, Lawrence D. True, Jonathan Welti, Juan M. Jimenez-Vacas, Daniel Nava Rodrigues, Ruth Riisnaes, Antje Neeb, Cynthia T. Sprenger, Amanda Swain, Scott Wilkinson, Fatima Karzai, William L. Dahut, Steven P. Balk, Eva Corey, Peter S. Nelson, Michael C. Haffner, Stephen R. Plymate, Johann S. de Bono, and Adam Sharp

Subjects

Male, Prostatic Neoplasms, Castration-Resistant, Cancer Research, Oncology, Receptors, Androgen, Humans, Protein Isoforms, Androgen Antagonists, Castration, RNA, Messenger, Biomarkers, Article

Abstract

Purpose: Therapies targeting the androgen receptor (AR) have improved the outcome for patients with castration-sensitive prostate cancer (CSPC). Expression of the constitutively active AR splice variant-7 (AR-V7) has shown clinical utility as a predictive biomarker of AR-targeted therapy resistance in castration-resistant prostate cancer (CRPC), but its importance in CSPC remains understudied. Experimental Design: We assessed different approaches to quantify AR-V7 mRNA and protein in prostate cancer cell lines, patient-derived xenograft (PDX) models, publicly available cohorts, and independent institutional clinical cohorts, to identify reliable approaches for detecting AR-V7 mRNA and protein and its association with clinical outcome. Results: In CSPC and CRPC cohorts, AR-V7 mRNA was much less abundant when detected using reads across splice boundaries than when considering isoform-specific exonic reads. The RM7 AR-V7 antibody had increased sensitivity and specificity for AR-V7 protein detection by immunohistochemistry (IHC) in CRPC cohorts but rarely identified AR-V7 protein reactivity in CSPC cohorts, when compared with the EPR15656 AR-V7 antibody. Using multiple CRPC PDX models, we demonstrated that AR-V7 expression was exquisitely sensitive to hormonal manipulation. In CSPC institutional cohorts, AR-V7 protein quantification by either assay was associated neither with time to development of castration resistance nor with overall survival, and intense neoadjuvant androgen-deprivation therapy did not lead to significant AR-V7 mRNA or staining following treatment. Neither pre- nor posttreatment AR-V7 levels were associated with volumes of residual disease after therapy. Conclusions: This study demonstrates that further analytical validation and clinical qualification are required before AR-V7 can be considered for clinical use in CSPC as a predictive biomarker.

Published

2022

38. Therapeutic Implications for Intrinsic Phenotype Classification of Metastatic Castration-Resistant Prostate Cancer

Author

Ilsa M. Coleman, Navonil DeSarkar, Colm Morrissey, Li Xin, Martine P. Roudier, Erolcan Sayar, Dapei Li, Eva Corey, Michael C. Haffner, and Peter S. Nelson

Subjects

Male, Prostatic Neoplasms, Castration-Resistant, Cancer Research, Phenotype, Oncology, Humans, Androgen Antagonists, Breast Neoplasms, Docetaxel

Abstract

Purpose: To determine whether metastatic castration–resistant prostate cancers (mCRPC) partition into molecular phenotypes corresponding to intrinsic differentiation states and ascertain whether these subtypes exhibit specific druggable features and associate with treatment outcomes. Experimental Design: We used RNAseq, digital spatial profiling, and histological assessments from metastatic biopsies and patient-derived xenografts to segregate mCRPCs into subtypes defined by the PAM50 breast cancer classification algorithm. Subtype associations with treatment responses in preclinical models and patients were determined. Results: Using the PAM50 algorithm, we partitioned 270 mCRPC tumors into LumA (42%), LumB (24%), and Basal (34%) subtypes with classification largely driven by proliferation rates and androgen receptor (AR) activity. Most neuroendocrine tumors classified as Basal. Pathways enriched in the LumA subtype include TGFß and NOTCH signaling. LumB subtype tumors were notable for elevated MYC activity. Basal subtype tumors exhibited elevated IL6-STAT3 signaling and features of adult stem cell states. In patients where multiple tumors were evaluated, the majority had concordant PAM50 subtype determination, though a subset exhibited marked inter- and intratumor heterogeneity, including divergent classifications between primary and metastatic sites. In preclinical models, LumA subtype tumors were highly responsive to androgen deprivation and docetaxel chemotherapy whereas Basal tumors were largely resistant. In clinical cohorts patients with Basal subtype tumors demonstrated a shorter time on treatment with AR signaling inhibitors and docetaxel relative to patients with luminal subtypes. Conclusions: Subtyping of mCRPC based on cell differentiation states has potential clinical utility for identifying patients with divergent expression of treatment targets and responses to systemic therapy.

Published

2022

39. Comprehensive Assessment of Anaplastic Lymphoma Kinase in Localized and Metastatic Prostate Cancer Reveals Targetable Alterations

Author

Radhika A. Patel, Ilsa Coleman, Martine P. Roudier, Eric Q. Konnick, Brian Hanratty, Ruth Dumpit, Jared M. Lucas, Lisa S. Ang, Jin-Yih Low, Maria S. Tretiakova, Gavin Ha, John K. Lee, Lawrence D. True, Angelo M. De Marzo, Peter S. Nelson, Colm Morrissey, Colin C. Pritchard, and Michael C. Haffner

Subjects

hemic and lymphatic diseases, Article

Abstract

Anaplastic lymphoma kinase (ALK) is a tyrosine kinase with genomic and expression changes in many solid tumors. ALK inhibition is the first-line therapy for lung cancers with ALK alterations, and an effective therapy in other tumor types, but has not been well-studied in prostate cancer. Here, we aim to delineate the role of ALK genomic and expression changes in primary and metastatic prostate cancer. We determined ALK expression by IHC and RNA sequencing, and genomic alterations by NGS. We assessed functional consequences of ALK overexpression and pharmacologic ALK inhibition by cell proliferation and cell viability assays. Among 372 primary prostate cancer cases, we identified one case with uniformly high ALK protein expression. Genomic analysis revealed a novel SLC45A3-ALK fusion which promoted oncogenesis in in vitro assays. We observed ALK protein expression in 5 of 52 (9%) of metastatic prostate cancer cases, of which 4 of 5 had neuroendocrine features. ALK-expressing neuroendocrine prostate cancer had a distinct transcriptional program, and earlier disease progression. An ALK-expressing neuroendocrine prostate cancer model was sensitive to pharmacologic ALK inhibition. In summary, we found that ALK overexpression is rare in primary prostate cancer, but more frequent in metastatic prostate cancers with neuroendocrine differentiation. Furthermore, ALK fusions similar to lung cancer are an occasional driver in prostate cancer. Our data suggest that ALK-directed therapies could be an option in selected patients with advanced prostate cancer. Significance: Anaplastic lymphoma kinase (ALK) is a validated drug target in cancer. Here we delineate the spectrum of ALK alterations in prostate cancer. We show that ALK overexpression is present in advanced prostate cancers, in particular in cases with features of neuroendocrine carcinoma. Furthermore, ALK expression is associated with responses to pharmacologic ALK inhibition. Our study demonstrates that ALK-directed therapies should be considered in selected prostate cancer cases.

Published

2022

40. Supplementary Figure S6 from Analytic Validation of RNA In Situ Hybridization (RISH) for AR and AR-V7 Expression in Human Prostate Cancer

Author

Tamara L. Lotan, Angelo M. De Marzo, Jun Luo, Harrison Tsai, Changxue Lu, Emmanuel S. Antonarakis, John T. Isaacs, Qizhi Zheng, Michael C. Haffner, Fawaz Almutairi, Carlos L. Morais, and Liana B. Guedes

Abstract

Comparison of AR RISH in bone and soft tissue metastases from the same patient.

Published

2023

41. Supp Fig S3 from Analytic, Preanalytic, and Clinical Validation of p53 IHC for Detection of TP53 Missense Mutation in Prostate Cancer

Author

Tamara L. Lotan, Edward M. Schaeffer, Ashley E. Ross, William B. Isaacs, George J. Netto, Angelo M. De Marzo, Rajni Sharma, Kasra Yousefi, Roberto Zoino, Szczepan Klimek, Zach Liu, Gaurav Rajoria, Michael C. Haffner, Fawaz Almutairi, and Liana B. Guedes

Abstract

Location of the mutations/deletions in TP53 gene detected by sequencing stratified p53 immunostaining result. (A) Location of the TP53 missense mutations that were detected by p53 immunostaining, showing a higher occurrence at hotspots in the DNA binding domain. (B) Location of the missense mutations, frameshifts, nonsense and splice site variants that were not detected by p53 IHC.

Published

2023

42. Supplementary Materials and Methods from Asporin Restricts Mesenchymal Stromal Cell Differentiation, Alters the Tumor Microenvironment, and Drives Metastatic Progression

Author

Paula J. Hurley, Ben H. Park, W. Nathaniel Brennen, John T. Isaacs, Elana J. Fertig, Isla P. Garraway, Daniel L.J. Thorek, Ryan C. Riddle, Steven S. An, Elai Davicioni, Jessie Huang, Tamara Lotan, Michael C. Haffner, Debebe Theodros, Samantha Torquato, Valentina Kugler, Rebecca Miller, Hamda Khan, Brian W. Simons, and Robert M. Hughes

Abstract

Supplementary Materials and Methods

Published

2023

43. Data from RNA Splicing Factors SRRM3 and SRRM4 Distinguish Molecular Phenotypes of Castration-Resistant Neuroendocrine Prostate Cancer

Author

Colm Morrissey, Peter S. Nelson, Eva Corey, Joshi J. Alumkal, Hung-Ming Lam, Daniel W. Lin, Lawrence D. True, David S. Rickman, Michael C. Haffner, Brian Hanratty, Dapei Li, Holly M. Nguyen, John K. Lee, Nicholas J. Brady, Bryce Lakely, Ilsa M. Coleman, Lisha G. Brown, and Mark P. Labrecque

Abstract

Neuroendocrine (NE) differentiation in metastatic castration-resistant prostate cancer (mCRPC) is an increasingly common clinical feature arising from cellular plasticity. We recently characterized two mCRPC phenotypes with NE features: androgen receptor (AR)-positive NE-positive amphicrine prostate cancer (AMPC) and AR-negative small cell or neuroendocrine prostate cancer (SCNPC). Here, we interrogated the regulation of RE1-silencing transcription factor (REST), a transcriptional repressor of neuronal genes, and elucidated molecular programs driving AMPC and SCNPC biology. Analysis of prostate cancer cell lines, mCRPC specimens, and LuCaP patient-derived xenograft models detected alternative splicing of REST to REST4 and attenuated REST repressor activity in AMPC and SCNPC. The REST locus was also hypermethylated and REST expression was reduced in SCNPC. While serine/arginine repetitive matrix protein 4 (SRRM4) was previously implicated in alternative splicing of REST in mCRPC, we detected SRRM3 expression in REST4-positive, SRRM4-negative AMPC, and SCNPC. In CRPC cell lines, SRRM3 induced alternative splicing of REST to REST4 and exacerbated the expression of REST-repressed genes. Furthermore, SRRM3 and SRRM4 expression defined molecular subsets of AMPC and SCNPC across species and tumor types. Two AMPC phenotypes and three SCNPC phenotypes were characterized, denoted either by REST attenuation and ASCL1 activity or by progressive activation of neuronal transcription factor programs, respectively. These results nominate SRRM3 as the principal REST splicing factor expressed in early NE differentiation and provide a framework to molecularly classify diverse NE phenotypes in mCRPC.Significance:This study identifies SRRM3 as a key inducer of cellular plasticity in prostate cancer with neuroendocrine features and delineates distinct neuroendocrine phenotypes to inform therapeutic development and precision medicine applications.

Published

2023

44. Supplementary Tables S1-S12 from RNA Splicing Factors SRRM3 and SRRM4 Distinguish Molecular Phenotypes of Castration-Resistant Neuroendocrine Prostate Cancer

Author

Colm Morrissey, Peter S. Nelson, Eva Corey, Joshi J. Alumkal, Hung-Ming Lam, Daniel W. Lin, Lawrence D. True, David S. Rickman, Michael C. Haffner, Brian Hanratty, Dapei Li, Holly M. Nguyen, John K. Lee, Nicholas J. Brady, Bryce Lakely, Ilsa M. Coleman, Lisha G. Brown, and Mark P. Labrecque

Abstract

All supplementary tables. Tables S1-S12

Published

2023

45. Data from Analytic Validation of RNA In Situ Hybridization (RISH) for AR and AR-V7 Expression in Human Prostate Cancer

Author

Tamara L. Lotan, Angelo M. De Marzo, Jun Luo, Harrison Tsai, Changxue Lu, Emmanuel S. Antonarakis, John T. Isaacs, Qizhi Zheng, Michael C. Haffner, Fawaz Almutairi, Carlos L. Morais, and Liana B. Guedes

Abstract

Purpose: RNA expression of androgen receptor splice variants may be a biomarker of resistance to novel androgen deprivation therapies in castrate-resistant prostate cancer (CRPC). We analytically validated an RNA in situ hybridization (RISH) assay for total AR and AR-V7 for use in formalin-fixed paraffin-embedded (FFPE) prostate tumors.Experimental Design: We used prostate cell lines and xenografts to validate chromogenic RISH to detect RNA containing AR exon 1 (AR-E1, surrogate for total AR RNA species) and cryptic exon 3 (AR-CE3, surrogate for AR-V7 expression). RISH signals were quantified in FFPE primary tumors and CRPC specimens, comparing to known AR and AR-V7 status by IHC and RT-PCR.Results: The quantified RISH results correlated significantly with total AR and AR-V7 levels by RT-PCR in cell lines, xenografts, and autopsy metastases. Both AR-E1 and AR-CE3 RISH signals were localized in nuclear punctae in addition to the expected cytoplasmic speckles. Compared with admixed benign glands, AR-E1 expression was significantly higher in primary tumor cells with a median fold increase of 3.0 and 1.4 in two independent cohorts (P < 0.0001 and P = 0.04, respectively). While AR-CE3 expression was detectable in primary prostatic tumors, levels were substantially higher in a subset of CRPC metastases and cell lines, and were correlated with AR-E1 expression.Conclusions: RISH for AR-E1 and AR-CE3 is an analytically valid method to examine total AR and AR-V7 RNA levels in FFPE tissues. Future clinical validation studies are required to determine whether AR RISH is a prognostic or predictive biomarker in specific clinical contexts. Clin Cancer Res; 22(18); 4651–63. ©2016 AACR.

Published

2023

46. Data from Assessment of Androgen Receptor Splice Variant-7 as a Biomarker of Clinical Response in Castration-Sensitive Prostate Cancer

Author

Adam Sharp, Johann S. de Bono, Stephen R. Plymate, Michael C. Haffner, Peter S. Nelson, Eva Corey, Steven P. Balk, William L. Dahut, Fatima Karzai, Scott Wilkinson, Amanda Swain, Cynthia T. Sprenger, Antje Neeb, Ruth Riisnaes, Daniel Nava Rodrigues, Juan M. Jimenez-Vacas, Jonathan Welti, Lawrence D. True, Radhika A. Patel, Anson T. Ku, Shana Y. Trostel, Nichelle C. Whitlock, John R. Bright, Joshua W. Russo, Wei Yuan, Denisa Bogdan, Bora Gurel, Ilsa Coleman, Rosina T. Lis, Ines Figueiredo, and Adam G. Sowalsky

Abstract

Purpose:Therapies targeting the androgen receptor (AR) have improved the outcome for patients with castration-sensitive prostate cancer (CSPC). Expression of the constitutively active AR splice variant-7 (AR-V7) has shown clinical utility as a predictive biomarker of AR-targeted therapy resistance in castration-resistant prostate cancer (CRPC), but its importance in CSPC remains understudied.Experimental Design:We assessed different approaches to quantify AR-V7 mRNA and protein in prostate cancer cell lines, patient-derived xenograft (PDX) models, publicly available cohorts, and independent institutional clinical cohorts, to identify reliable approaches for detecting AR-V7 mRNA and protein and its association with clinical outcome.Results:In CSPC and CRPC cohorts, AR-V7 mRNA was much less abundant when detected using reads across splice boundaries than when considering isoform-specific exonic reads. The RM7 AR-V7 antibody had increased sensitivity and specificity for AR-V7 protein detection by immunohistochemistry (IHC) in CRPC cohorts but rarely identified AR-V7 protein reactivity in CSPC cohorts, when compared with the EPR15656 AR-V7 antibody. Using multiple CRPC PDX models, we demonstrated that AR-V7 expression was exquisitely sensitive to hormonal manipulation. In CSPC institutional cohorts, AR-V7 protein quantification by either assay was associated neither with time to development of castration resistance nor with overall survival, and intense neoadjuvant androgen-deprivation therapy did not lead to significant AR-V7 mRNA or staining following treatment. Neither pre- nor posttreatment AR-V7 levels were associated with volumes of residual disease after therapy.Conclusions:This study demonstrates that further analytical validation and clinical qualification are required before AR-V7 can be considered for clinical use in CSPC as a predictive biomarker.

Published

2023

47. Supplementary Table S4 from Analytic, Preanalytic, and Clinical Validation of p53 IHC for Detection of TP53 Missense Mutation in Prostate Cancer

Author

Tamara L. Lotan, Edward M. Schaeffer, Ashley E. Ross, William B. Isaacs, George J. Netto, Angelo M. De Marzo, Rajni Sharma, Kasra Yousefi, Roberto Zoino, Szczepan Klimek, Zach Liu, Gaurav Rajoria, Michael C. Haffner, Fawaz Almutairi, and Liana B. Guedes

Abstract

Demographic and clinical-pathologic characteristics of eligible patients in intermediate/high risk radical prostatectomy cohort

Published

2023

48. Supplementary Figure 4 from Androgen Deprivation Followed by Acute Androgen Stimulation Selectively Sensitizes AR-Positive Prostate Cancer Cells to Ionizing Radiation

Author

Theodore L. DeWeese, Srinivasan Yegnasubramanian, William G. Nelson, Russell Hales, Aileen Santos, John T. Isaacs, Susan Dalrymple, Nina Razavi, Emma J. Knight, Omar Mian, Haoming Zhou, Yonggang Zhang, Raju R. Raval, Jonathan B. Coulter, Michael C. Haffner, and Mohammad Hedayati

Abstract

IR reduced xenograft growth in intact mice without androgen modulation. Xenograft tumors of LAPC4 (A) and LNCaP (B) cells established in intact nude mice were exposed to sham (control) or 8Gy ionizing radiation (IR). Tumor size was longitudinally determined by caliper measurements. Graph shows relative tumor volumes normalized to the tumor size at the time of radiation.

Published

2023

49. Data from Androgen Deprivation Followed by Acute Androgen Stimulation Selectively Sensitizes AR-Positive Prostate Cancer Cells to Ionizing Radiation

Author

Theodore L. DeWeese, Srinivasan Yegnasubramanian, William G. Nelson, Russell Hales, Aileen Santos, John T. Isaacs, Susan Dalrymple, Nina Razavi, Emma J. Knight, Omar Mian, Haoming Zhou, Yonggang Zhang, Raju R. Raval, Jonathan B. Coulter, Michael C. Haffner, and Mohammad Hedayati

Abstract

Purpose: The current standard of care for patients with locally advanced prostate cancer is a combination of androgen deprivation and radiation therapy. Radiation is typically given with androgen suppression when testosterone levels are at their nadir. Recent reports have shown that androgen stimulation of androgen-deprived prostate cancer cells leads to formation of double-strand breaks (DSB). Here, we exploit this finding and investigate the extent and timing of androgen-induced DSBs and their effect on tumor growth following androgen stimulation in combination with ionizing radiation (IR).Experimental Design: Androgen-induced DNA damage was assessed by comet assays and γH2A.X foci formation. Effects of androgen stimulation and radiation were determined in vitro and in vivo with xenograft models.Results: We document that androgen treatment of androgen-deprived prostate cancer cell lines resulted in a dose- and time-dependent induction of widespread DSBs. Generation of these breaks was dependent on androgen receptor and topoisomerase II beta but not on cell-cycle progression. In vitro models demonstrated a synergistic interaction between IR and androgen stimulation when IR is given at a time point corresponding with high levels of androgen-induced DSB formation. Furthermore, in vivo studies showed a significant improvement in tumor growth delay when radiation was given shortly after androgen repletion in castrated mice.Conclusions: These results suggest a potential cooperative effect and improved tumor growth delay with androgen-induced DSBs and radiation with implications for improving the therapeutic index of prostate cancer radiation therapy. Clin Cancer Res; 22(13); 3310–9. ©2016 AACR.See related commentary by Chua and Bristow, p. 3124

Published

2023

50. Supplementary Figure from Therapeutic Implications for Intrinsic Phenotype Classification of Metastatic Castration-Resistant Prostate Cancer

Author

Peter S. Nelson, Michael C. Haffner, Eva Corey, Dapei Li, Erolcan Sayar, Martine P. Roudier, Li Xin, Colm Morrissey, Navonil DeSarkar, and Ilsa M. Coleman

Abstract

Supplementary Figure from Therapeutic Implications for Intrinsic Phenotype Classification of Metastatic Castration-Resistant Prostate Cancer

Published

2023