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1. Functional inversion of circadian regulator REV-ERBα leads to tumorigenic gene reprogramming

Author

Yang, Yatian, Zhang, Xiong, Cai, Demin, Zheng, Xingling, Zhao, Xuan, Zou, June X, Zhang, Jin, Borowsky, Alexander D, Dall’Era, Marc A, Corey, Eva, Mitsiades, Nicholas, Kung, Hsing-Jien, Chen, Xinbin, Li, Jian Jian, Downes, Michael, Evans, Ronald M, and Chen, Hong-Wu

Subjects
Biochemistry and Cell Biology, Biomedical and Clinical Sciences, Biological Sciences, Genetics, Cancer, Human Genome, 1.1 Normal biological development and functioning, 2.1 Biological and endogenous factors, Nuclear Receptor Subfamily 1, Group D, Member 1, Humans, Animals, Circadian Rhythm, Carcinogenesis, Mice, Gene Expression Regulation, Neoplastic, Transcription Factors, Hepatocyte Nuclear Factor 3-alpha, Signal Transduction, Cell Line, Tumor, Neoplasms, Cell Cycle Proteins, Nuclear Receptor Co-Repressor 1, Bromodomain Containing Proteins, CRPC, REV-ERBα, antagonist, liver, prostate
Abstract

Profound functional switch of key regulatory factors may play a major role in homeostasis and disease. Dysregulation of circadian rhythm (CR) is strongly implicated in cancer with mechanisms poorly understood. We report here that the function of REV-ERBα, a major CR regulator of the orphan nuclear receptor subfamily, is dramatically altered in tumors in both its genome binding and functional mode. Loss of CR is linked to a functional inversion of REV-ERBα from a repressor in control of CR and metabolic gene programs in normal tissues to a strong activator in different cancers. Through changing its association from NCoR/HDAC3 corepressor complex to BRD4/p300 coactivators, REV-ERBα directly activates thousands of genes including tumorigenic programs such as MAPK and PI3K-Akt signaling. Functioning as a master transcriptional activator, REV-ERBα partners with pioneer factor FOXA1 and directly stimulates a large number of signaling genes, including multiple growth factors, receptor tyrosine kinases, RASs, AKTs, and MAPKs. Moreover, elevated REV-ERBα reprograms FOXA1 to bind new targets through a BRD4-mediated increase in local chromatin accessibility. Pharmacological targeting with SR8278 diminishes the function of both REV-ERBα and FOXA1 and synergizes with BRD4 inhibitor in effective suppression of tumorigenic programs and tumor growth. Thus, our study revealed a functional inversion by a CR regulator in driving gene reprogramming as an unexpected paradigm of tumorigenesis mechanism and demonstrated a high effectiveness of therapeutic targeting such switch.

Published
2024

2. Plexin D1 emerges as a novel target in the development of neural lineage plasticity in treatment-resistant prostate cancer

Author

Chen, Bo, Xu, Pengfei, Yang, Joy C, Nip, Christopher, Wang, Leyi, Shen, Yuqiu, Ning, Shu, Shang, Yufeng, Corey, Eva, Gao, Allen C, Gestwicki, Jason E, Wei, Qiang, Liu, Liangren, and Liu, Chengfei

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Oncology and Carcinogenesis, Prostate Cancer, Genetics, Urologic Diseases, Biotechnology, Cancer, 2.1 Biological and endogenous factors, 5.1 Pharmaceuticals, Humans, Male, Animals, Mice, Drug Resistance, Neoplasm, Cell Line, Tumor, Prostatic Neoplasms, Cell Proliferation, Gene Expression Regulation, Neoplastic, Cell Lineage, Nerve Tissue Proteins, Xenograft Model Antitumor Assays, Cell Plasticity, Receptors, Cell Surface, Prognosis, Membrane Glycoproteins, Intracellular Signaling Peptides and Proteins, Oncology & Carcinogenesis, Biochemistry and cell biology, Oncology and carcinogenesis
Abstract

Treatment-induced neuroendocrine prostate cancer (t-NEPC) often arises from adenocarcinoma via lineage plasticity in response to androgen receptor signaling inhibitors, such as enzalutamide. However, the specific regulators and targets involved in the transition to NEPC are not well understood. Plexin D1 (PLXND1) is a cellular receptor of the semaphorin (SEMA) family that plays important roles in modulating the cytoskeleton and cell adhesion. Here, we found that PLXND1 was highly expressed and positively correlated with neuroendocrine markers in patients with NEPC. High PLXND1 expression was associated with poorer prognosis in prostate cancer patients. Additionally, PLXND1 was upregulated and negatively regulated by androgen receptor signaling in enzalutamide-resistant cells. Knockdown or knockout of PLXND1 inhibited neural lineage pathways, thereby suppressing NEPC cell proliferation, patient derived xenograft (PDX) tumor organoid viability, and xenograft tumor growth. Mechanistically, the heat shock protein 70 (HSP70) regulated PLXND1 protein stability through degradation, and inhibition of HSP70 decreased PLXND1 expression and NEPC organoid growth. In summary, our findings indicate that PLXND1 could serve as a promising therapeutic target and molecular marker for NEPC.

Published
2024

3. UCHL1 is a potential molecular indicator and therapeutic target for neuroendocrine carcinomas.

Author

Liu, Shiqin, Chai, Timothy, Garcia-Marques, Fernando, Yin, Qingqing, Hsu, En-Chi, Shen, Michelle, Shaw Toland, Angus, Bermudez, Abel, Hartono, Alifiani, Massey, Christopher, Lee, Chung, Zheng, Liwei, Baron, Maya, Denning, Caden, Aslan, Merve, Nguyen, Holly, Zoubeidi, Amina, Das, Millie, Kunder, Christian, Howitt, Brooke, Soh, H, Weissman, Irving, Liss, Michael, Chin, Arnold, Brooks, James, Corey, Eva, Pitteri, Sharon, Huang, Jiaoti, Nolley, Rosie, and Stoyanova, Tanya

Subjects
UCHL1, neuroblastoma, neuroendocrine carcinomas, neuroendocrine prostate cancer, nuclear pore complex, small cell lung cancer, Male, Humans, Ubiquitin Thiolesterase, Carcinoma, Neuroendocrine, Small Cell Lung Carcinoma, Lung Neoplasms, Membrane Glycoproteins
Abstract

Neuroendocrine carcinomas, such as neuroendocrine prostate cancer and small-cell lung cancer, commonly have a poor prognosis and limited therapeutic options. We report that ubiquitin carboxy-terminal hydrolase L1 (UCHL1), a deubiquitinating enzyme, is elevated in tissues and plasma from patients with neuroendocrine carcinomas. Loss of UCHL1 decreases tumor growth and inhibits metastasis of these malignancies. UCHL1 maintains neuroendocrine differentiation and promotes cancer progression by regulating nucleoporin, POM121, and p53. UCHL1 binds, deubiquitinates, and stabilizes POM121 to regulate POM121-associated nuclear transport of E2F1 and c-MYC. Treatment with the UCHL1 inhibitor LDN-57444 slows tumor growth and metastasis across neuroendocrine carcinomas. The combination of UCHL1 inhibitors with cisplatin, the standard of care used for neuroendocrine carcinomas, significantly delays tumor growth in pre-clinical settings. Our study reveals mechanisms of UCHL1 function in regulating the progression of neuroendocrine carcinomas and identifies UCHL1 as a therapeutic target and potential molecular indicator for diagnosing and monitoring treatment responses in these malignancies.

Published
2024

4. Stromal-derived MAOB promotes prostate cancer growth and progression.

Author

Pu, Tianjie, Wang, Jing, Wei, Jing, Zeng, Alan, Zhang, Jinglong, Chen, Jingrui, Yin, Lijuan, Li, Jingjing, Lin, Tzu-Ping, Melamed, Jonathan, Corey, Eva, Gao, Allen, and Wu, Boyang

Subjects
Male, Humans, Animals, Mice, Monoamine Oxidase, Cell Line, Tumor, Prostatic Neoplasms, Signal Transduction, Fibroblasts, Tumor Microenvironment
Abstract

Prostate cancer (PC) develops in a microenvironment where the stromal cells modulate adjacent tumor growth and progression. Here, we demonstrated elevated levels of monoamine oxidase B (MAOB), a mitochondrial enzyme that degrades biogenic and dietary monoamines, in human PC stroma, which was associated with poor clinical outcomes of PC patients. Knockdown or overexpression of MAOB in human prostate stromal fibroblasts indicated that MAOB promotes cocultured PC cell proliferation, migration, and invasion and co-inoculated prostate tumor growth in mice. Mechanistically, MAOB induces a reactive stroma with activated marker expression, increased extracellular matrix remodeling, and acquisition of a protumorigenic phenotype through enhanced production of reactive oxygen species. Moreover, MAOB transcriptionally activates CXCL12 through Twist1 synergizing with TGFβ1-dependent Smads in prostate stroma, which stimulates tumor-expressed CXCR4-Src/JNK signaling in a paracrine manner. Pharmacological inhibition of stromal MAOB restricted PC xenograft growth in mice. Collectively, these findings characterize the contribution of MAOB to PC and suggest MAOB as a potential stroma-based therapeutic target.

Published
2024

5. Proteostasis perturbation of N-Myc leveraging HSP70 mediated protein turnover improves treatment of neuroendocrine prostate cancer

Author

Xu, Pengfei, Yang, Joy C, Chen, Bo, Ning, Shu, Zhang, Xiong, Wang, Leyi, Nip, Christopher, Shen, Yuqiu, Johnson, Oleta T, Grigorean, Gabriela, Phinney, Brett, Liu, Liangren, Wei, Qiang, Corey, Eva, Tepper, Clifford G, Chen, Hong-Wu, Evans, Christopher P, Dall’Era, Marc A, Gao, Allen C, Gestwicki, Jason E, and Liu, Chengfei

Subjects
Biochemistry and Cell Biology, Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Biological Sciences, Prostate Cancer, Urologic Diseases, Neurosciences, Cancer, 5.1 Pharmaceuticals, Male, Humans, Prostatic Neoplasms, HSP70 Heat-Shock Proteins, Ubiquitin-Protein Ligases, Ubiquitination, Cell Line, Tumor, Proteostasis, Animals, Aurora Kinase A, N-Myc Proto-Oncogene Protein, Mice, Carcinoma, Neuroendocrine, Neuroendocrine Tumors
Abstract

N-Myc is a key driver of neuroblastoma and neuroendocrine prostate cancer (NEPC). One potential way to circumvent the challenge of undruggable N-Myc is to target the protein homeostasis (proteostasis) system that maintains N-Myc levels. Here, we identify heat shock protein 70 (HSP70) as a top partner of N-Myc, which binds a conserved "SELILKR" motif and prevents the access of E3 ubiquitin ligase, STIP1 homology and U-box containing protein 1 (STUB1), possibly through steric hindrance. When HSP70's dwell time on N-Myc is increased by treatment with the HSP70 allosteric inhibitor, STUB1 is in close proximity with N-Myc and becomes functional to promote N-Myc ubiquitination on the K416 and K419 sites and forms polyubiquitination chains linked by the K11 and K63 sites. Notably, HSP70 inhibition significantly suppressed NEPC tumor growth, increased the efficacy of aurora kinase A (AURKA) inhibitors, and limited the expression of neuroendocrine-related pathways.

Published
2024

6. Targeting the αVβ3/NgR2 pathway in neuroendocrine prostate cancer.

Author

Testa, Anna, Quaglia, Fabio, Naranjo, Nicole, Verrillo, Cecilia, Shields, Christopher, Lin, Stephen, Pickles, Maxwell, Hamza, Drini, Von Schalscha, Tami, Leiby, Benjamin, Liu, Qin, Ding, Jianyi, Kelly, William, Hooper, D, Corey, Eva, Plow, Edward, Altieri, Dario, Languino, Lucia, and Cheresh, David

Subjects
Monocytes, Neuroendocrine prostate cancer, NgR2, Patient plasma, Small extracellular vesicles, αVβ3 integrin, Male, Humans, Prostatic Neoplasms, Androgen Antagonists, Signal Transduction, Antibodies, Monoclonal, Integrins, Integrin alphaVbeta3, Cell Line, Tumor
Abstract

Highly aggressive, metastatic, neuroendocrine prostate cancer, which typically develops from prostate cancer cells acquiring resistance to androgen deprivation therapy, is associated with limited treatment options and hence poor prognosis. We have previously demonstrated that the αVβ3 integrin is over-expressed in neuroendocrine prostate cancer. We now show that LM609, a monoclonal antibody that specifically targets the human αVβ3 integrin, hinders the growth of neuroendocrine prostate cancer patient-derived xenografts in vivo. Our group has recently identified a novel αVβ3 integrin binding partner, NgR2, responsible for regulating the expression of neuroendocrine markers and for inducing neuroendocrine differentiation in prostate cancer cells. Through in vitro functional assays, we here demonstrate that NgR2 is crucial in promoting cell adhesion to αVβ3 ligands. Moreover, we describe for the first time co-fractionation of αVβ3 integrin and NgR2 in small extracellular vesicles derived from metastatic prostate cancer patients plasma. These prostate cancer patient-derived small extracellular vesicles have a functional impact on human monocytes, increasing their adhesion to fibronectin. The monocytes incubated with small extracellular vesicles do not show an associated change in conventional polarization marker expression and appear to be in an early stage that may be defined as adhesion competent. Overall, these findings allow us to better understand integrin-directed signaling and cell-cell communication during cancer progression. Furthermore, our results pave the way for new diagnostic and therapeutic perspectives for patients affected by neuroendocrine prostate cancer.

Published
2023

7. Prostate lineage-specific metabolism governs luminal differentiation and response to antiandrogen treatment

Author

Giafaglione, Jenna M, Crowell, Preston D, Delcourt, Amelie ML, Hashimoto, Takao, Ha, Sung Min, Atmakuri, Aishwarya, Nunley, Nicholas M, Dang, Rachel MA, Tian, Mao, Diaz, Johnny A, Tika, Elisavet, Payne, Marie C, Burkhart, Deborah L, Li, Dapei, Navone, Nora M, Corey, Eva, Nelson, Peter S, Lin, Neil YC, Blanpain, Cedric, Ellis, Leigh, Boutros, Paul C, and Goldstein, Andrew S

Subjects
Biochemistry and Cell Biology, Biological Sciences, Urologic Diseases, Prostate Cancer, Aging, Cancer, Aetiology, 1.1 Normal biological development and functioning, 2.1 Biological and endogenous factors, Underpinning research, Male, Humans, Prostate, Monocarboxylic Acid Transporters, Cell Differentiation, Epithelial Cells, Androgen Antagonists, Lactates, Medical and Health Sciences, Developmental Biology, Biochemistry and cell biology
Abstract

Lineage transitions are a central feature of prostate development, tumourigenesis and treatment resistance. While epigenetic changes are well known to drive prostate lineage transitions, it remains unclear how upstream metabolic signalling contributes to the regulation of prostate epithelial identity. To fill this gap, we developed an approach to perform metabolomics on primary prostate epithelial cells. Using this approach, we discovered that the basal and luminal cells of the prostate exhibit distinct metabolomes and nutrient utilization patterns. Furthermore, basal-to-luminal differentiation is accompanied by increased pyruvate oxidation. We establish the mitochondrial pyruvate carrier and subsequent lactate accumulation as regulators of prostate luminal identity. Inhibition of the mitochondrial pyruvate carrier or supplementation with exogenous lactate results in large-scale chromatin remodelling, influencing both lineage-specific transcription factors and response to antiandrogen treatment. These results establish reciprocal regulation of metabolism and prostate epithelial lineage identity.

Published
2023

8. ACAA2 is a novel molecular indicator for cancers with neuroendocrine phenotype.

Author

Shen, Michelle, Toland, Angus, Hsu, En-Chi, Hartono, Alifiani, Alabi, Busola, Aslan, Merve, Nguyen, Holly, Sessions, Conner, Shi, Chanjuan, Huang, Jiaoti, Brooks, James, Corey, Eva, Nolley, Rosie, Stoyanova, Tanya, and Liu, Shiqin

Subjects
Humans, Male, Carcinoma, Neuroendocrine, Carcinoma, Small Cell, Cell Line, Tumor, Lung Neoplasms, Phenotype, Prostatic Neoplasms, RNA, Messenger, Small Cell Lung Carcinoma
Abstract

BACKGROUND: Neuroendocrine phenotype is commonly associated with therapy resistance and poor prognoses in small-cell neuroendocrine cancers (SCNCs), such as neuroendocrine prostate cancer (NEPC) and small-cell lung cancer (SCLC). Expression levels of current neuroendocrine markers exhibit high case-by-case variability, so multiple markers are used in combination to identify SCNCs. Here, we report that ACAA2 is elevated in SCNCs and is a potential molecular indicator for SCNCs. METHODS: ACAA2 expressions in tumour xenografts, tissue microarrays (TMAs), and patient tissues from prostate and lung cancers were analysed via immunohistochemistry. ACAA2 mRNA levels in lung and prostate cancer (PC) patients were assessed in published datasets. RESULTS: ACAA2 protein and mRNA levels were elevated in SCNCs relative to non-SCNCs. Medium/high ACAA2 intensity was observed in 78% of NEPC PDXs samples (N = 27) relative to 33% of adeno-CRPC (N = 86), 2% of localised PC (N = 50), and 0% of benign prostate specimens (N = 101). ACAA2 was also elevated in lung cancer patient tissues with neuroendocrine phenotype. 83% of lung carcinoid tissues (N = 12) and 90% of SCLC tissues (N = 10) exhibited medium/high intensity relative to 40% of lung adenocarcinoma (N = 15). CONCLUSION: ACAA2 expression is elevated in aggressive SCNCs such as NEPC and SCLC, suggesting it is a potential molecular indicator for SCNCs.

Published
2023

10. GD2 and its biosynthetic enzyme GD3 synthase promote tumorigenesis in prostate cancer by regulating cancer stem cell behavior

Author

Bhat, Aaqib M., Mohapatra, Bhopal C., Luan, Haitao, Mushtaq, Insha, Chakraborty, Sukanya, Kumar, Siddhartha, Wu, Wangbin, Nolan, Ben, Dutta, Samikshan, Storck, Matthew D., Schott, Micah, Meza, Jane L., Lele, Subodh M., Lin, Ming-Fong, Cook, Leah M., Corey, Eva, Morrissey, Colm, Coulter, Donald W., Rowley, M. Jordan, Natarajan, Amarnath, Datta, Kaustubh, Band, Vimla, and Band, Hamid

Published
2024
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11. Assessment of TROP2, CEACAM5 and DLL3 in metastatic prostate cancer: Expression landscape and molecular correlates

Author

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

Published
2024
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12. Novel inhibition of AKR1C3 and androgen receptor axis by PTUPB synergizes enzalutamide treatment in advanced prostate cancer

Author

Yang, Joy C, Xu, Pengfei, Ning, Shu, Wasielewski, Logan J, Adomat, Hans, Hwang, Sung Hee, Morisseau, Christophe, Gleave, Martin, Corey, Eva, Gao, Allen C, Lara Jr, Primo N, Evans, Christopher P, Hammock, Bruce D, and Liu, Chengfei

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Oncology and Carcinogenesis, Cancer, Urologic Diseases, Prostate Cancer, 5.1 Pharmaceuticals, Good Health and Well Being, Male, Humans, Receptors, Androgen, Prostatic Neoplasms, Castration-Resistant, Drug Resistance, Neoplasm, Cell Line, Tumor, Nitriles, Androgen Receptor Antagonists, Aldo-Keto Reductase Family 1 Member C3, Oncology & Carcinogenesis, Biochemistry and cell biology, Oncology and carcinogenesis
Abstract

Castration-resistant prostate cancer (CRPC) is the main driving force of mortality in prostate cancer patients. Among the parameters contributing to the progression of CRPC and treatment failure, elevation of the steroidogenic enzyme AKR1C3 and androgen receptor variant 7 (AR-V7) are frequently reported. The AKR1C3/AR-V7 complex has been recognized as a major driver for drug resistance in advanced prostate cancer. Herein we report that the level of AKR1C3 is reciprocally regulated by the full-length androgen receptor (AR-FL) through binding to the distal enhancer region of the AKR1C3 gene. A novel function of PTUPB in AKR1C3 inhibition was discovered and PTUPB showed more effectiveness than indomethacin and celecoxib in suppressing AKR1C3 activity and CRPC cell growth. PTUPB synergizes with enzalutamide treatment in tumor suppression and gene signature regulation. Combination treatments with PTUPB and enzalutamide provide benefits by blocking AR/AR-V7 signaling, which inhibits the growth of castration relapsed VCaP xenograft tumors and patient-derived xenograft organoids. Targeting of the ARK1C3/AR/AR-V7 axis with PTUPB and enzalutamide may overcome drug resistance to AR signaling inhibitors in advanced prostate cancer.

Published
2023

13. Activation of neural lineage networks and ARHGEF2 in enzalutamide-resistant and neuroendocrine prostate cancer and association with patient outcomes

Author

Ning, Shu, Zhao, Jinge, Lombard, Alan P, D’Abronzo, Leandro S, Leslie, Amy R, Sharifi, Masuda, Lou, Wei, Liu, Chengfei, Yang, Joy C, Evans, Christopher P, Corey, Eva, Chen, Hong-Wu, Yu, Aiming, Ghosh, Paramita M, and Gao, Allen C

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Oncology and Carcinogenesis, Prostate Cancer, Urologic Diseases, Stem Cell Research, Clinical Research, Stem Cell Research - Nonembryonic - Human, Cancer, Genetics, Detection, screening and diagnosis, Aetiology, 4.1 Discovery and preclinical testing of markers and technologies, 2.1 Biological and endogenous factors, Prostate, Prostate cancer
Abstract

BackgroundTreatment-emergent neuroendocrine prostate cancer (NEPC) after androgen receptor (AR) targeted therapies is an aggressive variant of prostate cancer with an unfavorable prognosis. The underlying mechanisms for early neuroendocrine differentiation are poorly defined and diagnostic and prognostic biomarkers are needed.MethodsWe performed transcriptomic analysis on the enzalutamide-resistant prostate cancer cell line C4-2B MDVR and NEPC patient databases to identify neural lineage signature (NLS) genes. Correlation of NLS genes with clinicopathologic features was determined. Cell viability was determined in C4-2B MDVR and H660 cells after knocking down ARHGEF2 using siRNA. Organoid viability of patient-derived xenografts was measured after knocking down ARHGEF2.ResultsWe identify a 95-gene NLS representing the molecular landscape of neural precursor cell proliferation, embryonic stem cell pluripotency, and neural stem cell differentiation, which may indicate an early or intermediate stage of neuroendocrine differentiation. These NLS genes positively correlate with conventional neuroendocrine markers such as chromogranin and synaptophysin, and negatively correlate with AR and AR target genes in advanced prostate cancer. Differentially expressed NLS genes stratify small-cell NEPC from prostate adenocarcinoma, which are closely associated with clinicopathologic features such as Gleason Score and metastasis status. Higher ARGHEF2, LHX2, and EPHB2 levels among the 95 NLS genes correlate with a shortened survival time in NEPC patients. Furthermore, downregulation of ARHGEF2 gene expression suppresses cell viability and markers of neuroendocrine differentiation in enzalutamide-resistant and neuroendocrine cells.ConclusionsThe 95 neural lineage gene signatures capture an early molecular shift toward neuroendocrine differentiation, which could stratify advanced prostate cancer patients to optimize clinical treatment and serve as a source of potential therapeutic targets in advanced prostate cancer.

Published
2022

15. Temporal evolution reveals bifurcated lineages in aggressive neuroendocrine small cell prostate cancer trans-differentiation

Author

Chen, Chia-Chun, Tran, Wendy, Song, Kai, Sugimoto, Tyler, Obusan, Matthew B., Wang, Liang, Sheu, Katherine M., Cheng, Donghui, Ta, Lisa, Varuzhanyan, Grigor, Huang, Arthur, Xu, Runzhe, Zeng, Yuanhong, Borujerdpur, Amirreza, Bayley, Nicholas A., Noguchi, Miyako, Mao, Zhiyuan, Morrissey, Colm, Corey, Eva, Nelson, Peter S., Zhao, Yue, Huang, Jiaoti, Park, Jung Wook, Witte, Owen N., and Graeber, Thomas G.

Published
2023
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16. Targeting Feedforward Loops Formed by Nuclear Receptor RORγ and Kinase PBK in mCRPC with Hyperactive AR Signaling.

Author

Zhang, Xiong, Huang, Zenghong, Wang, Junjian, Ma, Zhao, Yang, Joy, Corey, Eva, Evans, Christopher P, Yu, Ai-Ming, and Chen, Hong-Wu

Subjects
AR, AR-V7, CRPC, EMT, PBK, PDX, RORγ, antagonists, cell invasion, inverse agonists, kinase, metastasis, ROR&#947, Oncology and Carcinogenesis
Abstract

Metastatic castration-resistant prostate cancer (mCRPC) is a highly aggressive disease with few therapeutic options. Hyperactive androgen receptor (AR) signaling plays a key role in CRPC progression. Previously, we identified RAR-related orphan receptor gamma (RORγ) as a novel key driver of AR gene overexpression and increased AR signaling. We report here that several RORγ antagonists/inverse agonists including XY018 and compound 31 were orally effective in potent inhibition of the growth of tumor models including patient-derived xenograft (PDX) tumors. RORγ controls the expression of multiple aggressive-tumor gene programs including those of epithelial-mesenchymal transition (EMT) and invasion. We found that PDZ binding kinase (PBK), a serine/threonine kinase, is a downstream target of RORγ that exerts the cellular effects. Alterations of RORγ expression or function significantly downregulated the mRNA and protein level of PBK. Our further analyses demonstrated that elevated PBK associates with and stabilizes RORγ and AR proteins, thus constituting novel, interlocked feed-forward loops in hyperactive AR and RORγ signaling. Indeed, dual inhibition of RORγ and PBK synergistically inhibited the expression and function of RORγ, AR, and AR-V7, and the growth and survival of CRPC cells. Therefore, our study provided a promising, new strategy for treatment of advanced forms of prostate cancer.

Published
2021

17. Reprogramming of the FOXA1 cistrome in treatment-emergent neuroendocrine prostate cancer.

Author

Baca, Sylvan C, Takeda, David Y, Seo, Ji-Heui, Hwang, Justin, Ku, Sheng Yu, Arafeh, Rand, Arnoff, Taylor, Agarwal, Supreet, Bell, Connor, O'Connor, Edward, Qiu, Xintao, Alaiwi, Sarah Abou, Corona, Rosario I, Fonseca, Marcos AS, Giambartolomei, Claudia, Cejas, Paloma, Lim, Klothilda, He, Monica, Sheahan, Anjali, Nassar, Amin, Berchuck, Jacob E, Brown, Lisha, Nguyen, Holly M, Coleman, Ilsa M, Kaipainen, Arja, De Sarkar, Navonil, Nelson, Peter S, Morrissey, Colm, Korthauer, Keegan, Pomerantz, Mark M, Ellis, Leigh, Pasaniuc, Bogdan, Lawrenson, Kate, Kelly, Kathleen, Zoubeidi, Amina, Hahn, William C, Beltran, Himisha, Long, Henry W, Brown, Myles, Corey, Eva, and Freedman, Matthew L

Subjects
Cell Line, Tumor, Animals, Humans, Neuroendocrine Tumors, Adenocarcinoma, Prostatic Neoplasms, Disease Progression, Receptors, Androgen, Gene Expression Regulation, Neoplastic, RNA Interference, Mutation, Male, Hepatocyte Nuclear Factor 3-alpha, Epigenomics, Cell Line, Tumor, Receptors, Androgen, Gene Expression Regulation, Neoplastic
Abstract

Lineage plasticity, the ability of a cell to alter its identity, is an increasingly common mechanism of adaptive resistance to targeted therapy in cancer. An archetypal example is the development of neuroendocrine prostate cancer (NEPC) after treatment of prostate adenocarcinoma (PRAD) with inhibitors of androgen signaling. NEPC is an aggressive variant of prostate cancer that aberrantly expresses genes characteristic of neuroendocrine (NE) tissues and no longer depends on androgens. Here, we investigate the epigenomic basis of this resistance mechanism by profiling histone modifications in NEPC and PRAD patient-derived xenografts (PDXs) using chromatin immunoprecipitation and sequencing (ChIP-seq). We identify a vast network of cis-regulatory elements (N~15,000) that are recurrently activated in NEPC. The FOXA1 transcription factor (TF), which pioneers androgen receptor (AR) chromatin binding in the prostate epithelium, is reprogrammed to NE-specific regulatory elements in NEPC. Despite loss of dependence upon AR, NEPC maintains FOXA1 expression and requires FOXA1 for proliferation and expression of NE lineage-defining genes. Ectopic expression of the NE lineage TFs ASCL1 and NKX2-1 in PRAD cells reprograms FOXA1 to bind to NE regulatory elements and induces enhancer activity as evidenced by histone modifications at these sites. Our data establish the importance of FOXA1 in NEPC and provide a principled approach to identifying cancer dependencies through epigenomic profiling.

Published
2021

19. Targeting RET Kinase in Neuroendocrine Prostate Cancer

Author

VanDeusen, Halena R, Ramroop, Johnny R, Morel, Katherine L, Bae, Song Yi, Sheahan, Anjali V, Sychev, Zoi, Lau, Nathan A, Cheng, Larry C, Tan, Victor M, Li, Zhen, Petersen, Ashley, Lee, John K, Park, Jung Wook, Yang, Rendong, Hwang, Justin H, Coleman, Ilsa, Witte, Owen N, Morrissey, Colm, Corey, Eva, Nelson, Peter S, Ellis, Leigh, and Drake, Justin M

Subjects
Biotechnology, Aging, Prostate Cancer, Cancer, Clinical Research, Urologic Diseases, Development of treatments and therapeutic interventions, 5.1 Pharmaceuticals, Animals, Carcinoma, Neuroendocrine, Cell Line, Tumor, Gene Expression Regulation, Neoplastic, Gene Knockdown Techniques, Heterocyclic Compounds, 4 or More Rings, Humans, Male, Mice, PC-3 Cells, Phosphorylation, Prostatic Neoplasms, Proteomics, Proto-Oncogene Proteins c-ret, Receptors, Androgen, Up-Regulation, Xenograft Model Antitumor Assays, Oncology and Carcinogenesis, Developmental Biology, Oncology & Carcinogenesis
Abstract

The increased treatment of metastatic castration-resistant prostate cancer (mCRPC) with second-generation antiandrogen therapies (ADT) has coincided with a greater incidence of lethal, aggressive variant prostate cancer (AVPC) tumors that have lost dependence on androgen receptor (AR) signaling. These AR-independent tumors may also transdifferentiate to express neuroendocrine lineage markers and are termed neuroendocrine prostate cancer (NEPC). Recent evidence suggests kinase signaling may be an important driver of NEPC. To identify targetable kinases in NEPC, we performed global phosphoproteomics comparing several AR-independent to AR-dependent prostate cancer cell lines and identified multiple altered signaling pathways, including enrichment of RET kinase activity in the AR-independent cell lines. Clinical NEPC patient samples and NEPC patient-derived xenografts displayed upregulated RET transcript and RET pathway activity. Genetic knockdown or pharmacologic inhibition of RET kinase in multiple mouse and human models of NEPC dramatically reduced tumor growth and decreased cell viability. Our results suggest that targeting RET in NEPC tumors with high RET expression could be an effective treatment option. Currently, there are limited treatment options for patients with aggressive neuroendocrine prostate cancer and none are curative. IMPLICATIONS: Identification of aberrantly expressed RET kinase as a driver of tumor growth in multiple models of NEPC provides a significant rationale for testing the clinical application of RET inhibitors in patients with AVPC.

Published
2020

20. Prostate cancer reactivates developmental epigenomic programs during metastatic progression

Author

Pomerantz, Mark M, Qiu, Xintao, Zhu, Yanyun, Takeda, David Y, Pan, Wenting, Baca, Sylvan C, Gusev, Alexander, Korthauer, Keegan D, Severson, Tesa M, Ha, Gavin, Viswanathan, Srinivas R, Seo, Ji-Heui, Nguyen, Holly M, Zhang, Baohui, Pasaniuc, Bogdan, Giambartolomei, Claudia, Alaiwi, Sarah A, Bell, Connor A, O’Connor, Edward P, Chabot, Matthew S, Stillman, David R, Lis, Rosina, Font-Tello, Alba, Li, Lewyn, Cejas, Paloma, Bergman, Andries M, Sanders, Joyce, van der Poel, Henk G, Gayther, Simon A, Lawrenson, Kate, Fonseca, Marcos AS, Reddy, Jessica, Corona, Rosario I, Martovetsky, Gleb, Egan, Brian, Choueiri, Toni, Ellis, Leigh, Garraway, Isla P, Lee, Gwo-Shu Mary, Corey, Eva, Long, Henry W, Zwart, Wilbert, and Freedman, Matthew L

Subjects
Agricultural, Veterinary and Food Sciences, Biological Sciences, Bioinformatics and Computational Biology, Genetics, Agricultural Biotechnology, Aging, Human Genome, Urologic Diseases, Cancer, Prostate Cancer, 2.1 Biological and endogenous factors, Aetiology, Cell Line, Cell Line, Tumor, Disease Progression, Epigenomics, Gene Expression Regulation, Neoplastic, HEK293 Cells, Hepatocyte Nuclear Factor 3-alpha, Humans, Male, Prostate, Prostatic Neoplasms, Receptors, Androgen, Regulatory Sequences, Nucleic Acid, Medical and Health Sciences, Developmental Biology, Agricultural biotechnology, Bioinformatics and computational biology
Abstract

Epigenetic processes govern prostate cancer (PCa) biology, as evidenced by the dependency of PCa cells on the androgen receptor (AR), a prostate master transcription factor. We generated 268 epigenomic datasets spanning two state transitions-from normal prostate epithelium to localized PCa to metastases-in specimens derived from human tissue. We discovered that reprogrammed AR sites in metastatic PCa are not created de novo; rather, they are prepopulated by the transcription factors FOXA1 and HOXB13 in normal prostate epithelium. Reprogrammed regulatory elements commissioned in metastatic disease hijack latent developmental programs, accessing sites that are implicated in prostate organogenesis. Analysis of reactivated regulatory elements enabled the identification and functional validation of previously unknown metastasis-specific enhancers at HOXB13, FOXA1 and NKX3-1. Finally, we observed that prostate lineage-specific regulatory elements were strongly associated with PCa risk heritability and somatic mutation density. Examining prostate biology through an epigenomic lens is fundamental for understanding the mechanisms underlying tumor progression.

Published
2020

21. Tumor-derived biomarkers predict efficacy of B7H3 antibody-drug conjugate treatment in metastatic prostate cancer models

Author

Agarwal, Supreet, Fang, Lei, McGowen, Kerry, Yin, JuanJuan, Bowman, Joel, Ku, Anson T., Alilin, Aian Neil, Corey, Eva, Roudier, Martine P., True, Lawrence D., Dumpit, Ruth, Coleman, Ilsa, Lee, John K., Nelson, Peter S., Capaldo, Brian J., Mariani, Aida, Hoover, Clare, Senatorov, Ilya S., Beshiri, Michael, Sowalsky, Adam G., Hurt, Elaine M., and Kelly, Kathleen

Subjects
United States. National Cancer Institute -- Analysis, AstraZeneca PLC, Biopharmaceutics -- Health aspects -- Analysis, Tumor proteins -- Drug therapy, Prostate cancer -- Drug therapy, Antineoplastic agents -- Health aspects -- Analysis, Metastasis -- Drug therapy, Viral antibodies -- Health aspects -- Analysis, Antigens -- Analysis -- Health aspects, Antibodies -- Health aspects -- Analysis, Biological markers -- Health aspects -- Analysis, Pharmaceutical industry -- Health aspects -- Analysis, Antimitotic agents -- Health aspects -- Analysis, Health care industry
Abstract

Antibody-drug conjugates (ADCs) are a promising targeted cancer therapy; however, patient selection based solely on target antigen expression without consideration for cytotoxic payload vulnerabilities has plateaued clinical benefits. Biomarkers to capture patients who might benefit from specific ADCs have not been systematically determined for any cancer. We present a comprehensive therapeutic and biomarker analysis of a B7H3-ADC with pyrrolobenzodiazepine(PBD) payload in 26 treatment- resistant, metastatic prostate cancer (mPC) models. B7H3 is a tumor-specific surface protein widely expressed in mPC, and PBD is a DNA cross-linking agent. B7H3 expression was necessary but not sufficient for B7H3-PBD-ADC responsiveness. RB1 deficiency and/or replication stress, characteristics of poor prognosis, and conferred sensitivity were associated with complete tumor regression in both neuroendocrine (NEPC) and androgen receptor positive (ARPC) prostate cancer models, even with low B7H3 levels. Non-ARPC models, which are currently lacking efficacious treatment, demonstrated the highest replication stress and were most sensitive to treatment. In RB1 WT ARPC tumors, SLFN11 expression or select DNA repair mutations in SLFN11 nonexpressors governed response. Importantly, WT TP53 predicted nonresponsiveness (7 of 8 models). Overall, biomarker-focused selection of models led to high efficacy of in vivo treatment. These data enable a paradigm shift to biomarker-driven trial designs for maximizing clinical benefit of ADC therapies., Introduction Metastatic prostate cancer (mPC) remains a lethal disease accounting for more than 30,000 deaths annually in the United States (1). The use of androgen deprivation therapy (ADT) and androgen [...]

Published
2023
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22. ONECUT2 is a targetable master regulator of lethal prostate cancer that suppresses the androgen axis

Author

Rotinen, Mirja, You, Sungyong, Yang, Julie, Coetzee, Simon G, Reis-Sobreiro, Mariana, Huang, Wen-Chin, Huang, Fangjin, Pan, Xinlei, Yáñez, Alberto, Hazelett, Dennis J, Chu, Chia-Yi, Steadman, Kenneth, Morrissey, Colm M, Nelson, Peter S, Corey, Eva, Chung, Leland WK, Freedland, Stephen J, Di Vizio, Dolores, Garraway, Isla P, Murali, Ramachandran, Knudsen, Beatrice S, and Freeman, Michael R

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Oncology and Carcinogenesis, Prostate Cancer, Genetics, Biotechnology, Cancer, Urologic Diseases, Adenocarcinoma, Androgens, Animals, Cell Line, Tumor, Disease Progression, Drug Resistance, Neoplasm, Gene Expression Regulation, Neoplastic, Hepatocyte Nuclear Factor 3-alpha, Homeodomain Proteins, Humans, Male, Mice, Neuroendocrine Tumors, Prostatic Neoplasms, Castration-Resistant, Receptors, Androgen, Signal Transduction, Transcription Factors, Xenograft Model Antitumor Assays, Medical and Health Sciences, Immunology, Biomedical and clinical sciences, Health sciences
Abstract

Treatment of prostate cancer (PC) by androgen suppression promotes the emergence of aggressive variants that are androgen receptor (AR) independent. Here we identify the transcription factor ONECUT2 (OC2) as a master regulator of AR networks in metastatic castration-resistant prostate cancer (mCRPC). OC2 acts as a survival factor in mCRPC models, suppresses the AR transcriptional program by direct regulation of AR target genes and the AR licensing factor FOXA1, and activates genes associated with neural differentiation and progression to lethal disease. OC2 appears active in a substantial subset of human prostate adenocarcinoma and neuroendocrine tumors. Inhibition of OC2 by a newly identified small molecule suppresses metastasis in mice. These findings suggest that OC2 displaces AR-dependent growth and survival mechanisms in many cases where AR remains expressed, but where its activity is bypassed. OC2 is also a potential drug target in the metastatic phase of aggressive PC.

Published
2018

24. The NOGO receptor NgR2, a novel αVβ3 integrin effector, induces neuroendocrine differentiation in prostate cancer

Author

Quaglia, Fabio, Krishn, Shiv Ram, Sossey-Alaoui, Khalid, Rana, Priyanka Shailendra, Pluskota, Elzbieta, Park, Pyung Hun, Shields, Christopher D., Lin, Stephen, McCue, Peter, Kossenkov, Andrew V., Wang, Yanqing, Goodrich, David W., Ku, Sheng-Yu, Beltran, Himisha, Kelly, William K., Corey, Eva, Klose, Maja, Bandtlow, Christine, Liu, Qin, Altieri, Dario C., Plow, Edward F., and Languino, Lucia R.

Published
2022
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25. MYC drives aggressive prostate cancer by disrupting transcriptional pause release at androgen receptor targets

Author

Qiu, Xintao, Boufaied, Nadia, Hallal, Tarek, Feit, Avery, de Polo, Anna, Luoma, Adrienne M., Alahmadi, Walaa, Larocque, Janie, Zadra, Giorgia, Xie, Yingtian, Gu, Shengqing, Tang, Qin, Zhang, Yi, Syamala, Sudeepa, Seo, Ji-Heui, Bell, Connor, O’Connor, Edward, Liu, Yang, Schaeffer, Edward M., Jeffrey Karnes, R., Weinmann, Sheila, Davicioni, Elai, Morrissey, Colm, Cejas, Paloma, Ellis, Leigh, Loda, Massimo, Wucherpfennig, Kai W., Pomerantz, Mark M., Spratt, Daniel E., Corey, Eva, Freedman, Matthew L., Shirley Liu, X., Brown, Myles, Long, Henry W., and Labbé, David P.

Published
2022
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26. Reformation of the chondroitin sulfate glycocalyx enables progression of AR-independent prostate cancer

Author

Al-Nakouzi, Nader, Wang, Chris Kedong, Oo, Htoo Zarni, Nelepcu, Irina, Lallous, Nada, Spliid, Charlotte B., Khazamipour, Nastaran, Lo, Joey, Truong, Sarah, Collins, Colin, Hui, Desmond, Esfandnia, Shaghayegh, Adomat, Hans, Clausen, Thomas Mandel, Gustavsson, Tobias, Choudhary, Swati, Dagil, Robert, Corey, Eva, Wang, Yuzhuo, Chauchereau, Anne, Fazli, Ladan, Esko, Jeffrey D., Salanti, Ali, Nelson, Peter S., Gleave, Martin E., and Daugaard, Mads

Published
2022
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27. Systemic surfaceome profiling identifies target antigens for immune-based therapy in subtypes of advanced prostate cancer

Author

Lee, John K, Bangayan, Nathanael J, Chai, Timothy, Smith, Bryan A, Pariva, Tiffany E, Yun, Sangwon, Vashisht, Ajay, Zhang, Qingfu, Park, Jung Wook, Corey, Eva, Huang, Jiaoti, Graeber, Thomas G, Wohlschlegel, James, and Witte, Owen N

Subjects
Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Immunology, Cancer, Immunotherapy, Prostate Cancer, Precision Medicine, Biotechnology, Genetics, Urologic Diseases, 5.1 Pharmaceuticals, 2.1 Biological and endogenous factors, 5.2 Cellular and gene therapies, 4.1 Discovery and preclinical testing of markers and technologies, Antigens, Surface, Carcinoembryonic Antigen, Carcinoma, Neuroendocrine, Cell Differentiation, Cells, Cultured, GPI-Linked Proteins, Gene Expression Regulation, Neoplastic, Humans, Male, Membrane Proteins, Neoplasm Proteins, Prostate, Prostatic Neoplasms, Proteome, T-Lymphocytes, Transcriptome, prostate cancer, cell surface antigens, immunotherapy
Abstract

Prostate cancer is a heterogeneous disease composed of divergent molecular and histologic subtypes, including prostate adenocarcinoma (PrAd) and neuroendocrine prostate cancer (NEPC). While PrAd is the major histology in prostate cancer, NEPC can evolve from PrAd as a mechanism of treatment resistance that involves a transition from an epithelial to a neurosecretory cancer phenotype. Cell surface markers are often associated with specific cell lineages and differentiation states in normal development and cancer. Here, we show that PrAd and NEPC can be broadly discriminated by cell-surface profiles based on the analysis of prostate cancer gene expression datasets. To overcome a dependence on predictions of human cell-surface genes and an assumed correlation between mRNA levels and protein expression, we integrated transcriptomic and cell-surface proteomic data generated from a panel of prostate cancer cell lines to nominate cell-surface markers associated with these cancer subtypes. FXYD3 and CEACAM5 were validated as cell-surface antigens enriched in PrAd and NEPC, respectively. Given the lack of effective treatments for NEPC, CEACAM5 appeared to be a promising target for cell-based immunotherapy. As a proof of concept, engineered chimeric antigen receptor T cells targeting CEACAM5 induced antigen-specific cytotoxicity in NEPC cell lines. Our findings demonstrate that the surfaceomes of PrAd and NEPC reflect unique cancer differentiation states and broadly represent vulnerabilities amenable to therapeutic targeting.

Published
2018

28. BCL2 expression is enriched in androgen receptor-negative advanced prostate cancer

Author

Jimenez-Vacas, Juan M, primary, Westaby, Daniel, additional, Figueiredo, Ines, additional, Rekowski, Jan, additional, Pettinger, Claire, additional, Gurel, Bora, additional, Bogdan, Denisa, additional, Buroni, Lorenzo, additional, Neeb, Antje, additional, Padilha, Ana, additional, Taylor, Joe, additional, Zeng, Wanting, additional, Das, Souvik, additional, Hobern, Emily, additional, Riisnaes, Ruth, additional, Crespo, Mateus, additional, Miranda, Susana, additional, Ferreira, Ana, additional, Hanratty, Brian, additional, Nava, Rodrigues Daniel, additional, Bertan, Claudia, additional, Seed, George, additional, Fenor, de La Maza Maria de Los Dolores, additional, Guo, Christina, additional, Carmichael, Juliet, additional, Grochot, Rafael, additional, Chandran, Khobe, additional, Stavridi, Anastasia, additional, Varkaris, Andreas, additional, Stylianou, Nataly, additional, Hollier, Brett, additional, Tunariu, Nina, additional, Balk, Steven, additional, Carreira, Suzanne, additional, Yuan, Wei, additional, Nelson, Peter, additional, Corey, Eva, additional, Haffner, Michael, additional, de, Bono Johann, additional, and Sharp, Adam, additional

Published
2024
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29. Plexin D1 emerges as a novel target in the development of neural lineage plasticity in treatment-resistant prostate cancer

Author

Liu, Chengfei, primary, Chen, Bo, additional, Xu, Pengfei, additional, Yang, Joy, additional, Nip, Christopher, additional, Wang, Leyi, additional, Shen, Yuqiu, additional, Ning, Shu, additional, Shang, Yufeng, additional, Corey, Eva, additional, Gao, Allen C., additional, Gestwicki, Jason, additional, Wei, Qiang, additional, and Liu, Liangren, additional

Published
2024
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30. BET inhibitors as a therapeutic intervention in gastrointestinal gene signature-positive castration-resistant prostate cancer

Author

Shukla, Shipra, primary, Li, Dan, additional, Nguyen, Holly, additional, Conner, Jennifer, additional, Bayshtok, Gabriella, additional, Cho, Woo Hyun, additional, Pachai, Mohini, additional, Teri, Nicholas, additional, Campeau, Eric, additional, Attwell, Sarah, additional, Trojer, Patrick, additional, Ostrovnaya, Irina, additional, Gopalan, Anuradha, additional, Corey, Eva, additional, Chi, Ping, additional, and Chen, Yu, additional

Published
2024
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31. Supplementary Tables S1-S10 from Noninvasive Detection of Neuroendocrine Prostate Cancer through Targeted Cell-free DNA Methylation

Author

Franceschini, Gian Marco, primary, Quaini, Orsetta, primary, Mizuno, Kei, primary, Orlando, Francesco, primary, Ciani, Yari, primary, Ku, Sheng-Yu, primary, Sigouros, Michael, primary, Rothmann, Emily, primary, Alonso, Alicia, primary, Benelli, Matteo, primary, Nardella, Caterina, primary, Auh, Joonghoon, primary, Freeman, Dory, primary, Hanratty, Brian, primary, Adil, Mohamed, primary, Elemento, Olivier, primary, Tagawa, Scott T., primary, Feng, Felix Y., primary, Caffo, Orazio, primary, Buttigliero, Consuelo, primary, Basso, Umberto, primary, Nelson, Peter S., primary, Corey, Eva, primary, Haffner, Michael C., primary, Attard, Gerhardt, primary, Aparicio, Ana, primary, Demichelis, Francesca, primary, and Beltran, Himisha, primary

Published
2024
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32. Data from Noninvasive Detection of Neuroendocrine Prostate Cancer through Targeted Cell-free DNA Methylation

Author

Franceschini, Gian Marco, primary, Quaini, Orsetta, primary, Mizuno, Kei, primary, Orlando, Francesco, primary, Ciani, Yari, primary, Ku, Sheng-Yu, primary, Sigouros, Michael, primary, Rothmann, Emily, primary, Alonso, Alicia, primary, Benelli, Matteo, primary, Nardella, Caterina, primary, Auh, Joonghoon, primary, Freeman, Dory, primary, Hanratty, Brian, primary, Adil, Mohamed, primary, Elemento, Olivier, primary, Tagawa, Scott T., primary, Feng, Felix Y., primary, Caffo, Orazio, primary, Buttigliero, Consuelo, primary, Basso, Umberto, primary, Nelson, Peter S., primary, Corey, Eva, primary, Haffner, Michael C., primary, Attard, Gerhardt, primary, Aparicio, Ana, primary, Demichelis, Francesca, primary, and Beltran, Himisha, primary

Published
2024
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33. Supplementary Figures S1-S7 from Noninvasive Detection of Neuroendocrine Prostate Cancer through Targeted Cell-free DNA Methylation

Author

Franceschini, Gian Marco, primary, Quaini, Orsetta, primary, Mizuno, Kei, primary, Orlando, Francesco, primary, Ciani, Yari, primary, Ku, Sheng-Yu, primary, Sigouros, Michael, primary, Rothmann, Emily, primary, Alonso, Alicia, primary, Benelli, Matteo, primary, Nardella, Caterina, primary, Auh, Joonghoon, primary, Freeman, Dory, primary, Hanratty, Brian, primary, Adil, Mohamed, primary, Elemento, Olivier, primary, Tagawa, Scott T., primary, Feng, Felix Y., primary, Caffo, Orazio, primary, Buttigliero, Consuelo, primary, Basso, Umberto, primary, Nelson, Peter S., primary, Corey, Eva, primary, Haffner, Michael C., primary, Attard, Gerhardt, primary, Aparicio, Ana, primary, Demichelis, Francesca, primary, and Beltran, Himisha, primary

Published
2024
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34. Androgen Receptor Deregulation Drives Bromodomain-Mediated Chromatin Alterations in Prostate Cancer

Author

Urbanucci, Alfonso, Barfeld, Stefan J, Kytölä, Ville, Itkonen, Harri M, Coleman, Ilsa M, Vodák, Daniel, Sjöblom, Liisa, Sheng, Xia, Tolonen, Teemu, Minner, Sarah, Burdelski, Christoph, Kivinummi, Kati K, Kohvakka, Annika, Kregel, Steven, Takhar, Mandeep, Alshalalfa, Mohammed, Davicioni, Elai, Erho, Nicholas, Lloyd, Paul, Karnes, R Jeffrey, Ross, Ashley E, Schaeffer, Edward M, Griend, Donald J Vander, Knapp, Stefan, Corey, Eva, Feng, Felix Y, Nelson, Peter S, Saatcioglu, Fahri, Knudsen, Karen E, Tammela, Teuvo LJ, Sauter, Guido, Schlomm, Thorsten, Nykter, Matti, Visakorpi, Tapio, and Mills, Ian G

Subjects
Biological Sciences, Urologic Diseases, Prostate Cancer, Aging, Genetics, Cancer, 2.1 Biological and endogenous factors, Aetiology, ATPases Associated with Diverse Cellular Activities, Chromatin, Chromatin Assembly and Disassembly, DNA-Binding Proteins, Gene Expression Regulation, Neoplastic, Humans, Male, Neoplasm Proteins, Prostatic Neoplasms, Castration-Resistant, Protein Serine-Threonine Kinases, Receptors, Androgen, Transcription Factors, ATAD2, BRD2, BRD4, BROMO-10, androgen receptor, bromodomain inhibitor, castration-resistant prostate cancer, chromatin, Biochemistry and Cell Biology, Medical Physiology, Biological sciences
Abstract

Global changes in chromatin accessibility may drive cancer progression by reprogramming transcription factor (TF) binding. In addition, histone acetylation readers such as bromodomain-containing protein 4 (BRD4) have been shown to associate with these TFs and contribute to aggressive cancers including prostate cancer (PC). Here, we show that chromatin accessibility defines castration-resistant prostate cancer (CRPC). We show that the deregulation of androgen receptor (AR) expression is a driver of chromatin relaxation and that AR/androgen-regulated bromodomain-containing proteins (BRDs) mediate this effect. We also report that BRDs are overexpressed in CRPCs and that ATAD2 and BRD2 have prognostic value. Finally, we developed gene stratification signature (BROMO-10) for bromodomain response and PC prognostication, to inform current and future trials with drugs targeting these processes. Our findings provide a compelling rational for combination therapy targeting bromodomains in selected patients in which BRD-mediated TF binding is enhanced or modified as cancer progresses.

Published
2017

37. Imaging and quantification of prostate cancer-associated bone by polarization-sensitive optical coherence tomography

Author

Zhou, Chris, primary, Jung, Naomi, additional, Xu, Samuel, additional, Eltit-Guersetti, Felipe, additional, Lu, Xin, additional, Wang, Qiong, additional, Liang, Doris, additional, Morrissey, Colm, additional, Corey, Eva, additional, True, Lawrence D., additional, Wang, Rizhi, additional, Tang, Shuo, additional, and Cox, Michael E., additional

Published
2024
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38. LSD1 inhibition suppresses ASCL1 and de-represses YAP1 to drive potent activity against neuroendocrine prostate cancer

Author

Mandl, Adel, primary, Jasmine, Sumer, additional, Krueger, Tim E. G., additional, Kumar, Rajendra, additional, Coleman, Ilsa M., additional, Dalrymple, Susan L., additional, Antony, Lizamma, additional, Rosen, D. Marc, additional, Jing, Yuezhou, additional, Hanratty, Brian, additional, Patel, Radhika A., additional, Low, Jin-Yih, additional, Dias, Jennifer, additional, Celatka, Cassandra A., additional, Tapper, Amy E., additional, Kleppe, Maria, additional, Kanayama, Mayuko, additional, Speranzini, Valentina, additional, Wang, Yuzhuo, additional, Luo, Jun, additional, Corey, Eva, additional, Sena, Laura A., additional, Casero, Robert A., additional, Lotan, Tamara, additional, Trock, Bruce J, additional, Kachhap, Sushant K., additional, Denmeade, Samuel R., additional, Carducci, Michael A., additional, Mattevi, Andrea, additional, Haffner, Michael C., additional, Nelson, Peter S., additional, Rienhoff, Hugh HY, additional, Isaacs, John T., additional, and Brennen, W. Nathaniel, additional

Published
2024
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39. Dual targeting of the androgen receptor and PI3K/AKT/mTOR pathways in prostate cancer models improves antitumor efficacy and promotes cell apoptosis

Author

Sugawara, Tatsuo, primary, Nevedomskaya, Ekaterina, additional, Heller, Simon, additional, Böhme, Annika, additional, Lesche, Ralf, additional, von Ahsen, Oliver, additional, Grünewald, Sylvia, additional, Nguyen, Holly M., additional, Corey, Eva, additional, Baumgart, Simon J., additional, Georgi, Victoria, additional, Pütter, Vera, additional, Fernández‐Montalván, Amaury, additional, Vasta, James D., additional, Robers, Matthew B., additional, Politz, Oliver, additional, Mumberg, Dominik, additional, and Haendler, Bernard, additional

Published
2024
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40. Assessment of Cell Surface Targets in Metastatic Prostate Cancer: Expression Landscape and Molecular Correlates

Author

Haffner, Michael, primary, Ajkunic, Azra, additional, Sayar, Erolcan, additional, Roudier, Martine, additional, Patel, Radhika, additional, Coleman, Ilsa, additional, Sarkar, Navonil, additional, Hanratty, Brian, additional, Adil, Mohamed, additional, Zhao, Jimmy, additional, Zaidi, Samir, additional, True, Larry, additional, Sperger, Jamie, additional, Cheng, Heather, additional, Yu, Evan, additional, Montgomery, Robert, additional, Hawley, Jessica, additional, Ha, Gavin, additional, Lee, John, additional, Harmon, Stephanie, additional, Corey, Eva, additional, Lang, Joshua, additional, Sawyers, Charles, additional, Morrissey, Colm, additional, Schweizer, Michael, additional, Gulati, Roman, additional, and Nelson, Peter, additional

Published
2023
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42. Subtype heterogeneity and epigenetic convergence in neuroendocrine prostate cancer

Author

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

Published
2021
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45. Dynamic prostate cancer transcriptome analysis delineates the trajectory to disease progression

Author

Bolis, Marco, Bossi, Daniela, Vallerga, Arianna, Ceserani, Valentina, Cavalli, Manuela, Impellizzieri, Daniela, Di Rito, Laura, Zoni, Eugenio, Mosole, Simone, Elia, Angela Rita, Rinaldi, Andrea, Pereira Mestre, Ricardo, D’Antonio, Eugenia, Ferrari, Matteo, Stoffel, Flavio, Jermini, Fernando, Gillessen, Silke, Bubendorf, Lukas, Schraml, Peter, Calcinotto, Arianna, Corey, Eva, Moch, Holger, Spahn, Martin, Thalmann, George, Kruithof-de Julio, Marianna, Rubin, Mark A., and Theurillat, Jean-Philippe P.

Published
2021
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47. Taxane resistance in prostate cancer is mediated by decreased drug-target engagement

Author

Gjyrezi, Ada, Xie, Fang, Voznesensky, Olga, Khanna, Prateek, Calagua, Carla, Bai, Yang, Kung, Justin, Wu, Jim, Corey, Eva, Montgomery, Bruce, Mace, Sandrine, Gianolio, Diego A., Bubley, Glenn J., Balk, Steven P., Giannakakou, Paraskevi, and Bhatt, Rupal S.

Subjects
Sanofi S.A., Cabazitaxel, Tubulin, Enzalutamide, Abiraterone, Medical research, Prostate cancer -- Drug therapy, Pharmaceutical industry, Cancer metastasis -- Drug therapy, Health care industry, Beth Israel Deaconess Medical Center
Abstract

Despite widespread use of taxanes, mechanisms of action and resistance in vivo remain to be established, and there is no way of predicting who will respond to therapy. This study examined prostate cancer (PCa) xenografts and patient samples to identify in vivo mechanisms of taxane action and resistance. Docetaxel drug- target engagement was assessed by confocal anti-tubulin immunofluorescence to quantify microtubule bundling in interphase cells and aberrant mitoses. Tumor biopsies from metastatic PCa patients obtained 2 to 5 days after their first dose of docetaxel or cabazitaxel were processed to assess microtubule bundling, which correlated with clinical response. Microtubule bundling was evident in PCa xenografts 2 to 3 days after docetaxel treatment but was decreased or lost with acquired resistance. Biopsies after treatment with leuprolide plus docetaxel showed extensive microtubule bundling as did biopsies obtained 2 to 3 days after initiation of docetaxel or cabazitaxel in 2 patients with castration-resistant PCa with clinical responses. In contrast, microtubule bundling in biopsies 2 to 3 days after the first dose of docetaxel was markedly lower in 4 nonresponding patients. These findings indicate that taxanes target both mitotic and interphase cells in vivo and that resistance is through mechanisms that impair drug-target engagement. Moreover, the findings suggest that microtubule bundling after initial taxane treatment may be a predictive biomarker for clinical response., Introduction Taxanes are the only line of chemotherapy shown to prolong survival in men with metastatic castration-resistant prostate cancer (CRPC) who have progressed after standard androgen deprivation therapy (ADT, surgical [...]

Published
2020
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