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580 results on '"Kunju, Lakshmi P."'

1. Reply to “Contextualizing racial associations in prostate cancer to expose structural causes”

Author

Karan, Dev, Wick, Jo, Dubey, Seema, Kumar-Sinha, Chandan, Siddiqui, Javed, Kunju, Lakshmi P, Iczkowski, Kenneth A, and Chinnaiyan, Arul M

Subjects
Biomedical and Clinical Sciences, Health Sciences, Public Health, Oncology and Carcinogenesis, Humans, Male, Prostatic Neoplasms, Racial Groups, Causality, Public Health and Health Services, Oncology & Carcinogenesis, Oncology and carcinogenesis, Public health
Published
2024

2. Diagnostic Approach to and Differential Diagnosis of Clear Cell and Glandular Lesions of the Lower Urinary Tract

Author

Abdulfatah, Eman and Kunju, Lakshmi P.

Subjects
Tumors -- Diagnosis -- Care and treatment, Metastasis -- Risk factors -- Prevention, Urinary tract cancer -- Diagnosis -- Care and treatment, Health
Abstract

* Context.--A variety of glandular and clear cell lesions may be seen in the urinary bladder and/or urethra, ranging from benign to malignant primary and secondary tumors. Lesions with no malignant potential include reactive processes, such as nephrogenic metaplasiaa, and may show similar morphologic features as an infiltrative neoplasm, particularly in small biopsies. Similarly, ectopic tissues of Mullerian origin may be seen in the lower urinary tract, and their distinction from a true glandular neoplasm is essential to avoid overtreatment. A wide variety of primary and secondary malignant tumors exist with varying degrees of glandular and clear cell features. Therefore, surgical pathologists must be aware of the full scope of possible lesions to avoid misdiagnosis. Objective.--To provide a practical framework for approaching the diagnosis of clear cell and glandular lesions of the urinary bladder/urethra and prostate, highlighting the strengths and limitations of various diagnostic features and ancillary tests. Data Sources.--A review of the current literature was performed to obtain data regarding up-to-date diagnostic features and ancillary studies. Conclusions.--In summary, distinct morphologic and immunohistochemical features and clinical and radiologic correlation are essential to establish an accurate diagnosis when such cases with glandular and clear features are encountered in the lower urinary tract. (Arch Pathol Lab Med. 2024;148:642-648; doi: 10.5858/arpa.2023-0059-RA, The differential diagnosis of clear cell and glandular lesions of the urinary bladder/urethra is broad and includes both primary lesions/tumors that arise in the urinary bladder and/or urethra and those [...]

Published
2024
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4. Serial Molecular Profiling of Low-grade Prostate Cancer to Assess Tumor Upgrading: A Longitudinal Cohort Study.

Author

Salami, Simpa, Tosoian, Jeffrey, Nallandhighal, Srinivas, Jones, Tonye, Brockman, Scott, Elkhoury, Fuad, Bazzi, Selena, Plouffe, Komal, Siddiqui, Javed, Liu, Chia-Jen, Kunju, Lakshmi, Morgan, Todd, Natarajan, Shyam, Boonstra, Philip, Sumida, Lauren, Tomlins, Scott, Udager, Aaron, Sisk, Anthony, Marks, Leonard, and Palapattu, Ganesh

Subjects
Cancer progression, Gene fusions, Immunohistochemistry, Low-grade cancer, Next-generation sequencing, Prostate cancer, Tumor clonality, Cohort Studies, Humans, Image-Guided Biopsy, Longitudinal Studies, Male, Middle Aged, Neoplasm Grading, Prostate, Prostatic Neoplasms
Abstract

BACKGROUND: The potential for low-grade (grade group 1 [GG1]) prostate cancer (PCa) to progress to high-grade disease remains unclear. OBJECTIVE: To interrogate the molecular and biological features of low-grade PCa serially over time. DESIGN, SETTING, AND PARTICIPANTS: Nested longitudinal cohort study in an academic active surveillance (AS) program. Men were on AS for GG1 PCa from 2012 to 2017. INTERVENTION: Electronic tracking and resampling of PCa using magnetic resonance imaging/ultrasound fusion biopsy. OUTCOME MEASUREMENTS AND STATISTICAL ANALYSIS: ERG immunohistochemistry (IHC) and targeted DNA/RNA next-generation sequencing were performed on initial and repeat biopsies. Tumor clonality was assessed. Molecular data were compared between men who upgraded and those who did not upgrade to GG ≥ 2 cancer. RESULTS AND LIMITATIONS: Sixty-six men with median age 64 yr (interquartile range [IQR], 59-69) and prostate-specific antigen 4.9 ng/mL (IQR, 3.3-6.4) underwent repeat sampling of a tracked tumor focus (median interval, 11 mo; IQR, 6-13). IHC-based ERG fusion status was concordant at initial and repeat biopsies in 63 men (95% vs expected 50%, p

Published
2021

6. Ensuring remote diagnostics for pathologists: an open letter to the US Congress

Author

Lennerz, Jochen K., Pantanowitz, Liron, Amin, Mitual B., Eltoum, Isam-Eldin, Hameed, Meera R., Kalof, Alexana N., Khanafshar, Elham, Kunju, Lakshmi P., Lazenby, Audrey J., Montone, Kathleen T., Otis, Christopher N., Reid, Michelle D., Staats, Paul N., Whitney-Miller, Christa L., Abendroth, Catherine S., Aron, Manju, Birdsong, George G., Bleiweiss, Ira J., Bronner, Mary P., Chapman, Jennifer, Cipriani, Nicole A., de la Roza, Gustavo, Esposito, Michael J., Fadare, Oluwole, Ferrer, Karen, Fletcher, Christopher D., Frishberg, David P., Garcia, Fernando U., Geldenhuys, Laurette, Gill, Ryan M., Gui, Dorina, Halat, Shams, Hameed, Omar, Hornick, Jason L., Huber, Aaron R., Jain, Dhanpat, Jhala, Nirag, Jorda, Merce, Jorns, Julie M., Kaplan, Jeffrey, Khalifa, Mahmoud A., Khan, Ashraf, Kim, Grace E., Lee, Eun Y., LiVolsi, Virginia A., Longacre, Teri, Magi-Galluzzi, Cristina, McCall, Shannon J., McPhaul, Laron, Mehta, Vikas, Merzianu, Mihai, Miller, Stacey B., Molberg, Kyle H., Moreira, Andre L., Naini, Bita V., Nosé, Vania, O’Toole, Kathleen, Picken, Maria, Prieto, Victor G., Pullman, James M., Quick, Charles M., Reynolds, Jordan P., Rosenberg, Andrew E., Schnitt, Stuart J., Schwartz, Mary R., Sekosan, Marin, Smith, Michael T., Sohani, Aliyah, Stowman, Anne, Vanguri, Vijay K., Wang, Beverly, Watts, John C., Wei, Shi, Whitney, Kathleen, Younes, Mamoun, Zee, Sui, and Bracamonte, Erika R.

Published
2022
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7. Expanding the clinicopathological spectrum of succinate dehydrogenase-deficient renal cell carcinoma with a focus on variant morphologies: a study of 62 new tumors in 59 patients

Author

Fuchs, Talia L., Maclean, Fiona, Turchini, John, Vargas, A. Cristina, Bhattarai, Selina, Agaimy, Abbas, Hartmann, Arndt, Kao, Chia-Sui, Ellis, Carla, Bonert, Michael, Leroy, Xavier, Kunju, Lakshmi P., Schwartz, Lauren, Matsika, Admire, Williamson, Sean R., Rao, Priya, Divatia, Mukul, Guarch, Rosa, Algaba, Ferran, Balancin, Marcelo L., Zhou, Ming, Samaratunga, Hemamali, da Cunha, Isabela Werneck, Brimo, Fadi, Ryan, Andrew, Clouston, David, Aron, Manju, O’Donnell, Marie, Chan, Emily, Hirsch, Michelle S., Moch, Holger, Pang, Chun-Yin, Wah, Cheuk, Yin, Weihua, Perry-Keene, Joanna, Yilmaz, Asli, Chou, Angela, Clarkson, Adele, van der Westhuizen, Gerhard, Morrison, Ella, Zwi, Jonathan, Hes, Ondrej, Trpkov, Kiril, and Gill, Anthony J.

Published
2022
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8. Urinary MyProstateScore (MPS) to Rule out Clinically-Significant Cancer in Men with Equivocal (PI-RADS 3) Multiparametric MRI: Addressing an Unmet Clinical Need

Author

Tosoian, Jeffrey J., Singhal, Udit, Davenport, Matthew S., Wei, John T., Montgomery, Jeffrey S., George, Arvin K., Salami, Simpa S., Mukundi, Stanley G., Siddiqui, Javed, Kunju, Lakshmi P., Tooke, Benjamin P., Ryder, C. Yoonhee, Dugan, Sarah P., Chopra, Zoey, Botbyl, Rachel, Feng, Yilin, Sessine, Michael S., Eyrich, Nicholas W., Ross, Ashley E., Trock, Bruce J., Tomlins, Scott A., Palapattu, Ganesh S., Chinnaiyan, Arul M., Niknafs, Yashar S., and Morgan, Todd M.

Published
2022
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9. Analysis of the androgen receptor–regulated lncRNA landscape identifies a role for ARLNC1 in prostate cancer progression

Author

Zhang, Yajia, Pitchiaya, Sethuramasundaram, Cieślik, Marcin, Niknafs, Yashar S, Tien, Jean C-Y, Hosono, Yasuyuki, Iyer, Matthew K, Yazdani, Sahr, Subramaniam, Shruthi, Shukla, Sudhanshu K, Jiang, Xia, Wang, Lisha, Liu, Tzu-Ying, Uhl, Michael, Gawronski, Alexander R, Qiao, Yuanyuan, Xiao, Lanbo, Dhanasekaran, Saravana M, Juckette, Kristin M, Kunju, Lakshmi P, Cao, Xuhong, Patel, Utsav, Batish, Mona, Shukla, Girish C, Paulsen, Michelle T, Ljungman, Mats, Jiang, Hui, Mehra, Rohit, Backofen, Rolf, Sahinalp, Cenk S, Freier, Susan M, Watt, Andrew T, Guo, Shuling, Wei, John T, Feng, Felix Y, Malik, Rohit, and Chinnaiyan, Arul M

Subjects
Biochemistry and Cell Biology, Biological Sciences, Cancer, Prostate Cancer, Genetics, Aging, Urologic Diseases, Aetiology, 2.1 Biological and endogenous factors, Androgens, Cell Line, Tumor, Disease Progression, Gene Expression Regulation, Neoplastic, Humans, Male, Prostate, Prostatic Neoplasms, RNA, Long Noncoding, Receptors, Androgen, Signal Transduction, Medical and Health Sciences, Developmental Biology, Agricultural biotechnology, Bioinformatics and computational biology
Abstract

The androgen receptor (AR) plays a critical role in the development of the normal prostate as well as prostate cancer. Using an integrative transcriptomic analysis of prostate cancer cell lines and tissues, we identified ARLNC1 (AR-regulated long noncoding RNA 1) as an important long noncoding RNA that is strongly associated with AR signaling in prostate cancer progression. Not only was ARLNC1 induced by the AR protein, but ARLNC1 stabilized the AR transcript via RNA-RNA interaction. ARLNC1 knockdown suppressed AR expression, global AR signaling and prostate cancer growth in vitro and in vivo. Taken together, these data support a role for ARLNC1 in maintaining a positive feedback loop that potentiates AR signaling during prostate cancer progression and identify ARLNC1 as a novel therapeutic target.

Published
2018

10. Inactivation of CDK12 Delineates a Distinct Immunogenic Class of Advanced Prostate Cancer

Author

Wu, Yi-Mi, Cieślik, Marcin, Lonigro, Robert J, Vats, Pankaj, Reimers, Melissa A, Cao, Xuhong, Ning, Yu, Wang, Lisha, Kunju, Lakshmi P, de Sarkar, Navonil, Heath, Elisabeth I, Chou, Jonathan, Feng, Felix Y, Nelson, Peter S, de Bono, Johann S, Zou, Weiping, Montgomery, Bruce, Alva, Ajjai, Team, PCF SU2C International Prostate Cancer Dream, Robinson, Dan R, and Chinnaiyan, Arul M

Subjects
Biological Sciences, Bioinformatics and Computational Biology, Biomedical and Clinical Sciences, Clinical Sciences, Immunology, Oncology and Carcinogenesis, Urologic Diseases, Biotechnology, Cancer, Genetics, Prostate Cancer, Aetiology, 2.1 Biological and endogenous factors, Good Health and Well Being, Antibodies, Monoclonal, Cell Line, Tumor, Chemokine CCL21, Cyclin-Dependent Kinases, DNA Repair, Gene Expression Regulation, Neoplastic, Genomic Instability, Humans, Male, Mutation, Missense, Neoplasm Staging, Nuclear Proteins, Phenotype, Programmed Cell Death 1 Receptor, Prostate, Prostatic Neoplasms, RNA Interference, RNA, Small Interfering, Repressor Proteins, T-Lymphocytes, Tomography, X-Ray Computed, PCF/SU2C International Prostate Cancer Dream Team, CDK12, focal tandem duplications, gene fusions, immunotherapy, metastatic castration-resistant prostate cancer, neoantigens, Medical and Health Sciences, Developmental Biology, Biological sciences, Biomedical and clinical sciences
Abstract

Using integrative genomic analysis of 360 metastatic castration-resistant prostate cancer (mCRPC) samples, we identified a novel subtype of prostate cancer typified by biallelic loss of CDK12 that is mutually exclusive with tumors driven by DNA repair deficiency, ETS fusions, and SPOP mutations. CDK12 loss is enriched in mCRPC relative to clinically localized disease and characterized by focal tandem duplications (FTDs) that lead to increased gene fusions and marked differential gene expression. FTDs associated with CDK12 loss result in highly recurrent gains at loci of genes involved in the cell cycle and DNA replication. CDK12 mutant cases are baseline diploid and do not exhibit DNA mutational signatures linked to defects in homologous recombination. CDK12 mutant cases are associated with elevated neoantigen burden ensuing from fusion-induced chimeric open reading frames and increased tumor T cell infiltration/clonal expansion. CDK12 inactivation thereby defines a distinct class of mCRPC that may benefit from immune checkpoint immunotherapy.

Published
2018

11. Targeting Androgen Receptor and DNA Repair in Metastatic Castration-Resistant Prostate Cancer: Results From NCI 9012

Author

Hussain, Maha, Daignault-Newton, Stephanie, Twardowski, Przemyslaw W, Albany, Costantine, Stein, Mark N, Kunju, Lakshmi P, Siddiqui, Javed, Wu, Yi-Mi, Robinson, Dan, Lonigro, Robert J, Cao, Xuhong, Tomlins, Scott A, Mehra, Rohit, Cooney, Kathleen A, Montgomery, Bruce, Antonarakis, Emmanuel S, Shevrin, Daniel H, Corn, Paul G, Whang, Young E, Smith, David C, Caram, Megan V, Knudsen, Karen E, Stadler, Walter M, Feng, Felix Y, and Chinnaiyan, Arul M

Subjects
Genetics, Prostate Cancer, Cancer, Urologic Diseases, Aged, Aged, 80 and over, Androstenes, Antineoplastic Combined Chemotherapy Protocols, Benzimidazoles, Biomarkers, Tumor, DNA Repair, Humans, Male, Middle Aged, Molecular Targeted Therapy, Neoplasm Metastasis, Poly(ADP-ribose) Polymerase Inhibitors, Prednisone, Prostatic Neoplasms, Castration-Resistant, Proto-Oncogene Proteins c-ets, Receptors, Androgen, Clinical Sciences, Oncology and Carcinogenesis, Oncology & Carcinogenesis
Abstract

Purpose To determine whether cotargeting poly (ADP-ribose) polymerase-1 plus androgen receptor is superior to androgen receptor inhibition in metastatic castration-resistant prostate cancer (mCRPC) and whether ETS fusions predict response. Patients and Methods Patients underwent metastatic site biopsy and were stratified by ETS status and randomly assigned to abiraterone plus prednisone without (arm A) or with veliparib (arm B). Primary objectives were: confirmed prostate-specific antigen (PSA) response rate (RR) and whether ETS fusions predicted response. Secondary objectives were: safety, measurable disease RR (mRR), progression-free survival (PFS), and molecular biomarker analysis. A total of 148 patients were randomly assigned to detect a 20% PSA RR improvement. Results A total of 148 patients with mCRPC were randomly assigned: arm A, n = 72; arm B, n = 76. There were no differences in PSA RR (63.9% v 72.4%; P = .27), mRR (45.0% v 52.2%; P = .51), or median PFS (10.1 v 11 months; P = .99). ETS fusions did not predict response. Exploratory analysis of tumor sequencing (80 patients) revealed: 41 patients (51%) were ETS positive, 20 (25%) had DNA-damage repair defect (DRD), 41 (51%) had AR amplification or copy gain, 34 (43%) had PTEN mutation, 33 (41%) had TP53 mutation, 39 (49%) had PIK3CA pathway activation, and 12 (15%) had WNT pathway alteration. Patients with DRD had significantly higher PSA RR (90% v 56.7%; P = .007) and mRR (87.5% v 38.6%; P = .001), PSA decline ≥ 90% (75% v 25%; P = .001), and longer median PFS (14.5 v 8.1 months; P = .025) versus those with wild-type tumors. Median PFS was longer in patients with normal PTEN (13.5 v 6.7 months; P = .02), TP53 (13.5 v 7.7 months; P = .01), and PIK3CA (13.8 v 8.3 months; P = .03) versus those with mutation or activation. In multivariable analysis adjusting for clinical covariates, DRD association with PFS remained significant. Conclusion Veliparib and ETS status did not affect response. Exploratory analysis identified a novel DRD association with mCRPC outcomes.

Published
2018

12. Association of Urinary MyProstateScore, Age, and Prostate Volume in a Longitudinal Cohort of Healthy Men: Long-term Findings from the Olmsted County Study

Author

Tosoian, Jeffrey J., Dunn, Rodney L., Niknafs, Yashar S., Saha, Anjan, Vince, Randy A., Jr, St. Sauver, Jennifer L., Jacobson, Debra J., McGree, Michaela E., Siddiqui, Javed, Groskopf, Jack, Jacobsen, Steven J., Tomlins, Scott A., Kunju, Lakshmi P., Morgan, Todd M., Salami, Simpa S., Wei, John T., Chinnaiyan, Arul M., and Sarma, Aruna V.

Published
2021
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13. CD38 in Advanced Prostate Cancers

Author

Robinson, Dan, Van Allen, Eliezer M., Wu, Yi-Mi, Schultz, Nikolaus, Lonigro, Robert J., Mosquera, Juan-Miguel, Montgomery, Bruce, Taplin, Mary-Ellen, Pritchard, Colin C., Attard, Gerhardt, Beltran, Himisha, Abida, Wassim, Bradley, Robert K., Vinson, Jake, Cao, Xuhong, Vats, Pankaj, Kunju, Lakshmi P., Hussain, Maha, Tomlins, Scott A., Cooney, Kathleen A., Smith, David C., Brennan, Christine, Siddiqui, Javed, Mehra, Rohit, Chen, Yu, Rathkopf, Dana E., Morris, Michael J., Solomon, Stephen B., Durack, Jeremy C., Reuter, Victor E., Gopalan, Anuradha, Gao, Jianjiong, Loda, Massimo, Lis, Rosina T., Bowden, Michaela, Balk, Stephen P., Gaviola, Glenn, Sougnez, Carrie, Gupta, Manaswi, Yu, Evan Y., Mostaghel, Elahe A., Cheng, Heather H., Mulcahy, Hyojeong, True, Lawrence D., Plymate, Stephen R., Dvinge, Heidi, Ferraldeschi, Roberta, Flohr, Penny, Miranda, Susana, Zafeiriou, Zafeiris, Tunariu, Nina, Mateo, Joaquin, Perez-Lopez, Raquel, Demichelis, Francesca, Robinson, Brian D., Schiffman, Marc, Nanus, David M., Tagawa, Scott T., Sigaras, Alexandros, Eng, Kenneth W., Elemento, Olivier, Sboner, Andrea, Heath, Elisabeth I., Scher, Howard I., Pienta, Kenneth J., Kantoff, Philip, de Bono, Johann S., Rubin, Mark A., Nelson, Peter S., Garraway, Levi A., Sawyers, Charles L., Chinnaiyan, Arul M., Guo, Christina, Crespo, Mateus, Gurel, Bora, Dolling, David, Rekowski, Jan, Sharp, Adam, Petremolo, Antonella, Sumanasuriya, Semini, Rodrigues, Daniel N., Ferreira, Ana, Pereira, Rita, Figueiredo, Ines, Mehra, Niven, Lambros, Maryou B.K., Neeb, Antje, Gil, Veronica, Seed, George, Terstappen, Leon, Alimonti, Andrea, Drake, Charles G., and Yuan, Wei

Published
2021
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14. Molecular Profiling to Determine Clonality of Serial Magnetic Resonance Imaging/Ultrasound Fusion Biopsies from Men on Active Surveillance for Low-Risk Prostate Cancer

Author

Palapattu, Ganesh S, Salami, Simpa S, Cani, Andi K, Hovelson, Daniel H, de la Vega, Lorena Lazo, Vandenberg, Kelly R, Bratley, Jarred V, Liu, Chia-Jen, Kunju, Lakshmi P, Montgomery, Jeffery S, Morgan, Todd M, Natarajan, Shyam, Huang, Jiaoti, Tomlins, Scott A, and Marks, Leonard S

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Oncology and Carcinogenesis, Genetics, Prostate Cancer, Urologic Diseases, Clinical Research, Cancer, Biomedical Imaging, Aging, Biotechnology, Aetiology, Detection, screening and diagnosis, 2.1 Biological and endogenous factors, 4.1 Discovery and preclinical testing of markers and technologies, Good Health and Well Being, Aged, Biopsy, Clonal Evolution, High-Throughput Nucleotide Sequencing, Humans, Magnetic Resonance Imaging, Male, Middle Aged, Mutation, Neoplasm Grading, Neoplasm Proteins, Prostatic Neoplasms, Ultrasonography, Oncology & Carcinogenesis, Clinical sciences, Oncology and carcinogenesis
Abstract

Purpose: To determine whether MRI/ultrasound (MRI/US) fusion biopsy facilitates longitudinal resampling of the same clonal focus of prostate cancer and to determine whether high-grade cancers can evolve from low-grade clones.Experimental Design: All men on active surveillance who underwent tracking MRI/US fusion biopsy of Gleason 6 prostate cancer, on at least two distinct occasions, between 2012 and 2014 were enrolled. MRI/US fusion was used to track and resample specific cancer foci. IHC for ERG and targeted RNA/DNA next-generation sequencing (NGS) were performed on formalin-fixed paraffin-embedded prostate biopsy specimens to assess clonality.Results: Thirty-one men with median age and PSA of 65 years and 4.6 ng/mL, respectively, were analyzed. The median sampling interval was 12 months (range, 5-35). Of the 26 evaluable men, ERG IHC concordance was found between initial and repeat biopsies in 25 (96%), indicating resampling of the same clonal focus over time. Targeted NGS supported ERG IHC results and identified unique and shared driving mutations, such as IDH1 and SPOP, in paired specimens. Of the nine men (34.6%) who were found to have Gleason ≥7 on repeat biopsy, all displayed temporal ERG concordance. Prioritized genetic alterations were detected in 50% (13/26) of paired samples. Oncogenic mutations were detected in 22% (2/9) of Gleason 6 cancers prior to progression and 44% (4/9) of Gleason ≥7 cancers when progression occurred.Conclusions: Precise tracking of prostate cancer foci via MRI/US fusion biopsy allowed subsequent resampling of the same clonal focus of cancer over time. Further research is needed to clarify the grade progression potential of Gleason 6 prostate cancer. Clin Cancer Res; 23(4); 985-91. ©2016 AACR.

Published
2017

15. Genomic correlates of clinical outcome in advanced prostate cancer

Author

Abida, Wassim, Cyrta, Joanna, Heller, Glenn, Prandi, Davide, Armenia, Joshua, Coleman, Ilsa, Cieslik, Marcin, Benelli, Matteo, Robinson, Dan, Van Allen, Eliezer M., Sboner, Andrea, Fedrizzi, Tarcisio, Mosquera, Juan Miguel, Robinson, Brian D., De Sarkar, Navonil, Kunju, Lakshmi P., Tomlins, Scott, Wu, Yi Mi, Rodrigues, Daniel Nava, Loda, Massimo, Gopalan, Anuradha, Reuter, Victor E., Pritchard, Colin C., Mateo, Joaquin, Bianchini, Diletta, Miranda, Susana, Carreira, Suzanne, Rescigno, Pasquale, Filipenko, Julie, Vinson, Jacob, Montgomery, Robert B., Beltran, Himisha, Heath, Elisabeth I., Scher, Howard I., Kantoff, Philip W., Taplin, Mary-Ellen, Schultz, Nikolaus, deBono, Johann S., Demichelis, Francesca, Nelson, Peter S., Rubin, Mark A., Chinnaiyan, Arul M., and Sawyers, Charles L.

Published
2019

16. DNA-Repair Defects and Olaparib in Metastatic Prostate Cancer

Author

Mateo, Joaquin, Carreira, Suzanne, Sandhu, Shahneen, Miranda, Susana, Mossop, Helen, Perez-Lopez, Raquel, Nava Rodrigues, Daniel, Robinson, Dan, Omlin, Aurelius, Tunariu, Nina, Boysen, Gunther, Porta, Nuria, Flohr, Penny, Gillman, Alexa, Figueiredo, Ines, Paulding, Claire, Seed, George, Jain, Suneil, Ralph, Christy, Protheroe, Andrew, Hussain, Syed, Jones, Robert, Elliott, Tony, McGovern, Ursula, Bianchini, Diletta, Goodall, Jane, Zafeiriou, Zafeiris, Williamson, Chris T, Ferraldeschi, Roberta, Riisnaes, Ruth, Ebbs, Bernardette, Fowler, Gemma, Roda, Desamparados, Yuan, Wei, Wu, Yi-Mi, Cao, Xuhong, Brough, Rachel, Pemberton, Helen, A'Hern, Roger, Swain, Amanda, Kunju, Lakshmi P, Eeles, Rosalind, Attard, Gerhardt, Lord, Christopher J, Ashworth, Alan, Rubin, Mark A, Knudsen, Karen E, Feng, Felix Y, Chinnaiyan, Arul M, Hall, Emma, and de Bono, Johann S

Subjects
Genetics, Urologic Diseases, Human Genome, Prostate Cancer, Cancer, Clinical Research, 6.1 Pharmaceuticals, 6.2 Cellular and gene therapies, Evaluation of treatments and therapeutic interventions, 4.1 Discovery and preclinical testing of markers and technologies, Detection, screening and diagnosis, Adult, Aged, Anemia, Antineoplastic Agents, Ataxia Telangiectasia Mutated Proteins, DNA Repair, Drug Resistance, Neoplasm, Enzyme Inhibitors, Fatigue, Genes, BRCA2, Genes, Tumor Suppressor, Humans, Male, Middle Aged, Mutation, Neoplasm Metastasis, Phthalazines, Piperazines, Poly(ADP-ribose) Polymerase Inhibitors, Prostatic Neoplasms, Medical and Health Sciences, General & Internal Medicine
Abstract

BackgroundProstate cancer is a heterogeneous disease, but current treatments are not based on molecular stratification. We hypothesized that metastatic, castration-resistant prostate cancers with DNA-repair defects would respond to poly(adenosine diphosphate [ADP]-ribose) polymerase (PARP) inhibition with olaparib.MethodsWe conducted a phase 2 trial in which patients with metastatic, castration-resistant prostate cancer were treated with olaparib tablets at a dose of 400 mg twice a day. The primary end point was the response rate, defined either as an objective response according to Response Evaluation Criteria in Solid Tumors, version 1.1, or as a reduction of at least 50% in the prostate-specific antigen level or a confirmed reduction in the circulating tumor-cell count from 5 or more cells per 7.5 ml of blood to less than 5 cells per 7.5 ml. Targeted next-generation sequencing, exome and transcriptome analysis, and digital polymerase-chain-reaction testing were performed on samples from mandated tumor biopsies.ResultsOverall, 50 patients were enrolled; all had received prior treatment with docetaxel, 49 (98%) had received abiraterone or enzalutamide, and 29 (58%) had received cabazitaxel. Sixteen of 49 patients who could be evaluated had a response (33%; 95% confidence interval, 20 to 48), with 12 patients receiving the study treatment for more than 6 months. Next-generation sequencing identified homozygous deletions, deleterious mutations, or both in DNA-repair genes--including BRCA1/2, ATM, Fanconi's anemia genes, and CHEK2--in 16 of 49 patients who could be evaluated (33%). Of these 16 patients, 14 (88%) had a response to olaparib, including all 7 patients with BRCA2 loss (4 with biallelic somatic loss, and 3 with germline mutations) and 4 of 5 with ATM aberrations. The specificity of the biomarker suite was 94%. Anemia (in 10 of the 50 patients [20%]) and fatigue (in 6 [12%]) were the most common grade 3 or 4 adverse events, findings that are consistent with previous studies of olaparib.ConclusionsTreatment with the PARP inhibitor olaparib in patients whose prostate cancers were no longer responding to standard treatments and who had defects in DNA-repair genes led to a high response rate. (Funded by Cancer Research UK and others; ClinicalTrials.gov number, NCT01682772; Cancer Research UK number, CRUK/11/029.).

Published
2015

20. The long noncoding RNA SChLAP1 promotes aggressive prostate cancer and antagonizes the SWI/SNF complex

Author

Prensner, John R, Iyer, Matthew K, Sahu, Anirban, Asangani, Irfan A, Cao, Qi, Patel, Lalit, Vergara, Ismael A, Davicioni, Elai, Erho, Nicholas, Ghadessi, Mercedeh, Jenkins, Robert B, Triche, Timothy J, Malik, Rohit, Bedenis, Rachel, McGregor, Natalie, Ma, Teng, Chen, Wei, Han, Sumin, Jing, Xiaojun, Cao, Xuhong, Wang, Xiaoju, Chandler, Benjamin, Yan, Wei, Siddiqui, Javed, Kunju, Lakshmi P, Dhanasekaran, Saravana M, Pienta, Kenneth J, Feng, Felix Y, and Chinnaiyan, Arul M

Subjects
Agricultural, Veterinary and Food Sciences, Biological Sciences, Bioinformatics and Computational Biology, Genetics, Agricultural Biotechnology, Prostate Cancer, Urologic Diseases, Aging, Cancer, Animals, Cell Line, Tumor, Cell Proliferation, Chromosomal Proteins, Non-Histone, DNA-Binding Proteins, Female, Gene Expression Profiling, Humans, Male, Mice, Molecular Sequence Data, Neoplasm Invasiveness, Neoplasm Metastasis, Promoter Regions, Genetic, Prostatic Neoplasms, RNA Interference, RNA, Long Noncoding, RNA, Small Interfering, SMARCB1 Protein, Transcription Factors, Medical and Health Sciences, Developmental Biology, Agricultural biotechnology, Bioinformatics and computational biology
Abstract

Prostate cancers remain indolent in the majority of individuals but behave aggressively in a minority. The molecular basis for this clinical heterogeneity remains incompletely understood. Here we characterize a long noncoding RNA termed SChLAP1 (second chromosome locus associated with prostate-1; also called LINC00913) that is overexpressed in a subset of prostate cancers. SChLAP1 levels independently predict poor outcomes, including metastasis and prostate cancer-specific mortality. In vitro and in vivo gain-of-function and loss-of-function experiments indicate that SChLAP1 is critical for cancer cell invasiveness and metastasis. Mechanistically, SChLAP1 antagonizes the genome-wide localization and regulatory functions of the SWI/SNF chromatin-modifying complex. These results suggest that SChLAP1 contributes to the development of lethal cancer at least in part by antagonizing the tumor-suppressive functions of the SWI/SNF complex.

Published
2013

21. De novo neuroendocrine transdifferentiation in primary prostate cancer–a phenotype associated with advanced clinico-pathologic features and aggressive outcome

Author

Abdulfatah, Eman, Reichert, Zachery R., Davenport, Matthew S., Chinnaiyan, Arul M., Dadhania, Vipulkumar, Wang, Xiaoming, Mannan, Rahul, Kunju, Lakshmi P., Hollenbeck, Brent K., Montgomery, Jeffrey S., Kaffenberger, Samuel D., Morgan, Todd M., Alva, Ajjai S., Palapattu, Ganesh S., Vaishampayan, Ulka N., Alumkal, Joshi J., Spratt, Daniel E., Udager, Aaron M., and Mehra, Rohit

Published
2021
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23. Reporting Practices and Resource Utilization in the Era of Intraductal Carcinoma of the Prostate: A Survey of Genitourinary Subspecialists

Author

Gandhi, Jatin S., Smith, Steven C., Paner, Gladell P., McKenney, Jesse K., Sekhri, Radhika, Osunkoya, Adeboye O., Baras, Alexander S., DeMarzo, Angelo M., Cheville, John C., Rafael, Jiminez E., Trpkov, Kiril, Colecchia, Maurizio, Ro, Jae Y., Montironi, Rodolfo, Menon, Santosh, Hes, Ondrej, Williamson, Sean R., Hirsch, Michelle S., Netto, George J., Fine, Samson W., Sirohi, Deepika, Kaushal, Seema, Sangoi, Ankur, Robinson, Brian D., Kweldam, Charlotte F., Humphrey, Peter A., Hansel, Donna E., Schultz, Luciana, Magi-Galluzzi, Cristina, Przybycin, Christopher G., Shah, Rajal B., Mehra, Rohit, Kunju, Lakshmi P., Aron, Manju, Kryvenko, Oleksandr N., Kench, James G., Kuroda, Naoto, Tavora, Fabio, van der Kwast, Theodorus, Grignon, David J., Epstein, Jonathan I., Reuter, Victor E., and Amin, Mahul B.

Published
2020
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26. A precision oncology approach to the pharmacological targeting of mechanistic dependencies in neuroendocrine tumors

Author

Alvarez, Mariano J., Subramaniam, Prem S., Tang, Laura H., Grunn, Adina, Aburi, Mahalaxmi, Rieckhof, Gabrielle, Komissarova, Elena V., Hagan, Elizabeth A., Bodei, Lisa, Clemons, Paul A., Dela Cruz, Filemon S., Dhall, Deepti, Diolaiti, Daniel, Fraker, Douglas A., Ghavami, Afshin, Kaemmerer, Daniel, Karan, Charles, Kidd, Mark, Kim, Kyoung M., Kim, Hee C., Kunju, Lakshmi P., Langel, Ülo, Li, Zhong, Lee, Jeeyun, Li, Hai, LiVolsi, Virginia, Pfragner, Roswitha, Rainey, Allison R., Realubit, Ronald B., Remotti, Helen, Regberg, Jakob, Roses, Robert, Rustgi, Anil, Sepulveda, Antonia R., Serra, Stefano, Shi, Chanjuan, Yuan, Xiaopu, Barberis, Massimo, Bergamaschi, Roberto, Chinnaiyan, Arul M., Detre, Tony, Ezzat, Shereen, Frilling, Andrea, Hommann, Merten, Jaeger, Dirk, Kim, Michelle K., Knudsen, Beatrice S., Kung, Andrew L., Leahy, Emer, Metz, David C., Milsom, Jeffrey W., Park, Young S., Reidy-Lagunes, Diane, Schreiber, Stuart, Washington, Kay, Wiedenmann, Bertram, Modlin, Irvin, and Califano, Andrea

Published
2018
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27. Development and Validation of MyProstateScore 2.0 to Detect Clinically Significant Prostate Cancer

Author

Tosoian, Jeffrey J., primary, Zhang, Yuping, additional, Xiao, Lanbo, additional, Xie, Cassie, additional, Samora, Nathan L., additional, Niknafs, Yashar S., additional, Chopra, Zoey, additional, Siddiqui, Javed, additional, Zheng, Heng, additional, Herron, Grace, additional, Vaishampayan, Neil, additional, Arivoli, Kumaran, additional, Trock, Bruce J., additional, Ross, Ashley E., additional, Morgan, Todd M., additional, Palapattu, Ganesh S., additional, Salami, Simpa S., additional, Kunju, Lakshmi P., additional, Zheng, Yingye, additional, Wei, John T., additional, and Chinnaiyan, Arul M., additional

Published
2023
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28. Data from Identification of Targetable FGFR Gene Fusions in Diverse Cancers

Author

Wu, Yi-Mi, primary, Su, Fengyun, primary, Kalyana-Sundaram, Shanker, primary, Khazanov, Nickolay, primary, Ateeq, Bushra, primary, Cao, Xuhong, primary, Lonigro, Robert J., primary, Vats, Pankaj, primary, Wang, Rui, primary, Lin, Su-Fang, primary, Cheng, Ann-Joy, primary, Kunju, Lakshmi P., primary, Siddiqui, Javed, primary, Tomlins, Scott A., primary, Wyngaard, Peter, primary, Sadis, Seth, primary, Roychowdhury, Sameek, primary, Hussain, Maha H., primary, Feng, Felix Y., primary, Zalupski, Mark M., primary, Talpaz, Moshe, primary, Pienta, Kenneth J., primary, Rhodes, Daniel R., primary, Robinson, Dan R., primary, and Chinnaiyan, Arul M., primary

Published
2023
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29. Supplementary Figures from Identification of Targetable FGFR Gene Fusions in Diverse Cancers

Author

Wu, Yi-Mi, primary, Su, Fengyun, primary, Kalyana-Sundaram, Shanker, primary, Khazanov, Nickolay, primary, Ateeq, Bushra, primary, Cao, Xuhong, primary, Lonigro, Robert J., primary, Vats, Pankaj, primary, Wang, Rui, primary, Lin, Su-Fang, primary, Cheng, Ann-Joy, primary, Kunju, Lakshmi P., primary, Siddiqui, Javed, primary, Tomlins, Scott A., primary, Wyngaard, Peter, primary, Sadis, Seth, primary, Roychowdhury, Sameek, primary, Hussain, Maha H., primary, Feng, Felix Y., primary, Zalupski, Mark M., primary, Talpaz, Moshe, primary, Pienta, Kenneth J., primary, Rhodes, Daniel R., primary, Robinson, Dan R., primary, and Chinnaiyan, Arul M., primary

Published
2023
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30. Supplementary Tables from Identification of Targetable FGFR Gene Fusions in Diverse Cancers

Author

Wu, Yi-Mi, primary, Su, Fengyun, primary, Kalyana-Sundaram, Shanker, primary, Khazanov, Nickolay, primary, Ateeq, Bushra, primary, Cao, Xuhong, primary, Lonigro, Robert J., primary, Vats, Pankaj, primary, Wang, Rui, primary, Lin, Su-Fang, primary, Cheng, Ann-Joy, primary, Kunju, Lakshmi P., primary, Siddiqui, Javed, primary, Tomlins, Scott A., primary, Wyngaard, Peter, primary, Sadis, Seth, primary, Roychowdhury, Sameek, primary, Hussain, Maha H., primary, Feng, Felix Y., primary, Zalupski, Mark M., primary, Talpaz, Moshe, primary, Pienta, Kenneth J., primary, Rhodes, Daniel R., primary, Robinson, Dan R., primary, and Chinnaiyan, Arul M., primary

Published
2023
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36. Racial differences in serum chemokines in prostate cancer patients.

Author

Karan, Dev, Wick, Jo, Dubey, Seema, Kumar‐Sinha, Chandan, Siddiqui, Javed, Kunju, Lakshmi P., Iczkowski, Kenneth A., and Chinnaiyan, Arul M.

Subjects
PROSTATE cancer patients, PROSTATE cancer, CHEMOKINES, AFRICAN American men, RACIAL differences, MACROPHAGE inflammatory proteins
Abstract

Background: This study aimed to understand the differential levels of inflammatory chemokines in association with higher prostate cancer incidence and mortality in African American (AA) men than in Caucasians (CA). Methods: The authors used a chemokine assay to simultaneously measure 40 chemokines and cytokines levels in the serum of preoperative prostate cancer patients and healthy controls of AA and CA races. Selected chemokines (CXCL2, CXCL5, and CCL23) serum level was validated in 211 serum samples from prostate cancer patients and healthy controls. Differential expression of CXCL5 and CCL23 was analyzed using immunohistochemistry in a representative cohort of prostate tumor tissues of AA and CA races. Results: Race‐specific comparisons from 211 serum samples showed significantly higher levels of CXCL2 (control: 3104.0 pg/mL vs. cancer: 2451.0 pg/mL) and CXCL5 (control: 5189.0 pg/mL vs. cancer: 5459.0 pg/mL) in AA men than in CAs (CXCL2; control: 1155.0 pg/mL vs. cancer: 889.3 pg/mL, and CXCL5; control: 1183.0 pg/mL vs. cancer: 977.5 pg/mL). CCL23 differed significantly within and between the races with a lower level in AA cancer cases (454.5 vs. 966.6 pg/mL) than healthy controls (740.5 vs. 1263.0 pg/mL). Patient age, prostate‐specific antigen, or Gleason scores were not significantly associated with these chemokines. Immunostaining for CXCL5 and CCL23 in a representative cohort of archival prostate tissues displayed significantly higher CXCL5 in prostate tumors than in adjacent benign tissues, whereas CCL23 was nondetectable in most of the analyzed tumor tissues. Conclusion: Lower levels of CCL23 in AA prostate cancer patient sera and tumor tissues and high CXCL2 and CXCL5 may contribute to aggressive prostate cancer, as often seen in AA men. The disproportionate levels of serum chemokines associated with race warrant further exploration to improve equitability in precision oncology to benefit prostate cancer patients. This study found that serum chemokines CXCL2, CXCL5, and CCL23 are the most prominent chemokines differentially expressed in men of African American and Caucasian races. The impact of such chemokines contributing to the disparity in prostate cancer biology among races needs further investigation. [ABSTRACT FROM AUTHOR]

Published
2023
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37. Table S2 from The MD Anderson Prostate Cancer Patient-derived Xenograft Series (MDA PCa PDX) Captures the Molecular Landscape of Prostate Cancer and Facilitates Marker-driven Therapy Development

Author

Palanisamy, Nallasivam, primary, Yang, Jun, primary, Shepherd, Peter D.A., primary, Li-Ning-Tapia, Elsa M., primary, Labanca, Estefania, primary, Manyam, Ganiraju C., primary, Ravoori, Murali K., primary, Kundra, Vikas, primary, Araujo, John C., primary, Efstathiou, Eleni, primary, Pisters, Louis L., primary, Wan, Xinhai, primary, Wang, Xuemei, primary, Vazquez, Elba S., primary, Aparicio, Ana M., primary, Carskadon, Shannon L., primary, Tomlins, Scott A., primary, Kunju, Lakshmi P., primary, Chinnaiyan, Arul M., primary, Broom, Bradley M., primary, Logothetis, Christopher J., primary, Troncoso, Patricia, primary, and Navone, Nora M., primary

Published
2023
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38. Legend of Supplementary Figures from The MD Anderson Prostate Cancer Patient-derived Xenograft Series (MDA PCa PDX) Captures the Molecular Landscape of Prostate Cancer and Facilitates Marker-driven Therapy Development

Author

Palanisamy, Nallasivam, primary, Yang, Jun, primary, Shepherd, Peter D.A., primary, Li-Ning-Tapia, Elsa M., primary, Labanca, Estefania, primary, Manyam, Ganiraju C., primary, Ravoori, Murali K., primary, Kundra, Vikas, primary, Araujo, John C., primary, Efstathiou, Eleni, primary, Pisters, Louis L., primary, Wan, Xinhai, primary, Wang, Xuemei, primary, Vazquez, Elba S., primary, Aparicio, Ana M., primary, Carskadon, Shannon L., primary, Tomlins, Scott A., primary, Kunju, Lakshmi P., primary, Chinnaiyan, Arul M., primary, Broom, Bradley M., primary, Logothetis, Christopher J., primary, Troncoso, Patricia, primary, and Navone, Nora M., primary

Published
2023
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39. Figure S1 from Gene Copy Number Estimation from Targeted Next-Generation Sequencing of Prostate Cancer Biopsies: Analytic Validation and Clinical Qualification

Author

Seed, George, primary, Yuan, Wei, primary, Mateo, Joaquin, primary, Carreira, Suzanne, primary, Bertan, Claudia, primary, Lambros, Maryou, primary, Boysen, Gunther, primary, Ferraldeschi, Roberta, primary, Miranda, Susana, primary, Figueiredo, Ines, primary, Riisnaes, Ruth, primary, Crespo, Mateus, primary, Rodrigues, Daniel Nava, primary, Talevich, Eric, primary, Robinson, Dan R., primary, Kunju, Lakshmi P., primary, Wu, Yi-Mi, primary, Lonigro, Robert, primary, Sandhu, Shahneen, primary, Chinnaiyan, Arul M., primary, and de Bono, Johann S., primary

Published
2023
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40. Table S1 from Gene Copy Number Estimation from Targeted Next-Generation Sequencing of Prostate Cancer Biopsies: Analytic Validation and Clinical Qualification

Author

Seed, George, primary, Yuan, Wei, primary, Mateo, Joaquin, primary, Carreira, Suzanne, primary, Bertan, Claudia, primary, Lambros, Maryou, primary, Boysen, Gunther, primary, Ferraldeschi, Roberta, primary, Miranda, Susana, primary, Figueiredo, Ines, primary, Riisnaes, Ruth, primary, Crespo, Mateus, primary, Rodrigues, Daniel Nava, primary, Talevich, Eric, primary, Robinson, Dan R., primary, Kunju, Lakshmi P., primary, Wu, Yi-Mi, primary, Lonigro, Robert, primary, Sandhu, Shahneen, primary, Chinnaiyan, Arul M., primary, and de Bono, Johann S., primary

Published
2023
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41. Supplementary legend from Gene Copy Number Estimation from Targeted Next-Generation Sequencing of Prostate Cancer Biopsies: Analytic Validation and Clinical Qualification

Author

Seed, George, primary, Yuan, Wei, primary, Mateo, Joaquin, primary, Carreira, Suzanne, primary, Bertan, Claudia, primary, Lambros, Maryou, primary, Boysen, Gunther, primary, Ferraldeschi, Roberta, primary, Miranda, Susana, primary, Figueiredo, Ines, primary, Riisnaes, Ruth, primary, Crespo, Mateus, primary, Rodrigues, Daniel Nava, primary, Talevich, Eric, primary, Robinson, Dan R., primary, Kunju, Lakshmi P., primary, Wu, Yi-Mi, primary, Lonigro, Robert, primary, Sandhu, Shahneen, primary, Chinnaiyan, Arul M., primary, and de Bono, Johann S., primary

Published
2023
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42. Figure S7 from The MD Anderson Prostate Cancer Patient-derived Xenograft Series (MDA PCa PDX) Captures the Molecular Landscape of Prostate Cancer and Facilitates Marker-driven Therapy Development

Author

Palanisamy, Nallasivam, primary, Yang, Jun, primary, Shepherd, Peter D.A., primary, Li-Ning-Tapia, Elsa M., primary, Labanca, Estefania, primary, Manyam, Ganiraju C., primary, Ravoori, Murali K., primary, Kundra, Vikas, primary, Araujo, John C., primary, Efstathiou, Eleni, primary, Pisters, Louis L., primary, Wan, Xinhai, primary, Wang, Xuemei, primary, Vazquez, Elba S., primary, Aparicio, Ana M., primary, Carskadon, Shannon L., primary, Tomlins, Scott A., primary, Kunju, Lakshmi P., primary, Chinnaiyan, Arul M., primary, Broom, Bradley M., primary, Logothetis, Christopher J., primary, Troncoso, Patricia, primary, and Navone, Nora M., primary

Published
2023
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43. Supplementary Methods from The MD Anderson Prostate Cancer Patient-derived Xenograft Series (MDA PCa PDX) Captures the Molecular Landscape of Prostate Cancer and Facilitates Marker-driven Therapy Development

Author

Palanisamy, Nallasivam, primary, Yang, Jun, primary, Shepherd, Peter D.A., primary, Li-Ning-Tapia, Elsa M., primary, Labanca, Estefania, primary, Manyam, Ganiraju C., primary, Ravoori, Murali K., primary, Kundra, Vikas, primary, Araujo, John C., primary, Efstathiou, Eleni, primary, Pisters, Louis L., primary, Wan, Xinhai, primary, Wang, Xuemei, primary, Vazquez, Elba S., primary, Aparicio, Ana M., primary, Carskadon, Shannon L., primary, Tomlins, Scott A., primary, Kunju, Lakshmi P., primary, Chinnaiyan, Arul M., primary, Broom, Bradley M., primary, Logothetis, Christopher J., primary, Troncoso, Patricia, primary, and Navone, Nora M., primary

Published
2023
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44. Supplementary Results from The MD Anderson Prostate Cancer Patient-derived Xenograft Series (MDA PCa PDX) Captures the Molecular Landscape of Prostate Cancer and Facilitates Marker-driven Therapy Development

Author

Palanisamy, Nallasivam, primary, Yang, Jun, primary, Shepherd, Peter D.A., primary, Li-Ning-Tapia, Elsa M., primary, Labanca, Estefania, primary, Manyam, Ganiraju C., primary, Ravoori, Murali K., primary, Kundra, Vikas, primary, Araujo, John C., primary, Efstathiou, Eleni, primary, Pisters, Louis L., primary, Wan, Xinhai, primary, Wang, Xuemei, primary, Vazquez, Elba S., primary, Aparicio, Ana M., primary, Carskadon, Shannon L., primary, Tomlins, Scott A., primary, Kunju, Lakshmi P., primary, Chinnaiyan, Arul M., primary, Broom, Bradley M., primary, Logothetis, Christopher J., primary, Troncoso, Patricia, primary, and Navone, Nora M., primary

Published
2023
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45. Supplementary material from Molecular Profiling to Determine Clonality of Serial Magnetic Resonance Imaging/Ultrasound Fusion Biopsies from Men on Active Surveillance for Low-Risk Prostate Cancer

Author

Palapattu, Ganesh S., primary, Salami, Simpa S., primary, Cani, Andi K., primary, Hovelson, Daniel H., primary, Lazo de la Vega, Lorena, primary, Vandenberg, Kelly R., primary, Bratley, Jarred V., primary, Liu, Chia-Jen, primary, Kunju, Lakshmi P., primary, Montgomery, Jeffery S., primary, Morgan, Todd M., primary, Natarajan, Shyam, primary, Huang, Jiaoti, primary, Tomlins, Scott A., primary, and Marks, Leonard S., primary

Published
2023
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46. Data from Gene Copy Number Estimation from Targeted Next-Generation Sequencing of Prostate Cancer Biopsies: Analytic Validation and Clinical Qualification

Author

Seed, George, primary, Yuan, Wei, primary, Mateo, Joaquin, primary, Carreira, Suzanne, primary, Bertan, Claudia, primary, Lambros, Maryou, primary, Boysen, Gunther, primary, Ferraldeschi, Roberta, primary, Miranda, Susana, primary, Figueiredo, Ines, primary, Riisnaes, Ruth, primary, Crespo, Mateus, primary, Rodrigues, Daniel Nava, primary, Talevich, Eric, primary, Robinson, Dan R., primary, Kunju, Lakshmi P., primary, Wu, Yi-Mi, primary, Lonigro, Robert, primary, Sandhu, Shahneen, primary, Chinnaiyan, Arul M., primary, and de Bono, Johann S., primary

Published
2023
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47. Table S1 addendum from The MD Anderson Prostate Cancer Patient-derived Xenograft Series (MDA PCa PDX) Captures the Molecular Landscape of Prostate Cancer and Facilitates Marker-driven Therapy Development

Author

Palanisamy, Nallasivam, primary, Yang, Jun, primary, Shepherd, Peter D.A., primary, Li-Ning-Tapia, Elsa M., primary, Labanca, Estefania, primary, Manyam, Ganiraju C., primary, Ravoori, Murali K., primary, Kundra, Vikas, primary, Araujo, John C., primary, Efstathiou, Eleni, primary, Pisters, Louis L., primary, Wan, Xinhai, primary, Wang, Xuemei, primary, Vazquez, Elba S., primary, Aparicio, Ana M., primary, Carskadon, Shannon L., primary, Tomlins, Scott A., primary, Kunju, Lakshmi P., primary, Chinnaiyan, Arul M., primary, Broom, Bradley M., primary, Logothetis, Christopher J., primary, Troncoso, Patricia, primary, and Navone, Nora M., primary

Published
2023
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48. Data from The Distinctive Mutational Spectra of Polyomavirus-Negative Merkel Cell Carcinoma

Author

Harms, Paul William, primary, Vats, Pankaj, primary, Verhaegen, Monique Elise, primary, Robinson, Dan R., primary, Wu, Yi-Mi, primary, Dhanasekaran, Saravana Mohan, primary, Palanisamy, Nallasivam, primary, Siddiqui, Javed, primary, Cao, Xuhong, primary, Su, Fengyun, primary, Wang, Rui, primary, Xiao, Hong, primary, Kunju, Lakshmi P., primary, Mehra, Rohit, primary, Tomlins, Scott A., primary, Fullen, Douglas Randall, primary, Bichakjian, Christopher Keram, primary, Johnson, Timothy M., primary, Dlugosz, Andrzej Antoni, primary, and Chinnaiyan, Arul M., primary

Published
2023
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49. Supplemental Figure Legends from The Distinctive Mutational Spectra of Polyomavirus-Negative Merkel Cell Carcinoma

Author

Harms, Paul William, primary, Vats, Pankaj, primary, Verhaegen, Monique Elise, primary, Robinson, Dan R., primary, Wu, Yi-Mi, primary, Dhanasekaran, Saravana Mohan, primary, Palanisamy, Nallasivam, primary, Siddiqui, Javed, primary, Cao, Xuhong, primary, Su, Fengyun, primary, Wang, Rui, primary, Xiao, Hong, primary, Kunju, Lakshmi P., primary, Mehra, Rohit, primary, Tomlins, Scott A., primary, Fullen, Douglas Randall, primary, Bichakjian, Christopher Keram, primary, Johnson, Timothy M., primary, Dlugosz, Andrzej Antoni, primary, and Chinnaiyan, Arul M., primary

Published
2023
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50. Supplemental Table S4 from The Distinctive Mutational Spectra of Polyomavirus-Negative Merkel Cell Carcinoma

Author

Harms, Paul William, primary, Vats, Pankaj, primary, Verhaegen, Monique Elise, primary, Robinson, Dan R., primary, Wu, Yi-Mi, primary, Dhanasekaran, Saravana Mohan, primary, Palanisamy, Nallasivam, primary, Siddiqui, Javed, primary, Cao, Xuhong, primary, Su, Fengyun, primary, Wang, Rui, primary, Xiao, Hong, primary, Kunju, Lakshmi P., primary, Mehra, Rohit, primary, Tomlins, Scott A., primary, Fullen, Douglas Randall, primary, Bichakjian, Christopher Keram, primary, Johnson, Timothy M., primary, Dlugosz, Andrzej Antoni, primary, and Chinnaiyan, Arul M., primary

Published
2023
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