Journal ArticleDOI
Prostate cancer cell heterogeneity and plasticity: Insights from studies of genetically-engineered mouse models.
Weiping Li,Michael M. Shen +1 more
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TLDR
A review of recent advances in understanding the cell types of origin, putative cancer stem cells, and tumor plasticity in prostate cancer, focusing on insights from studies of genetically engineered mouse models (GEMMs) is presented in this paper.About:
This article is published in Seminars in Cancer Biology.The article was published on 2021-06-18. It has received 5 citations till now. The article focuses on the topics: Prostate cancer & Cancer.read more
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Journal ArticleDOI
Understanding and targeting prostate cancer cell heterogeneity and plasticity
TL;DR: In this article , the luminal progenitor cells were identified as the likely cells of origin for prostate cancer and the intrinsic and induced PCa cell heterogeneity in treatment-naïve prostate cancer was discussed.
Journal ArticleDOI
Understanding and targeting prostate cancer cell heterogeneity and plasticity.
TL;DR: In this paper, the luminal progenitor cells are considered as the likely cells of origin for prostate cancer and the authors discuss the intrinsic PCa cell heterogeneity in treatment-naive tumors with the presence of prostate cancer stem cells.
Journal ArticleDOI
Machine Learning: Applications and Advanced Progresses of Radiomics in Endocrine Neoplasms
Yong Wang,Liang Zhang,Lin Qi,Xiaoping Yi,Minghao Li,Mao Zhou,Danlei Chen,Qiao Xiao,Cikui Wang,Yingxian Pang,Jiangyue Xu,Hao Deng,Longfei Liu,Xiao Guan +13 more
TL;DR: In this paper, the authors introduce the general workflow of radiomics and summarize the applications and developments in radiomics in endocrine neoplasms in recent years, and discuss the limitations of current radiomic research studies and future development directions.
Journal ArticleDOI
Cancer cell heterogeneity and plasticity: From molecular understanding to therapeutic targeting.
Dean G. Tang,Toru Kondo +1 more
Journal Article
A necroptosis gene signature predicts prostate cancer recurrence, and is linked to somatic mutation, therapeutic landscape, and immune infiltration.
TL;DR: A least absolute shrinkage and selection operator (LASSO) regression analysis was conducted based upon transcriptome data of necroptosis genes with clinical information in the Cancer Genome Atlas (TCGA) prostate carcinoma samples, which were externally verified in the GSE116918 cohort as discussed by the authors .
References
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Journal ArticleDOI
Cancer statistics, 2020.
TL;DR: Slow momentum for some cancers amenable to early detection is juxtaposed with notable gains for other common cancers, and it is notable that long‐term rapid increases in liver cancer mortality have attenuated in women and stabilized in men.
Journal ArticleDOI
Integrative genomic profiling of human prostate cancer
Barry S. Taylor,Nikolaus Schultz,Haley Hieronymus,Anuradha Gopalan,Yonghong Xiao,Brett S. Carver,Vivek K. Arora,Poorvi Kaushik,Ethan Cerami,Boris Reva,Yevgeniy Antipin,Nicholas Mitsiades,Thomas Landers,Igor Dolgalev,John E. Major,Manda Wilson,Nicholas D. Socci,Alex E. Lash,Adriana Heguy,James A. Eastham,Howard I. Scher,Victor E. Reuter,Peter T. Scardino,Chris Sander,Charles L. Sawyers,Charles L. Sawyers,William L. Gerald +26 more
TL;DR: Analysis of genomic and clinical outcome data from 218 prostate cancer tumors revealed that copy-number alterations robustly define clusters of low- and high-risk disease beyond that achieved by Gleason score.
Journal ArticleDOI
Integrative clinical genomics of advanced prostate cancer
Dan R. Robinson,Eliezer M. Van Allen,Eliezer M. Van Allen,Yi-Mi Wu,Nikolaus Schultz,Robert J. Lonigro,Juan Miguel Mosquera,Bruce Montgomery,Mary-Ellen Taplin,Colin C. Pritchard,Gerhardt Attard,Gerhardt Attard,Himisha Beltran,Wassim Abida,Robert K. Bradley,Jake Vinson,Xuhong Cao,Pankaj Vats,Lakshmi P. Kunju,Maha Hussain,Felix Y. Feng,Scott A. Tomlins,Kathleen A. Cooney,David Smith,Christine Brennan,Javed Siddiqui,Rohit Mehra,Yu Chen,Yu Chen,Dana E. Rathkopf,Dana E. Rathkopf,Michael J. Morris,Michael J. Morris,Stephen B. Solomon,Jeremy C. Durack,Victor E. Reuter,Anuradha Gopalan,Jianjiong Gao,Massimo Loda,Rosina T. Lis,Michaela Bowden,Michaela Bowden,Stephen P. Balk,Glenn C. Gaviola,Carrie Sougnez,Manaswi Gupta,Evan Y. Yu,Elahe A. Mostaghel,Heather H. Cheng,Hyojeong Mulcahy,Lawrence D. True,Stephen R. Plymate,Heidi Dvinge,Roberta Ferraldeschi,Roberta Ferraldeschi,Penny Flohr,Penny Flohr,Susana Miranda,Susana Miranda,Zafeiris Zafeiriou,Zafeiris Zafeiriou,Nina Tunariu,Nina Tunariu,Joaquin Mateo,Joaquin Mateo,Raquel Perez-Lopez,Raquel Perez-Lopez,Francesca Demichelis,Francesca Demichelis,Brian D. Robinson,Marc H. Schiffman,David M. Nanus,Scott T. Tagawa,Alexandros Sigaras,Kenneth Eng,Olivier Elemento,Andrea Sboner,Elisabeth I. Heath,Howard I. Scher,Howard I. Scher,Kenneth J. Pienta,Philip W. Kantoff,Johann S. de Bono,Johann S. de Bono,Mark A. Rubin,Peter S. Nelson,Levi A. Garraway,Levi A. Garraway,Charles L. Sawyers,Arul M. Chinnaiyan +89 more
TL;DR: This cohort study provides clinically actionable information that could impact treatment decisions for affected individuals and identified new genomic alterations in PIK3CA/B, R-spondin, BRAF/RAF1, APC, β-catenin, and ZBTB16/PLZF.
Journal ArticleDOI
The Molecular Taxonomy of Primary Prostate Cancer
Adam Abeshouse,Jaeil Ahn,Rehan Akbani,Adrian Ally,Samirkumar B. Amin,Christopher D. Andry,Matti Annala,Armen Aprikian,Joshua Armenia,Arshi Arora,J. Todd Auman,Miruna Balasundaram,Saianand Balu,Christopher E. Barbieri,Thomas L. Bauer,Christopher C. Benz,Alain Bergeron,Rameen Beroukhim,Mario Berrios,Adrian Bivol,Tom Bodenheimer,Lori Boice,Moiz S. Bootwalla,Rodolfo Borges Dos Reis,Paul C. Boutros,Jay Bowen,Reanne Bowlby,Jeff Boyd,Robert K. Bradley,Anne Breggia,Fadi Brimo,Christopher A. Bristow,Denise Brooks,Bradley M. Broom,Alan H. Bryce,Glenn Bubley,Eric J. Burks,Yaron S.N. Butterfield,Michael Button,David Canes,Carlos Gilberto Carlotti,Rebecca Carlsen,Michel Carmel,Peter R. Carroll,Scott L. Carter,Richard Cartun,Brett S. Carver,June M. Chan,Matthew T. Chang,Yu Chen,Andrew D. Cherniack,Simone Chevalier,Lynda Chin,Juok Cho,Andy Chu,Eric Chuah,Sudha Chudamani,Kristian Cibulskis,Giovanni Ciriello,Amanda Clarke,Matthew R. Cooperberg,Niall M. Corcoran,Anthony J. Costello,Janet E. Cowan,Daniel Crain,Erin Curley,Kerstin David,John A. Demchok,Francesca Demichelis,Noreen Dhalla,Rajiv Dhir,Alexandre Doueik,Bettina F. Drake,Heidi Dvinge,Natalya Dyakova,Ina Felau,Martin L. Ferguson,Scott Frazer,Stephen J. Freedland,Yao Fu,Stacey Gabriel,Jianjiong Gao,Johanna Gardner,Julie M. Gastier-Foster,Nils Gehlenborg,Mark Gerken,Mark Gerstein,Gad Getz,Andrew K. Godwin,Anuradha Gopalan,Markus Graefen,Kiley Graim,Thomas Gribbin,Ranabir Guin,Manaswi Gupta,Angela Hadjipanayis,Syed Haider,Lucie Hamel,D. Neil Hayes,David I. Heiman,Julian M. Hess,Katherine A. Hoadley,Andrea Holbrook,Robert A. Holt,Antonia H. Holway,Christopher M. Hovens,Alan P. Hoyle,Mei Huang,Carolyn M. Hutter,Michael Ittmann,Lisa Iype,Stuart R. Jefferys,Corbin D. Jones,Steven J.M. Jones,Hartmut Juhl,Andre Kahles,Christopher J. Kane,Katayoon Kasaian,Michael Kerger,Ekta Khurana,Jaegil Kim,Robert J. Klein,Raju Kucherlapati,Louis Lacombe,Marc Ladanyi,Phillip H. Lai,Peter W. Laird,Eric S. Lander,Mathieu Latour,Michael S. Lawrence,Kevin Lau,Tucker W. LeBien,Darlene Lee,Semin Lee,Kjong-Van Lehmann,Kristen M. Leraas,Ignaty Leshchiner,Robert Leung,John A. Libertino,Tara M. Lichtenberg,Pei Lin,W. Marston Linehan,Shiyun Ling,Scott M. Lippman,Jia Liu,Wen-Bin Liu,Lucas Lochovsky,Massimo Loda,Christopher J. Logothetis,Laxmi Lolla,Teri A. Longacre,Yiling Lu,Jianhua Luo,Yussanne Ma,Harshad S. Mahadeshwar,David Mallery,Armaz Mariamidze,Marco A. Marra,Michael Mayo,Shannon J. McCall,Ginette McKercher,Shaowu Meng,Anne Marie Mes-Masson,Maria J. Merino,Matthew Meyerson,Piotr A. Mieczkowski,Gordon B. Mills,Kenna R. Mills Shaw,Sarah Minner,Alireza Moinzadeh,Richard A. Moore,Scott Morris,Carl Morrison,Lisle E. Mose,Andrew J. Mungall,Bradley A. Murray,Jerome Myers,Rashi Naresh,Joel Nelson,Mark Nelson,Peter S. Nelson,Yulia Newton,Michael S. Noble,Houtan Noushmehr,Matti Nykter,Angeliki Pantazi,Michael Parfenov,Peter J. Park,Joel S. Parker,Joseph Paulauskis,Robert Penny,Charles M. Perou,Alain Piché,Todd Pihl,Peter A. Pinto,Davide Prandi,Alexei Protopopov,Nilsa C. Ramirez,Arvind Rao,W. Kimryn Rathmell,Gunnar Rätsch,Xiaojia Ren,Victor E. Reuter,Sheila Reynolds,Suhn K. Rhie,Kimberly Rieger-Christ,Jeffrey Roach,A. Gordon Robertson,Brian D. Robinson,Mark A. Rubin,Fred Saad,Sara Sadeghi,Gordon Saksena,Charles Saller,Andrew Salner,Francisco Sanchez-Vega,Chris Sander,George E. Sandusky,Guido Sauter,Andrea Sboner,Peter T. Scardino,Eleonora Scarlata,Jacqueline E. Schein,Thorsten Schlomm,Laura S. Schmidt,Nikolaus Schultz,Steven E. Schumacher,Jonathan G. Seidman,Luciano Neder,Sahil Seth,Alexis Sharp,Candace Shelton,Troy Shelton,Hui Shen,Ronglai Shen,Mark E. Sherman,Margi Sheth,Yan Shi,Juliann Shih,Ilya Shmulevich,Jeffry Simko,Ronald Simon,Janae V. Simons,Payal Sipahimalani,Tara Skelly,Heidi J. Sofia,Matthew G. Soloway,Xingzhi Song,Andrea Sorcini,Carrie Sougnez,Serghei Stepa,Chip Stewart,John A. Stewart,Joshua M. Stuart,Travis Sullivan,Charlie Sun,Huandong Sun,Angela Tam,Donghui Tan,Jiabin Tang,Roy Tarnuzzer,Katherine Tarvin,Barry S. Taylor,Patrick Teebagy,Imelda Tenggara,Bernard Têtu,Ashutosh Tewari,Nina Thiessen,Timothy C. Thompson,Leigh B. Thorne,Daniela P. Tirapelli,Scott A. Tomlins,Felipe Amstalden Trevisan,Patricia Troncoso,Lawrence D. True,Maria Christina Tsourlakis,Svitlana Tyekucheva,Eliezer M. Van Allen,David Van Den Berg,Umadevi Veluvolu,Roeland Verhaak,Cathy D. Vocke,Doug Voet,Yunhu Wan,Qingguo Wang,Wenyi Wang,Zhining Wang,Nils Weinhold,John N. Weinstein,Daniel J. Weisenberger,Matthew D. Wilkerson,Lisa Wise,John S. Witte,Chia Chin Wu,Junyuan Wu,Ye Wu,Andrew Wei Xu,Shalini S. Yadav,Liming Yang,Lixing Yang,Christina Yau,Huihui Ye,Peggy Yena,Thomas Zeng,Jean C. Zenklusen,Hailei Zhang,Jianhua Zhang,Jiashan Zhang,Wei Zhang,Yi Zhong,Kelsey Zhu,Erik Zmuda +311 more
TL;DR: The Cancer Genome Atlas (TCGA) has been used for a comprehensive molecular analysis of primary prostate carcinomas as discussed by the authors, revealing substantial heterogeneity among primary prostate cancers, evident in the spectrum of molecular abnormalities and its variable clinical course.
Journal ArticleDOI
Tumour heterogeneity and cancer cell plasticity
TL;DR: Studies using lineage tracing and deep sequencing could have implications for the cancer stem-cell model and may help to determine the extent to which it accounts for therapy resistance and disease progression.