Venu Raman
Johns Hopkins University
52 Papers
407 Citations
Venu Raman is an academic researcher from Johns Hopkins University. The author has contributed to research in topics: Cancer & Metastasis. The author has an hindex of 22, co-authored 52 publications. Previous affiliations of Venu Raman include Utrecht University & Johns Hopkins University School of Medicine.
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Papers
Interleukin-6 induces an epithelial-mesenchymal transition phenotype in human breast cancer cells.
Nicholas J. Sullivan,Nicholas J. Sullivan,A K Sasser,A K Sasser,Amy Axel,Farhad Vesuna,Venu Raman,N Ramirez,N Ramirez,Tatiana M. Oberyszyn,Brett Hall,Brett Hall +11 more
TL;DR: This is the first study that shows IL-6 as an inducer of an EMT phenotype in breast cancer cells and implicates its potential to promote breast cancer metastasis.
753
Compromised HOXA5 function can limit p53 expression in human breast tumours
Venu Raman,Shelby A. Martensen,David Reisman,Ella Evron,Ward F. Odenwald,Elizabeth M. Jaffee,Jeffrey R. Marks,Saraswati Sukumar +7 more
TL;DR: It is shown that p53 messenger RNA levels are low in a large proportion of breast tumours and loss of expression of p53 in human breast cancer may be primarily due to lack ofexpression of HOXA5.
513
Twist contributes to hormone resistance in breast cancer by downregulating estrogen receptor-α.
Farhad Vesuna,Ala Lisok,Brian Kimble,John Domek,Yoshinori Kato,P van der Groep,Dmitri Artemov,Jeanne Kowalski,Hetty E. Carraway,P. J. Van Diest,Venu Raman +10 more
TL;DR: The regulation of ER by Twist could be an underlying mechanism for the loss of ER activity observed in breast tumors, and may contribute to the generation of hormone-resistant, ER-negative breast cancer.
163
The Transcription Factor Encyclopedia
Dimas Yusuf,Stefanie L. Butland,Magdalena I. Swanson,Eugene Bolotin,Amy Ticoll,Warren A. Cheung,Xiao Yu Cindy Zhang,Christopher Td Dickman,Debra L. Fulton,Jonathan Lim,Jake Schnabl,Oscar H. P. Ramos,Mireille Vasseur-Cognet,Charles N. de Leeuw,Elizabeth M. Simpson,Gerhart U. Ryffel,Eric Lam,Ralf Kist,Miranda Sc Wilson,Raquel Marco-Ferreres,Jan J. Brosens,Leonardo Beccari,Paola Bovolenta,Bérénice A. Benayoun,Lara J. Monteiro,Helma Dc Schwenen,Lars Grøntved,Elizabeth D. Wederell,Susanne Mandrup,Reiner A. Veitia,Harini Chakravarthy,Pamela A. Hoodless,M. Michela Mancarelli,Bruce E. Torbett,Alison H. Banham,Sekhar P. Reddy,Rebecca L. Cullum,Michaela Liedtke,Mario P. Tschan,Michelle Vaz,Angie Rizzino,Mariastella Zannini,Seth Frietze,Peggy J. Farnham,Astrid Eijkelenboom,Philip J. Brown,David Laperrière,Dominique Leprince,Tiziana de Cristofaro,Kelly L. Prince,Marrit Putker,Luis del Peso,Gieri Camenisch,Roland H. Wenger,Michal Mikula,Marieke Rozendaal,Sylvie Mader,Jerzy Ostrowski,Simon J. Rhodes,Capucine Van Rechem,Gaylor Boulay,Sam W. Z. Olechnowicz,Mary B. Breslin,Michael S. Lan,Kyster K. Nanan,Michael Wegner,Juan Hou,Rachel D. Mullen,Stephanie C. Colvin,Peter J. Noy,Carol F. Webb,Matthew E. Witek,Scott Ferrell,Juliet M. Daniel,Jason Y. Park,Scott A. Waldman,Daniel J. Peet,Michael J. Taggart,Padma-Sheela Jayaraman,Julien J. Karrich,Bianca Blom,Farhad Vesuna,Henriette O'Geen,Yunfu Sun,Richard M. Gronostajski,Mark W. Woodcroft,Margaret R. Hough,Edwin Chen,Nicholas Europe-Finner,Magdalena Karolczak-Bayatti,Jarrod Bailey,Oliver Hankinson,Venu Raman,David P. LeBrun,Shyam Biswal,Christopher J. Harvey,Jason P. DeBruyne,John B. Hogenesch,Robert F. Hevner,Christophe Héligon,Xin M. Luo,Marissa Cathleen Blank,Kathleen J. Millen,David S. Sharlin,Douglas Forrest,Karin Dahlman-Wright,Chunyan Zhao,Yuriko Mishima,Satrajit Sinha,Rumela Chakrabarti,Elodie Portales-Casamar,Frances M. Sladek,Philip Bradley,Wyeth W. Wasserman +113 more
TL;DR: The Transcription Factor Encyclopedia (TFe), a new web-based compendium of mini review articles on transcription factors (TFs) that is founded on the principles of open access and collaboration, is presented.
154
Hypoxia Regulates Choline Kinase Expression through Hypoxia-Inducible Factor-1α Signaling in a Human Prostate Cancer Model
Kristine Glunde,Tariq Shah,Paul T. Winnard,Venu Raman,Tomoyo Takagi,Farhad Vesuna,Dmitri Artemov,Zaver M. Bhujwalla +7 more
TL;DR: Data suggest that HIF-1 activation of HREs within the putative chk- alpha promoter region can increase Chk-alpha expression within hypoxic environments, consequently increasing cellular PC and tCho levels within these environments.
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