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Endothelium
Journal of Endothelial Cell Research
Volume 8, 2001 - Issue 1
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Original Article

Expression of VACM-1 Protein in Cultured Rat Adrenal Endothelial Cells is Linked to the Cell Cycle

M. Burnatowska-hledin Departments of Biology and Chemistry, Peale Science Center, Hope College, Holland, MI, 49422-9000Correspondence[email protected]
,
A. Zeneberg Departments of Biology and Chemistry, Peale Science Center, Hope College, Holland, MI, 49422-9000
,
A. Roulo Departments of Biology and Chemistry, Peale Science Center, Hope College, Holland, MI, 49422-9000
,
J. Grobe Departments of Biology and Chemistry, Peale Science Center, Hope College, Holland, MI, 49422-9000
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P. Zhao Departments of Biology and Chemistry, Peale Science Center, Hope College, Holland, MI, 49422-9000
,
P. I. Lelkes University of Wis consin Medical School, Department of Medicine, Zoology Research Building, Room 221, 1117 W. Johnson Street, Madison, WI, 53706
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P. Clare Pharmacia & Upjohn Co., 7000 Portage Rd., Kalamazoo, MI, 49001-0199
&
C. Barney Departments of Biology and Chemistry, Peale Science Center, Hope College, Holland, MI, 49422-9000
 show all
Pages 49-63 | Received 07 Feb 2000, Accepted 10 Jul 2000, Published online: 13 Jul 2009

Citations (18)

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E. Papadimitriou, C. R. Waters, V. G. Manolopoulos, B. R. Unsworth, M. E. Maragoudakis & P. I. Lelkes. (2001) Regulation of Extracellular Matrix Remodeling and MMP-2 Activation in Cultured Rat Adrenal Medullary Endothelial Cells. Endothelium 8:4, pages 243-253.
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T. E. Ceremuga, Thomas E. Ceremuga, Xiang-Lan Yao & Joseph T. McCabe. (2001) VASOPRESSIN-ACTIVATED CALCIUM-MOBILIZING (VACM-1) RECEPTOR mRNA IS PRESENT IN PERIPHERAL ORGANS AND THE CENTRAL NERVOUS SYSTEM OF THE LABORATORY RAT. Endocrine Research 27:4, pages 433-445.
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Articles from other publishers (16)

Lei Wang, Jing Huang, Ruoyang Zhang, Muzhi Zhang, Yu Guo, Yang Liu, Cong Li, Wei Wang, Sun Ying, Jie Liu & Chen Wang. (2023) Culin5 aggravates hypoxic pulmonary hypertension by activating TRAF6/NF-κB/HIF-1α/VEGF. iScience 26:11, pages 108199.
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Yongchao Zhao, Xiufang Xiong & Yi Sun. (2020) Cullin-RING Ligase 5: Functional characterization and its role in human cancers. Seminars in Cancer Biology 67, pages 61-79.
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Bryan Kunkler, Daniel Salamango, Zachary J. DeBruine, Caitlin Ploch, Shirley Dean, David Grossens, Michael P. Hledin, Gabriel A. Marquez, Julie Madden, Abigayle Schnell, Michael Short & Maria A. Burnatowska-Hledin. (2018) CUL5 is required for thalidomide-dependent inhibition of cellular proliferation. PLOS ONE 13:5, pages e0196760.
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Kate E Coleman, Miklós Békés, Jessica R Chapman, Sarah B Crist, Mathew JK Jones, Beatrix M Ueberheide & Tony T Huang. (2017) SENP8 limits aberrant neddylation of NEDD8 pathway components to promote cullin-RING ubiquitin ligase function. eLife 6.
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Angelica N. Willis, Shirley E. Bradley Dean, Joe A. Habbouche, Brian T. Kempers, Megan L. Ludwig, Aaron D. Sayfie, Steven P. Lewis, Stephanie Harrier, Zachary J. DeBruine, Richard Garrett & Maria A. Burnatowska-Hledin. (2016) Nuclear localization signal sequence is required for VACM-1/CUL5-dependent regulation of cellular growth. Cell and Tissue Research 368:1, pages 105-114.
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Fumihiko Okumura, Akiko Joo-Okumura, Kunio Nakatsukasa & Takumi Kamura. (2016) The role of cullin 5-containing ubiquitin ligases. Cell Division 11:1.
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Maria A. Burnatowska-Hledin & Christopher C. Barney. 2014. 79 101 .
Nicole K. Littlejohn, Rick B. SielJr.Jr., Pimonrat Ketsawatsomkron, Christopher J. Pelham, Nicole A. Pearson, Aline M. Hilzendeger, Beth A. Buehrer, Benjamin J. Weidemann, Huiping Li, Deborah R. Davis, Anthony P. Thompson, Xuebo Liu, Martin D. Cassell, Curt D. Sigmund & Justin L. Grobe. (2013) Hypertension in mice with transgenic activation of the brain renin-angiotensin system is vasopressin dependent. American Journal of Physiology-Regulatory, Integrative and Comparative Physiology 304:10, pages R818-R828.
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STEVEN P. LEWIS, ANGELICA N. Willis, ALYSSA E. JOHNSON, JAMES RESAU & MARIA A. BURNATOWSKA-HLEDIN. (2011) Mutational analysis of VACM-1/cul5 exons in cancer cell lines. APMIS 119:7, pages 421-430.
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Shirley E. Bradley, Alyssa E. Johnson, Isabelle P. Le, Elizabeth Oosterhouse, Michael P. Hledin, Gabriel A. Marquez & Maria Burnatowska-Hledin. (2010) Phosphorylation of VACM-1/Cul5 by Protein Kinase A Regulates Its Neddylation and Antiproliferative Effect. Journal of Biological Chemistry 285:7, pages 4883-4895.
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A. Buchwalter, C. Van Dort, S. Schultz, R. Smith, I.P. Le, J.L. Abbott, E. Oosterhouse, A.E. Johnson, F. Hansen-Smith & M. Burnatowska-Hledin. (2008) Expression of VACM-1/cul5 mutant in endothelial cells induces MAPK phosphorylation and maspin degradation and converts cells to the angiogenic phenotype. Microvascular Research 75:2, pages 155-168.
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Ashleigh Sartor, J.B. Kossoris, R. Wilcox, R. Shearer, A.E. Zeneberg, P. Zhao, I. Lazdins & Maria A. Burnatowska-Hledin. (2006) Truncated form of VACM-1/cul-5 with an extended 3′ untranslated region stimulates cell growth via a MAPK-dependent pathway. Biochemical and Biophysical Research Communications 343:4, pages 1086-1093.
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Mélina L. Heuzé, Florence C. Guibal, Charles A. Banks, Joan W. Conaway, Ronald C. Conaway, Yvon E. Cayre, Arndt Benecke & Pierre G. Lutz. (2005) ASB2 Is an Elongin BC-interacting Protein That Can Assemble with Cullin 5 and Rbx1 to Reconstitute an E3 Ubiquitin Ligase Complex. Journal of Biological Chemistry 280:7, pages 5468-5474.
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Maria A Burnatowska-Hledin, Jennifer B Kossoris, Christa J Van Dort, Rebecca L Shearer, Ping Zhao, Douglas A Murrey, Jessica L Abbott, Charlene E Kan & Christopher C Barney. (2004) T47D breast cancer cell growth is inhibited by expression of VACM-1, a cul-5 gene. Biochemical and Biophysical Research Communications 319:3, pages 817-825.
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C. Van Dort, P. Zhao, K. Parmelee, B. Capps, A. Poel, L. Listenberger, J. Kossoris, B. Wasilevich, D. Murrey, P. Clare & M. Burnatowska-Hledin. (2003) VACM-1, a cul-5 gene, inhibits cellular growth by a mechanism that involves MAPK and p53 signaling pathways. American Journal of Physiology-Cell Physiology 285:6, pages C1386-C1396.
Crossref
Thomas E. Ceremuga, Xiang-Lan Yao & Joseph T. McCabe. (2003) Cullin-5 is ubiquitous in the rat brain. Neuroscience Letters 345:2, pages 121-125.
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