|
|
Edmond Y.W. Chan, Stacey L. Stang, Drell A. Bottorff, James C. Stone
J Clin Invest. 1999;
103(9):1337
doi:10.1172/JCI5474
Abstract |
Full text
| PDF
T
he small GTPase Ras is converted to the active, GTP-bound state during exposure of vertebrate cells to hypothermic stress. This activation occurs more rapidly than can be accounted for by spontaneous nucleotide exchange. Ras–guanyl nucleotide exchange factors and Ras GTPase–activating proteins have significant activity at 0°C in vitro, leading to the hypothesis that normal Ras regulators influence the relative amounts of Ras-GTP and Ras-GDP at low temperatures in vivo. When hypothermic cells are warmed to 37°C, the Raf-Mek-Erk protein kinase cascade is activated. After prolonged hypothermic stress, followed by warming to physiologic temperature, cultured fibroblasts assume a rounded morphology, detach from the substratum, and die. All of these biologic responses are attenuated by pharmacologic inhibition of Mek. Previously, it had been found that low temperature blocks acute growth factor signaling to Erk. In the present study, we found that this block occurs at the level of Raf activation. Temperature regulation of Ras signaling could help animal cells respond appropriately to hypothermic stress, and Ras-Erk signaling can be manipulated to improve the survival of cells in cold storage.
Citation information
This citation data is accumulated from CrossRef, which receives citation information from participating publishers, including this journal.
Not all publishers participate in CrossRef, so this information is not comprehensive.
Additionally, data may not reflect the most current citations to this article,
and the data may differ from citation information available from other sources
(for example, Google Scholar, Web of Science, and Scopus).
Total citations by year
in CrossRef
Citations to this article
in CrossRef
(15)
| Title and authors |
Publication |
Year |
Hypothermic organ preservation by static storage methods: Current status and a view to the future
Jonathan F. McAnulty
|
Cryobiology
|
2010 |
MDM2-related responses in 3T3-L1 adipocytes exposed to cooling and subsequent rewarming
Yasuhito Ohsaka, Hoyoku Nishino
|
Cryobiology
|
2010 |
Prevention of cold ischemia/rewarming-induced ERK 1/2, p38 kinase and HO-1 activation by trophic factor supplementation of UW solution
Young Sam Kwon, John D. Foley, Paul Russell, Jonathan F. McAnulty, Christopher J. Murphy
|
Cryobiology
|
2008 |
Trophic Factor Supplementation Protects Kidney Tubule Cells from Cold Ischemic Injury and Decreases Free Radical Production during Rewarming
Kenneth R. Waller, John D. Foley, Jonathan McAnulty, Christopher J. Murphy
|
Cell Preservation Technology
|
2007 |
Hypothermia treatment potentiates ERK1/2 activation after traumatic brain injury
Coleen M. Atkins, Anthony A. Oliva, Ofelia F. Alonso, Shaoyi Chen, Helen M. Bramlett, Bing-Ren Hu, W. Dalton Dietrich
|
European Journal of Neuroscience
|
2007 |
Inhibition of ERK1/2 Activation by Phenolic Antioxidants Protects Kidney Tubular Cells During Cold Storage
Paulina Karhum??ki, Sari L. Tiitinen, Hannu Turpeinen, Jaakko Parkkinen
|
Transplantation
|
2007 |
Protective Effect of PEG 35 000 Da on Renal Cells: Paradoxical Activation of JNK Signaling Pathway During Cold Storage.
D. Dutheil, I. Rioja-Pastor, C. Tallineau, J.-M. Goujon, T. Hauet, G. Mauco, I. Petit-Paris
|
Am J Transplant
|
2006 |
Activation of Mitogen-activated Protein Kinases During Human Lung Transplantation
Shoji Sakiyama, Julia Hamilton, Bing Han, Yang Jiao, Grace Shen-Tu, Marc de Perrot, Shaf Keshavjee, Mingyao Liu
|
The Journal of Heart and Lung Transplantation
|
2005 |
Hypothermia and ERK activation after cardiac arrest
Brian J. D'Cruz, Eric S. Logue, Eric Falke, Donald B. DeFranco, Clifton W. Callaway
|
Brain Research
|
2005 |
Cryopreservation of pig granulosa cells: effect of FSH addition to freezing medium
M. Tirelli, G. Basini, F. Grasselli, F. Bianco, C. Tamanini
|
Domestic Animal Endocrinology
|
2005 |
|
