Abstract
The stress-activated protein kinase JNK plays an important role in the stability and activities of key regulatory proteins, including c-Jun, ATF2, and p53. To better understand mechanisms underlying the regulation of JNK activities, we studied the effect of expression of the amino-terminal JNK fragment (N-JNK; amino acids 1-206) on the stability and activities of JNK substrates under nonstressed growth conditions, as well as after exposure to hydrogen peroxide. Mouse fibroblasts that express N-JNK under tetracycline-off (tet-off) inducible promoter exhibited elevated expression of c-Jun, ATF2, and p53 upon tetracycline removal. This increased coincided with elevated transcriptional activities of p53, but not of c-Jun or ATF2, as reflected in luciferase activities of p21(Waf1/Cip1)-Luc, AP1-Luc, and Jun2-Luc, respectively. Expression of N-JNK in cells that were treated with H(2)O(2) impaired transcriptional output as reflected in a delayed and lower level of c-Jun-, limited ATF2-, and reduced p53-transcriptional activities. N-JNK elicited an increase in H(2)O(2)-induced cell death, which is p53-dependent, because it was not seen in p53 null cells yet could be observed upon coexpression of p53 and N-JNK. The ability to alter the activity of ATF2, c-Jun, and p53 and the degree of stress-induced cell death by a JNK-derived fragment identifies new means to elucidate the nature of JNK regulation and to alter the cellular response to stress.
Highlights
To better understand mechanisms underlying the regulation of JNK activities, we studied the effect of expression of the amino-terminal JNK fragment (N-JNK; amino acids 1–206) on the stability and activities of JNK substrates under nonstressed growth conditions, as well as after exposure to hydrogen peroxide
Among mechanisms underlying the regulation of stress kinases is their dimerization and abrogation of intramolecular inhibition, which are dependent upon their phosphorylation by their respective upstream kinases [39]
Neither mechanism was shown to exist for JNK, studies with other members of the mitogen-activated protein kinases (MAPK) family, which share structural and functional similarities with JNK, imply that such changes may take place in the JNK family of stress kinases
Summary
Whereas ERK2 is found as a monomer in resting cells, ERK2 exists primarily as a dimer in stimulated cells [39] Based on their structural homology, p38 and JNK/ SAPK may form homodimers. Unlike ERKs, which are the best studied MAPKs, the nature of JNK domains and their respective functions remain unclear. As an approach to elucidate the nature of JNK domains involved in targeting ubiquitination and kinase activities, we have monitored the cellular changes elicited by a 206-amino acid amino-terminal fragment of JNK (N-JNK). This fragment contains the kinase domain and, based on its homology with
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