A Shimamura1, B A Ballif, S A Richards, J Blenis. 1. Department of Cell Biology, Department of Pediatric Hematology and Oncology, Harvard Medical School, Dana Farber Cancer Institute, Boston 02115, USA.
Abstract
BACKGROUND: Growth factors activate an array of cell survival signaling pathways. Mitogen-activated protein (MAP) kinases transduce signals emanating from their upstream activators MAP kinase kinases (MEKs). The MEK-MAP kinase signaling cassette is a key regulatory pathway promoting cell survival. The downstream effectors of the mammalian MEK-MAP kinase cell survival signal have not been previously described. RESULTS: We identify here a pro-survival role for the serine/threonine kinase Rsk1, a downstream target of the MEK-MAP kinase signaling pathway. In cells that are dependent on interleukin-3 (IL-3) for survival, pharmacological inhibition of MEKs antagonized the IL-3 survival signal. In the absence of IL-3, a kinase-dead Rsk1 mutant eliminated the survival effect afforded by activated MEK. Conversely, a novel constitutively active Rsk1 allele restored the MEK-MAP kinase survival signal. Experiments in vitro and in vivo demonstrated that Rsk1 directly phosphorylated the pro-apoptotic protein Bad at the serine residues that, when phosphorylated, abrogate Bad's pro-apoptotic function. Constitutively active Rsk1 caused constitutive Bad phosphorylation and protection from Bad-modulated cell death. Kinase-inactive Rsk1 mutants antagonize Bad phosphorylation. Bad mutations that prevented phosphorylation by Rsk1 also inhibited Rsk1-mediated cell survival. CONCLUSIONS: These data support a model in which Rsk1 transduces the mammalian MEK-MAP kinase signal in part by phosphorylating Bad.
BACKGROUND: Growth factors activate an array of cell survival signaling pathways. Mitogen-activated protein (MAP) kinases transduce signals emanating from their upstream activators MAP kinase kinases (MEKs). The MEK-MAP kinase signaling cassette is a key regulatory pathway promoting cell survival. The downstream effectors of the mammalianMEK-MAP kinase cell survival signal have not been previously described. RESULTS: We identify here a pro-survival role for the serine/threonine kinase Rsk1, a downstream target of the MEK-MAP kinase signaling pathway. In cells that are dependent on interleukin-3 (IL-3) for survival, pharmacological inhibition of MEKs antagonized the IL-3 survival signal. In the absence of IL-3, a kinase-dead Rsk1 mutant eliminated the survival effect afforded by activated MEK. Conversely, a novel constitutively active Rsk1 allele restored the MEK-MAP kinase survival signal. Experiments in vitro and in vivo demonstrated that Rsk1 directly phosphorylated the pro-apoptotic protein Bad at the serine residues that, when phosphorylated, abrogate Bad's pro-apoptotic function. Constitutively active Rsk1 caused constitutive Bad phosphorylation and protection from Bad-modulated cell death. Kinase-inactive Rsk1 mutants antagonize Bad phosphorylation. Bad mutations that prevented phosphorylation by Rsk1 also inhibited Rsk1-mediated cell survival. CONCLUSIONS: These data support a model in which Rsk1 transduces the mammalianMEK-MAP kinase signal in part by phosphorylating Bad.
Authors: Ann M Ranger; Jiping Zha; Hisashi Harada; Sandeep Robert Datta; Nika N Danial; Andrew P Gilmore; Jeffery L Kutok; Michelle M Le Beau; Michael E Greenberg; Stanley J Korsmeyer Journal: Proc Natl Acad Sci U S A Date: 2003-07-22 Impact factor: 11.205