Abstract
The mitogen-activated protein kinase (MAPK) cascade is a fundamental signaling pathway that regulates cell fate decisions in response to external stimuli. Several scaffold proteins bind directly to kinase components of this pathway and regulate their activation by growth factors. One of the best studied MAPK scaffolds is kinase suppressor of Ras1 (KSR1), which is induced by epidermal growth factor (EGF) to translocate to the plasma membrane where it activates extracellular signal-regulated kinase (ERK). While Ca2+ has been shown to modulate MAPK signaling, the molecular mechanisms by which this occurs are incompletely understood. Here we tested the hypothesis that Ca2+ alters MAPK activity at least in part via KSR1. Using several approaches, including fusion proteins, immunoprecipitation, confocal microscopy, and a cell-permeable chemical inhibitor, we investigated the functional interaction between KSR1 and calmodulin. In vitro analysis with pure proteins reveals that calmodulin binds directly to KSR1. Moreover, endogenous calmodulin and KSR1 co-immunoprecipitate from mammalian cell lysates. Importantly, Ca2+ is required for the association between calmodulin and KSR1, both in vitro and in cells. The cell-permeable calmodulin antagonist CGS9343B significantly reduced activation of ERK by EGF in mouse embryo fibroblasts that overexpress KSR1, but not in control cells. Moreover, CGS9343B impaired the ability of EGF to induce KSR1 translocation to the plasma membrane and to stimulate formation of KSR1-ERK and KSR1-pERK (phosphorylated ERK) complexes in cells. Collectively, our data identify a previously unrecognized mechanism by which the scaffold protein KSR1 couples Ca2+ and calmodulin signaling to the MAPK cascade.
Highlights
Leading to stimulation of Ras, which activates Raf, coupling the receptors to the mitogen-activated protein kinase (MAPK) cascade [2]
Consistent with our observations that antagonizing calmodulin prevents Epidermal growth factor (EGF) from stimulating translocation of kinase suppressor of Ras1 (KSR1) to the plasma membrane (Fig. 6, A and B), EGF was unable to enhance the formation of complexes between KSR1 and phosphorylated ERK (pERK) in cells preincubated with CGS9343B (Fig. 6, C and D)
In order to gain further insight into the molecular mechanism by which inhibition of calmodulin impairs the ability of KSR1 to mediate MAPK activation by EGF, we evaluated the effect of CGS9343B on the binding of calmodulin to KSR1 in cells
Summary
Leading to stimulation of Ras, which activates Raf, coupling the receptors to the MAPK cascade [2]. The specific calmodulin antagonist CGS9343B decreased the ability of EGF to induce ERK phosphorylation in cells that overexpress KSR1. We evaluated the effect of CGS9343B on activation of MAPK signaling induced by EGF in cells with different amounts of KSR1.
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