Phosphorylation of NF-kappaB1/p105 by oncoprotein kinase Tpl2: implications for a novel mechanism of Tpl2 regulation

Abstract

The oncoprotein kinase Tpl2 plays an essential role in macrophage activation by the bacterial component lipopolysaccharide (LPS). In response to LPS stimulation, Tpl2 phosphorylates a downstream kinase, MEK1, leading to the activation of ERK signaling pathway. Recent studies demonstrate that the NF-kappaB1 precursor protein p105 functions as an inhibitor of Tpl2 and that the LPS-stimulated Tpl2 activation requires p105 degradation. However, how p105 inhibits the signaling function of Tpl2 is not completely understood. We show here that p105 does not inhibit the intrinsic kinase activity of Tpl2. When complexed with p105, Tpl2 remains catalytically active and uses p105 as a substrate. However, the p105-bound Tpl2 is unable to phosphorylate its physiological target, MEK1. These findings suggest that p105 functions as a competitive inhibitor of Tpl2 that blocks its access by MEK1.