Protein Scaffolds Control Localized Protein Kinase Cζ Activity. Tobias, IS; Newton, AC J Biol Chem
291
13809-22
2015
Kivonat megmutatása
Atypical protein kinase C (aPKC) isozymes modulate insulin signaling and cell polarity, but how their activity is controlled in cells is not well understood. These enzymes are constitutively phosphorylated, insensitive to second messengers, and have relatively low activity. Here we show that protein scaffolds not only localize but also differentially control the catalytic activity of the aPKC PKCζ, thus promoting activity toward localized substrates and restricting activity toward global substrates. Using cellular substrate readouts and scaffolded activity reporters in live cell imaging, we show that PKCζ has highly localized and differentially controlled activity on the scaffolds p62 and Par6. Both scaffolds tether aPKC in an active conformation as assessed through pharmacological inhibition of basal activity, monitored using a genetically encoded reporter for PKC activity. However, binding to Par6 is of higher affinity and is more effective in locking PKCζ in an active conformation. FRET-based translocation assays reveal that insulin promotes the association of both p62 and aPKC with the insulin-regulated scaffold IRS-1. Using the aPKC substrate MARK2 as another readout for activity, we show that overexpression of IRS-1 reduces the phosphorylation of MARK2 and enhances its plasma membrane localization, indicating sequestration of aPKC by IRS-1 away from MARK2. These results are consistent with scaffolds serving as allosteric activators of aPKCs, tethering them in an active conformation near specific substrates. Thus, signaling of these intrinsically low activity kinases is kept at a minimum in the absence of scaffolding interactions, which position the enzymes for stoichiometric phosphorylation of substrates co-localized on the same protein scaffold. | 27143478
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PKA phosphorylation of p62/SQSTM1 regulates PB1 domain interaction partner binding. Christian, F; Krause, E; Houslay, MD; Baillie, GS Biochim Biophys Acta
1843
2765-74
2014
Kivonat megmutatása
p62, also known as SQSTM1, is a multi-domain signalling scaffold protein involved in numerous critical cellular functions such as autophagy, apoptosis and inflammation. Crucial interactions relevant to these functions are mediated by the N-terminal Phox and Bem1p (PB1) domain, which is divided into two interaction surfaces, one of predominantly acidic and one of basic character. Most known interaction partners, including atypical protein kinase C (aPKC), bind to the basic surface, and acidic-basic interactions at this interface also allow for p62 homopolymerisation. We identify here that the coupling of p62 to the cAMP signalling system is conferred by both the direct binding of cAMP degrading phosphodiesterase-4 (PDE4) to the acidic surface of the p62 PB1 domain and the phosphorylation of the basic surface of this domain by cAMP-dependent protein kinase (PKA). Such phosphorylation is a previously unknown means of regulating PB1 domain interaction partnerships by disrupting the interaction of p62 with basic surface binding partners, such as aPKCs, as well as p62 homopolymerisation. Thus, we uncover a new regulatory mechanism that connects cAMP signalling with the p62 multi-domain signalling scaffold and autophagy cargo receptor protein. | 25110345
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