Sarah Lemaire scite author profile

Inhibitor-2 (I2) ranks amongst the most ancient regulators of protein phosphatase-1 (PP1). It is a small, intrinsically disordered protein that was originally discovered as a potent inhibitor of PP1. However, later investigations also characterized I2 as an activator of PP1 as well as a chaperone for PP1 folding. Numerous studies disclosed the importance of I2 for diverse cellular processes but did not describe a unifying molecular principle of PP1 regulation. We have re-analyzed the literature on I2 in the light of current insights of PP1 structure and regulation. Extensive biochemical data, largely ignored in the recent I2 literature, provide substantial indirect evidence for a role of I2 as a loader of active-site metals. In addition, I2 appears to function as a competitive inhibitor of PP1 in higher eukaryotes. The published data also demonstrate that several segments of I2 that remain unstructured in the PP1 : I2 complex are in fact essential for PP1 regulation. Together, the available data identify I2 as a dynamic activity-modulator of PP1.

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Protein phosphatase 1: life‐course regulation by SDS22 and Inhibitor‐3

Cao

Lemaire

2021

The FEBS Journal

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Protein phosphatase 1 (PP1) is expressed in all eukaryotic cells and catalyzes a sizable fraction of protein Ser/Thr dephosphorylation events. It is tightly regulated in space and time through association with a wide array of Regulatory-Interactors-of-Protein-Phosphatase-One (RIPPOs).Suppressor-of-Dis2-number 2 (SDS22) and Inhibitor-3 (I3), which form a ternary complex with PP1, are the first two evolved and most widely expressed RIPPOs. Their deletion causes mitoticarrest phenotypes and is lethal in some organisms. The role of SDS22 and I3 in PP1 regulation has been a mystery for decades as they were independently identified as both activators and inhibitors of PP1. This conundrum has largely been solved by recent reports showing that SDS22 and I3 control multiple steps of the life course of PP1. Indeed, they contribute to (1) the stabilization and activation of newly translated PP1, (2) the translocation of PP1 to the nucleus, and (3) the storage of PP1 as a reserve for holoenzyme assembly. Preliminary evidence suggests that SDS22 and I3 may also function as scavengers of released or aged PP1 for re-use in holoenzyme assembly or proteolytical degradation, respectively. Hence, SDS22 and I3 are emerging as master regulators of the life course of PP1.

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Hitting the Right Target? Pricing and Advertising Strategies in Digital Markets

Cecere

Lemaire²,

Sand‐Zantman

2022

SSRN Journal

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Sarah Lemaire

Vimentin expression predicts the occurrence of metastases in non small cell lung carcinomas

Protein phosphatase-1: dual activity regulation by Inhibitor-2

Protein phosphatase 1: life‐course regulation by SDS22 and Inhibitor‐3

Hitting the Right Target? Pricing and Advertising Strategies in Digital Markets

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