Emil Peter Thrane Hertz scite author profile

Dynamic protein phosphorylation is a fundamental mechanism regulating biological processes in all organisms. Protein phosphatase 2A (PP2A) is the main source of phosphatase activity in the cell, but the molecular details of substrate recognition are unknown. Here, we report that a conserved surface-exposed pocket on PP2A regulatory B56 subunits binds to a consensus sequence on interacting proteins, which we term the LxxIxE motif. The composition of the motif modulates the affinity for B56, which in turn determines the phosphorylation status of associated substrates. Phosphorylation of amino acid residues within the motif increases B56 binding, allowing integration of kinase and phosphatase activity. We identify conserved LxxIxE motifs in essential proteins throughout the eukaryotic domain of life and in human viruses, suggesting that the motifs are required for basic cellular function. Our study provides a molecular description of PP2A binding specificity with broad implications for understanding signaling in eukaryotes.

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Genetic insights into biological mechanisms governing human ovarian ageing

Ruth¹,

Day²,

Hussain³

et al. 2021

Nature

251

182

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Distinct kinetics of serine and threonine dephosphorylation are essential for mitosis

et al. 2017

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Protein phosphatase 2A (PP2A) in complex with B55 regulatory subunits reverses cyclin-dependent kinase 1 (Cdk1) phosphorylations at mitotic exit. Interestingly, threonine and serine residues phosphorylated by Cdk1 display distinct phosphorylation dynamics, but the biological significance remains unexplored. Here we demonstrate that the phosphothreonine preference of PP2A-B55 provides an essential regulatory element of mitotic exit. To allow rapid activation of the anaphase-promoting complex/cyclosome (APC/C) co-activator Cdc20, inhibitory phosphorylation sites are conserved as threonines while serine substitutions delay dephosphorylation and Cdc20 activation. Conversely, to ensure timely activation of the interphase APC/C co-activator Cdh1, inhibitory phosphorylation sites are conserved as serines, and threonine substitutions result in premature Cdh1 activation. Furthermore, rapid translocation of the chromosomal passenger complex to the central spindle is prevented by mutation of a single phosphorylated threonine to serine in inner centromere protein (INCENP), leading to failure of cytokinesis. Altogether, the findings of our work reveal that the inherent residue preference of a protein phosphatase can provide temporal regulation in biological processes.

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