The CaMKII K42M and K42R mutations are equivalent in suppressing kinase activity and targeting.

Jonathan E Tullis Nicole L Rumian Carolyn Nicole Brown K Ulrich Bayer

PLoS One

Department of Pharmacology, University of Colorado Anschutz Medical Campus, Aurora, CO, United States of America.

Published: September 2020

CaMKII plays a crucial role in synaptic plasticity related to learning and memory.
Mutations K42M and K42R were analyzed, revealing they equally block critical functions like GluA1 phosphorylation and GluN2B binding.
Both mutations hinder CaMKII autophosphorylation and its movement to excitatory synapses, indicating they affect ATP binding similarly.

CaMKII is an important mediator of forms of synaptic plasticity that are thought to underly learning and memory. The CaMKII mutants K42M and K42R have been used interchangeably as research tools, although some reported phenotypic differences suggest that they may differ in the extent to which they impair ATP binding. Here, we directly compared the two mutations at the high ATP concentrations that exist within cells (~4 mM). We found that both mutations equally blocked GluA1 phosphorylation in vitro and GluN2B binding within cells. Both mutations also reduced but did not completely abolish CaMKII T286 autophosphorylation in vitro or CaMKII movement to excitatory synapses in neurons. Thus, despite previously suggested differences, both mutations appear to interfere with ATP binding to the same extent.

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http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7384616	PMC
http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0236478	PLOS

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The CaMKII K42M and K42R mutations are equivalent in suppressing kinase activity and targeting.

PLoS One

September 2020

Department of Pharmacology, University of Colorado Anschutz Medical Campus, Aurora, CO, United States of America.

Jonathan E Tullis Nicole L Rumian Carolyn Nicole Brown K Ulrich Bayer

Article Synopsis

CaMKII plays a crucial role in synaptic plasticity related to learning and memory.
Mutations K42M and K42R were analyzed, revealing they equally block critical functions like GluA1 phosphorylation and GluN2B binding.
Both mutations hinder CaMKII autophosphorylation and its movement to excitatory synapses, indicating they affect ATP binding similarly.

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