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  • Further Evidence of the Melatonin Calmodulin Interaction: Effect on CaMKII Activity.

Further Evidence of the Melatonin Calmodulin Interaction: Effect on CaMKII Activity.

International journal of molecular sciences (2022-03-11)
Jesús Argueta, Héctor Solís-Chagoyán, Rosa Estrada-Reyes, Luis A Constantino-Jonapa, Julián Oikawa-Sala, Javier Velázquez-Moctezuma, Gloria Benítez-King
ABSTRACT

Melatonin (MEL) is a pleiotropic indolamine that reaches multiple intracellular targets. Among these, MEL binds to calmodulin (CaM) with high affinity. In presence of Ca2+, CaM binds to CaM-dependent kinase II (CaMKII). The Ca2+-CaM/CaMKII pathway regulates a myriad of brain functions in different cellular compartments. Evidence showing the regulation of this cellular pathway by MEL is scarce. Thus, our main objective was to study the interaction of MEL with CaM and its effects on CaMKII activity in two microenvironments (aqueous and lipidic) naturally occurring within the cell. In addition, colocalization of MEL with CaM in vivo was explored in mice brain hippocampus. In vitro CaM-MEL interaction and the structural conformations of CaM in the presence of this indoleamine were assessed through electrophoretic mobility and isoelectric point. The functional consequence of this interaction was evaluated by measuring CaMKII activity. Ca2+-CaM-MEL increased the activity of CaMKII in aqueous buffer but reduced the kinase activity in lipid buffer. Importantly, MEL colocalizes in vivo with Ca2+-CaM in the hippocampus. Our evidence suggests that MEL regulates the key cellular Ca2+-CaM/CaMKII pathway and might explain why physiological MEL concentrations reduce CaMKII activity in some experimental conditions, while in others it drives biological processes through activation of this kinase.

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Calmodulin, Bovine Brain, High Purity, Calmodulin is a ubiquitous Ca2+-binding protein that serves as a physiological effector of a wide range of biological processes. Purified from bovine brain.