Multifunctional Ca2+/calmodulin-dependent protein kinase

Multifunctional Ca²⁺/calmodulin-dependent protein kinase (CaM kinase) is a prominent mediator of neurotransmitters which elevate Ca²⁺. It coordinates cellular responses to external stimuli by phosphorylating proteins involved in neurotransmitter synthesis, neurotransmitter release, carbohydrate metabolism, ion flux and neuronal plasticity. Structure/function studies of CaM kinase have provided insights into how it decodes Ca²⁺ signals. The kinase is kept relatively inactive in its basal state by the presence of an autoinhibitory domain. Binding of Ca²⁺/calmodulin eliminates this inhibitory constraint and allows the kinase to phosphorylate its substrates, as well as itself. This autophosphorylation significantly slows dissociation of calmodulin, thereby trapping calmodulin even when Ca²⁺ levels are subthreshold. The kinase may respond particularly wel to multiple Ca²⁺ spikes since trapping may enable a spike frequency-dependent recruitment of calmodulin with each successive Ca²⁺ spike leading to increased activation of the kinase. Once calmodulin dissociates, CaM kinase remains partially active until it is dephosphorylated, providing for an additional period in which its response to brief Ca²⁺ transients is potentiated.Special issue dedicated to Dr. Paul Greengard.