Roles of the Drosophila SK Channel (dSK) in Courtship Memory

A role for SK channels in synaptic plasticity has been very well-characterized. However, in the absence of simple genetic animal models, their role in behavioral memory remains elusive. Here, we take advantage of Drosophila melanogaster with its single SK gene (dSK) and well-established courtship memory assay to investigate the contribution of this channel to memory. Using two independent dSK alleles, a null mutation and a dominant negative subunit, we show that while dSK negatively regulates the acquisition of short-term memory 30 min after a short training session, it is required for normal long-term memory 24 h after extended training. These findings highlight important functions for dSK in courtship memory and suggest that SK channels can mediate multiple forms of behavioral plasticity

Selective Phosphorylation Modulates the PIP2 Sensitivity of the CaM-SK Channel Complex

Phosphatidylinositol bisphosphate (PIP2) regulates the activities of many membrane proteins including ion channels through direct interactions. However, the affinity of PIP2 is so high for some channel proteins that its physiological role as a modulator has been questioned. Here we show that PIP2 is an important cofactor for activation of small conductance Ca2+-activated potassium channels (SK) by Ca2+-bound calmodulin (CaM). Removal of the endogenous PIP2 inhibits SK channels. The PIP2-binding site resides at the interface of CaM and the SK C-terminus. We further demonstrate that the affinity of PIP2 for its target proteins can be regulated by cellular signaling. Phosphorylation of CaM T79, located adjacent to the PIP2-binding site, by Casein Kinase 2 reduces the affinity of PIP2 for the CaM-SK channel complex by altering the dynamic interactions among amino acid residues surrounding the PIP2-binding site. This effect of CaM phosphorylation promotes greater channel inhibition by G-protein-mediated hydrolysis of PIP2

Relationships between selectivity and affinity to SKCa channels for natural and non-natural peptides

20th Meeting of the French-Society-of-Toxinology (SFET), Inst Pasteur, Paris, FRANCE, DEC 10-11, 2012International audienceno abstrac

RELATIONSHIP BETWEEN BINDING CHARACTERISTIC OF A NON-NATURAL PEPTIDE, LEI-DAB7, AND DISTRIBUTION OF SK SUBUNITS IN THE RAT CENTRAL NERVOUS SYSTEM

22nd Meeting of the French-Society-of-Toxinology (SFET), Pasteur Inst, Paris, FRANCE, DEC 10-11, 2014International audienceno abstrac