Journal
JOURNAL OF BIOLOGICAL CHEMISTRY
Volume 282, Issue 43, Pages 31558-31568Publisher
AMER SOC BIOCHEMISTRY MOLECULAR BIOLOGY INC
DOI: 10.1074/jbc.M702866200
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Funding
- NCI NIH HHS [P50 CA097247-05, P50 CA097247] Funding Source: Medline
- NINDS NIH HHS [R01-NS36692, R01 NS036692, R01 NS031234, R01 NS036692-08, R01-NS31234, R01 NS031234-14A1] Funding Source: Medline
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Glioma cells prominently express a unique splice variant of a large conductance, calcium-activated potassium channel (BK channel). These channels transduce changes in intracellular calcium to changes of K+ conductance in the cells and have been implicated in growth control of normal and malignant cells. The Ca2+ increase that facilitates channel activation is thought to occur via activation of intracellular calcium release pathways or influx of calcium through Ca2+-permeable ion channels. We show here that BK channel activation involves the activation of inositol 1,4,5-triphosphate receptors (IP3R), which localize near BK channels in specialized membrane domains called lipid rafts. Disruption of lipid rafts with methyl-beta-cyclodextrin disrupts the functional association of BK channel and calcium source resulting in a > 50% reduction in K+ conductance mediated by BK channels. The reduction of BK current by lipid raft disruption was overcome by the global elevation of intracellular calcium through inclusion of 750 nM Ca2+ in the pipette solution, indicating that neither the calcium sensitivity of the channel nor their overall number was altered. Additionally, pretreatment of glioma cells with 2-aminoethoxydiphenyl borate to inhibit IP(3)Rs negated the effect of methyl-beta-cyclodextrin, providing further support that IP(3)Rs are the calcium source for BK channels. Taken together, these data suggest a privileged association of BK channels in lipid raft domains and provide evidence for a novel coupling of these Ca2+-sensitive channels to their second messenger source.
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