Voltage-sensitive Adenylyl Cyclase Activity in Cultured Neurons. A CALCIUM-INDEPENDENT PHENOMENON

Catalytic subunits of mammalian adenylyl cyclases have been proposed to contain 12 transmembrane domains, a property shared with some voltage-sensitive ion channels. Here we report that adenylyl cyclase activity in cerebellar neurons is synergistically stimulated by depolarizing agents and β-adrener...

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Veröffentlicht in:The Journal of biological chemistry 1995-06, Vol.270 (24), p.14340-14346
Hauptverfasser: Reddy, Raghava, Smith, Dave, Wayman, Gary, Wu, Zhiliang, Villacres, Enrique C., Storm, Daniel R.
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Sprache:eng
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Zusammenfassung:Catalytic subunits of mammalian adenylyl cyclases have been proposed to contain 12 transmembrane domains, a property shared with some voltage-sensitive ion channels. Here we report that adenylyl cyclase activity in cerebellar neurons is synergistically stimulated by depolarizing agents and β-adrenergic receptor activation. This phenomenon is Ca2+-independent and not attributable to Ca2+-stimulated adenylyl cyclase activity. Cholera toxin and forskolin also synergistically stimulate adenylyl cyclase activity in combination with depolarizing agents. We hypothesize that conformational changes in the catalytic subunit of the enzymes caused by changes in the membrane potential may enhance stimulation of adenylyl cyclases by the guanylyl nucleotide stimulatory protein. This novel mechanism for regulation of adenylyl cyclases generates robust cAMP signals that may contribute to various neuromodulatory events including some forms of neuroplasticity.
ISSN:0021-9258
1083-351X
DOI:10.1074/jbc.270.24.14340