Journal
PFLUGERS ARCHIV-EUROPEAN JOURNAL OF PHYSIOLOGY
Volume 456, Issue 3, Pages 561-572Publisher
SPRINGER
DOI: 10.1007/s00424-007-0439-4
Keywords
potassium channel; heme; hemeoxygenase; carbon monoxide; gas transmitter
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Funding
- MRC [G0600821] Funding Source: UKRI
- British Heart Foundation [rg/03/001] Funding Source: Medline
- Medical Research Council [G0600821] Funding Source: Medline
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Carbon monoxide (CO) is a potent activator of large conductance, calcium-dependent potassium (BK(Ca)) channels of vascular myocytes and carotid body glomus cells or when heterologously expressed. Using the human BK(Ca) channel alpha(1)-subunit (hSlo1; KCNMA1) stably and transiently expressed in human embryonic kidney 293 cells, the mechanism and structural basis of channel activation by CO was investigated in inside-out, excised membrane patches. Activation by CO was concentration dependent (EC(50) similar to 20 mu M), rapid, reversible, and evoked a shift in the V(0.5) of -20 mV. CO evoked no changes in either single channel conductance or in deactivation rate but augmented channel activation rate. Activation was independent of the redox state of the channel, or associated compounds/protein partners, and was partially dependent on [Ca(2+)](i) in the physiological range (100-1,000 nM). Importantly, CO super-stimulated BK(Ca) activity even in saturating [Ca(2+)](i). Single or double mutation of two histidine residues previously implicated in CO sensing did not suppress CO activation but replacing the S9-S10 module of the C-terminal of Slo1 with that of Slo3 completely prevented the action of CO. These findings show that a motif in the S9-S10 part of the C-terminal is essential for CO activation and suggest that this gas transmitter activates the BK(Ca) channel by redox-independent changes in gating.
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