Subconductance states in single-channel activity of skeletal muscle ryanodine receptors after removal of FKBP12.

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Subconductance states in single-channel activity of skeletal muscle ryanodine receptors after removal of FKBP12.

G P Ahern, P R Junankar and A F Dulhunty

Division of Neuroscience, John Curtin School of Medical Research, Australian National University, Canberra, Australia.

ABSTRACT

FKBP12 was removed from ryanodine receptors (RyRs) by incubationof rabbit skeletal muscle terminal cisternae membranes withrapamycin. The extent of FKBP12 removal was estimated by immunostainingWestern blots of terminal cisternae proteins. Single FKBP12-depletedRyR channels, incorporated into planar lipid bilayers, weremodulated by Ca2+, ATP, ryanodine, and ruthenium red in thecis chamber and opened frequently to the normal maximum conductanceof approximately 230 pS and to substate levels of approximately0.25, approximately 0.5, and approximately 0.75 of the maximumconductance. Substate activity was rarely seen in native RyRs.Ryanodine did not after the number of conductance levels inFKBP12-depleted channels, but, at a membrane potential of +40mV, reduced both the maximum and the substate conductances byapproximately 50%. FKBP12-stripped channels were activated bya 10-fold-lower [Ca2+] and inhibited by a 10-fold-higher [Ca2+],than RyRs from control-incubated and native terminal cisternaevesicles. The open probability (Po) of these FKBP12-deficientchannels was greater than that of control channels at 0.1 microMand 1 mM cis Ca2+ but no different at 10 microM cis Ca2+, wherechannels showed maximal Ca2+ activation. The approximately 0.25substate was less sensitive than the maximum conductance toinhibition by Ca2+ and was the dominant level in channels inhibitedby 1 mM cis Ca2+. The results show that FKBP12 coordinates thegating of channel activity in control and ryanodine-modifiedRyRs.

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