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MUSCLE CELL BIOLOGY AND CELL MOTILITY

Conformational coupling of DHPR and RyR1 in skeletal myotubes is influenced by long-range allosterism: evidence for a negative regulatory module

¹Department of Anesthesia Research, Brigham and Women's Hospital, Harvard Medical School, Boston, Massachusetts 02115; ²Department of Molecular Biosciences, School of Veterinary Medicine, University of California, Davis, California 95616; ³Laboratory of Cellular Physiology, CeSI Center for Research on Ageing, Università degli Studi G. d'Annunzio, 66013 Chieti, Italy; and ⁴Department of Life Science, Kwangju Institute of Science and Technology, Kwangju 500-712, Korea

Submitted 1 May 2003 ; accepted in final form 11 September 2003

Four ryanodine receptor type 1 and 2 chimeras (R4, R9, R10, and R16) and their respective wild-type ryanodine receptors (type 1 and 2; wtRyR1 and wtRyR2) were expressed in dyspedic 1B5 to identify possible negative regulatory modules of the Ca²⁺ release channel that are under the influence of the dihydropyridine receptor (DHPR). Responses of intact 1B5 myotubes expressing each construct to caffeine in the absence or presence of either La³⁺ and Cd²⁺ or the organic DHPR blocker nifedipine were determined by imaging single 1B5 myotubes loaded with fluo 4. The presence of La³⁺ and Cd²⁺ or nifedipine in the external medium at concentrations known to block Ca²⁺ entry through the DHPRs significantly decreased the caffeine EC₅₀ of wtRyR1 (2.80 ± 0.12 to 0.83 ± 0.09 mM; P < 0.05). On the other hand, DHPR blockade did not significantly alter the caffeine EC₅₀ values of wtRyR2, chimeras R10 and R16, whereas the caffeine EC₅₀ values of chimeras R4 and R9 were significantly increased (1.27 ± 0.05 to 2.60 ± 0.16 mM, and 1.15 ± 0.03 to 2.11 ± 0.32 mM, respectively; P < 0.05). Despite the fact that all the chimeras form fully functional Ca²⁺ release channels in situ, sarcoplasmic reticulum (SR) containing R4, R10, and R16 did not possess high-affinity binding of [³H]ryanodine regardless of Ca²⁺ concentration. These results suggest the presence of an interaction between RyR1 and the DHPR, which is not present in RyR2, that contributes negative control of SR Ca²⁺ release induced by direct agonists such as caffeine. Although we were unable to define the negative module using RyR1-RyR2 chimeras, they further demonstrated that the RyR is very sensitive to long-range allosterism.

ryanodine receptor type 1; dihydropyridine receptor; excitation-contraction coupling; negative module

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