Occurrence of atypical Ca 2+ transients in triadin-binding deficient-RYR1 mutants

Abstract

Triadin in the junctional sarcoplasmic reticulum (SR) of skeletal muscle cells has been suggested to interact with ryanodine receptor 1 (RYR1) via its KEKE motifs. Recently, we showed that amino acid residues D4878, D4907, and E4908 in RYR1 are critical for triadin-binding in vitro [J.M. Lee, S.H. Rho, D.W. Shin, C. Cho, W.J. Park, S.H. Eom, J. Ma, D.H. Kim, Negatively charged amino acids within the intraluminal loop of ryanodine receptor are involved in the interaction with triadin, J. Biol. Chem. 279 (2004) 6994–7000]. In order to test whether a disruption of the triadin-binding site(s) in RYR1 affects SR Ca 2+ release, alanine-substituted single (D4878A, D4907A, and E4908A) and triple (RYR1-TM) mutants of D4878, D4907, and E4908 were expressed in RYR1-null myotubes. Co-immunoprecipitation experiments showed a 50–60% decrease of triadin brought down in the D4907A and RYR1-TM complexes compared to the triadin–wtRYR1 complex. Ca 2+ imaging experiments using Fluo-4-AM showed atypical caffeine responses in myotubes expressing D4907A and RYR1-TM characterized by either a lack of or slower activation and faster inactivation of Ca 2+ transients. The results suggest that disruption of interaction between triadin and RYR1 impairs RYR1 function and SR Ca 2+ release.