A Transgenic Myogenic Cell Line Lacking Ryanodine Receptor Protein for Homologous Expression Studies: Reconstitution of Ry1R Protein and Function

doi:10.1083/jcb.140.4.843

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J. Cell Biol., Volume 140, Number 4, February 23, 1998 843-851

A Transgenic Myogenic Cell Line Lacking Ryanodine Receptor Protein for Homologous Expression Studies: Reconstitution of Ry₁R Protein and Function

R.A. Moore,^* >H. Nguyen,^§ >J. Galceran, >I.N. Pessah,^* and >P.D. Allen^§

^* Department of Molecular Biosciences, School of Veterinary Medicine, University of California, Davis, California; Department of Anesthesia, Brigham and Women's Hospital, Boston, Massachusetts; and ^§ Department of Cardiology, Children's Hospital, Boston, Massachusetts

Abstract. CCS embryonic stem (ES) cells possessing two mutant alleles (ry₁r $-$ /ry₁r $-$ ) for the skeletal muscle ryanodine receptor(RyR) have been produced and injected subcutaneously into severelycompromised immunodeficient mice to produce teratocarcinomas inwhich Ry₁R expression is absent. Several primary fibroblast celllines were isolated and subcloned from one of these tumors thatcontain the knockout mutation in both alleles and exhibit a doublingtime of 18-24 h, are not contact growth inhibited, do not exhibitdrastic morphological change upon serum reduction, and possessthe normal complement of chromosomes. Four of these fibroblastclones were infected with a retrovirus containing the cDNA encodingmyoD and a puromycin selection marker. Several (1-2 µg/ml) puromycin-resistantsubclones from each initial cell line were expanded and examinedfor their ability to express myoD and to form multinucleated myotubesthat express desmin and myosin upon removal of mitogens. One ofthese clones (1B5 cells) was selected on this basis for furtherstudy. These cells, upon withdrawal of mitogens for 5-7 d, wereshown by Western blot analysis to express key triadic proteins,including skeletal triadin, calsequestrin, FK506-binding protein,12 kD, sarco(endo)plasmic reticulum calcium-ATPase1, and dihydropyridinereceptors. Neither RyR isoform protein, Ry₁R (skeletal), Ry₂R(cardiac), nor Ry₃R (brain), were detected in differentiated 1B5cells. Measurements of intracellular Ca²⁺ by ratio fluorescence imaging of fura-2-loaded cells revealedthat differentiated 1B5 cells exhibited no responses to K⁺ (40 mM) depolarization, ryanodine (50-500 µM), or caffeine (20-100mM). Transient transfection of the 1B5 cells with the full-lengthrabbit Ry₁R cDNA restored the expected responses to K⁺ depolarization, caffeine, and ryanodine. Depolarization-inducedCa²⁺ release was independent of extracellular Ca²⁺, consistent with skeletal-type excitation-contraction coupling.Wild-type Ry₁R expressed in 1B5 cells were reconstituted intobilayer lipid membranes and found to be indistinguishable fromchannels reconstituted from rabbit sarcoplasmic reticulum withrespect to unitary conductance, open dwell times, and responsesto ryanodine and ruthenium red. The 1B5 cell line provides a powerfuland easily managed homologous expression system in which to studyhow Ry₁R structure relates to function.

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