The interaction of fluorescein isothiocyanate with the ryanodine receptor/Ca2+ release channel of sarcoplasmic reticulum

I. Orr, C. Martin, R. Ashley, V. Shoshan-Barmatz

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13 Scopus citations

Abstract

Fluorescein 5'-isothiocyanate (FITC) markedly inhibited ryanodine binding to rabbit skeletal muscle junctional sarcoplasmic reticulum. Half-maximal inhibition was obtained with about 20 μM and complete inhibition by 80 μM FITC. Inhibition was enhanced in the presence of high salt and at alkaline pH. The pH dependence of the inactivation of ryanodine binding suggested that FITC bound to a very reactive lysine ε-amino group with a pK(α) of about 7.5 or above. Kinetic analysis of the time course of inactivation of ryanodine binding by various concentrations of FITC suggested that the inactivation resulted from the modification of 2 or more amino acid residues. The inhibition of ryanodine binding by FITC was partially prevented by ATP, ADP, adenyl imidodiphosphate, and 3-O-(benzoyl)-benzoyl-ATP (Bz-ATP) but not by AMP. FITC modification of sarcoplasmic reticulum membranes inhibited the photoaffinity labeling by [α-32P]Bz-ATP of the 450-kDa protein and the ryanodine receptor with half-maximal inhibition at about 100 μM. The results suggest that the inhibition of ryanodine binding is mainly due to FITC modification of sites which are not involved in ATP binding. The FITC moiety is bound to the 160-, 96-, 76-, and 60-kDa ryanodine receptor tryptic fragments, and the FITC site is apparently on the 21.5-, 18-, and 17-kDa fragments which are formed by the V8 protease. Covalent modification by FITC dramatically affected the activity of single Ca2+ release channels incorporated into planar lipid bilayers. FITC caused a marked increase in channel open probability mainly to a noisy ~60% subconductance state. FITC- modified channels were no longer affected by ryanodine but were still abolished by Mg2+ and ruthenium red. We suggest that FITC modifies reactive lysine residues involved in channel activation by transmembrane charge movement in the t-tubular system.

Original languageEnglish
Pages (from-to)1376-1382
Number of pages7
JournalJournal of Biological Chemistry
Volume268
Issue number2
StatePublished - 20 Jan 1993

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