Erythrosin Isothiocyanate Selectively Labels Lysine464 within an ATP-Protectable Binding Site on the Ca-ATPase in Skeletal Sarcoplasmic Reticulum Membranes

Abstract

Conditions that permit the selective modification of an ATP-protectable site on the Ca-ATPase in skeletal sarcoplasmic reticulum (SR) membranes using erythrosin isothiocyanate (Er-ITC) have been identified. The major labeling site for Er-ITC has been identified using reversed-phase HPLC and positive FAB mass spectrometry after exhaustive tryptic digestion of the Er-ITC-modified Ca-ATPase. An ATP-protectable peptide corresponding to M₄₅₂NVFNTEVRNLSK₄₆₄VER₄₆₇ is modified by Er-ITC, the average mass of which is 2830.1 ± 0.3 Da. The exclusive modification of lysine residues indicates Lys₄₆₄ as the site of Er-ITC modification. Derivatization with Er-ITC diminishes the secondary activation of steady-state ATPase activity and the rate of dephosphorylation by millimolar concentrations of ATP. In contrast, in the presence of micromolar ATP concentrations Er-ITC modification of the Ca-ATPase does not affect (i) the apparent affinity of ATP, (ii) the maximal extent of phosphoenzyme formation by ATP, (iii) the rate of steady-state ATP hydrolysis, or (iv) the rate of dephosphorylation of the Ca-ATPase. Furthermore, ATP utilization by the Ca-ATPase is unaffected by detergent solubilization, irrespective of Er-ITC modification, indicating that the secondary activation of ATP hydrolysis involves a single Ca-ATPase polypeptide chain. Therefore, Er-ITC does not interfere with the normal structural transitions associated with phosphoenzyme decay. Rather, these results indicate that Er-ITC bound to Lys₄₆₄ interferes with either ATP binding to a low-affinity site or the associated structural transitions that modulate the rate of enzyme dephosphorylation.