The Kinetics of Fesselin (Avian Synaptopodin 2) Binding to Smooth Muscle Myosin is Dependent on Calcium-Calmodulin

Abstract

Fesselin (or avian synaptopodin 2) is an actin binding protein that nucleates actin filament formation (Leinweber et al. 1999; Beall et al. 2001) and bundles actin filaments (Schroeter et al. 2013). The nucleating activity is inhibited by Ca2+-calmodulin (Schroeter et al. 2004). Fesselin also binds myosin with an affinity of 2 x 106 M−1 at 50 mM ionic strength (Schroeter & Chalovich 2005). That binding increases the length and width of myosin filaments, and reduces the rate of dissociation of myosin filaments and actin-myosin complexes by ATP (Kingsbury et al. 2013). Fesselin labeled with IANBD produced a fluorescence increase upon binding to smooth muscle myosin or S1. The apparent rate constant for the fluorescence change increased with increasing concentrations of myosin or S1 in a hyperbolic fashion (105 mM ionic strength, 10 deg C). Binding to myosin began with the rapid formation of a low affinity intermediate followed by a second step having an observed rate constant (k2 + k-2) of 30/sec. Several observations suggested that the binding of fesselin to myosin was affected by calmodulin and calcium. The apparent rate constants for both processes in the binding of IANBD-fesselin to S1 were 2-fold faster in the absence of calcium. Binding of IANBD fesselin to intact myosin was complex in the presence of calcium with a rapid increase in fluorescence followed by a slower decrease; that behavior was not observed in the presence of calcium but absence of calmodulin. Ca2+-calmodulin may play roles in the formation of actin filaments, myosin filaments and actin-myosin complexes through fesselin.