Effects of blebbistatin on force production, actin motility and the force-velocity relation produced by myosin II filaments and myofibrils.

Abstract

Blebbistatin is a myosin II-specific inhibitor that is often used to study the relation between force generation and Pi release. The goal of this study was to investigate the effects of blebbistatin on force production and the actin motility while interacting with arrays of myosin motors. We used myosin filaments isolated from mammalian smooth muscles, rabbit psoas and the anterior byssus retractor (ABRM) muscles extracted from fresh Mytilus edulis in different experiments. We also used whole myofibrils isolated from the rabbit psoas. The force during myosin-actin interactions was measured with a system of micro-fabricated cantilevers, and the sliding velocity of actin was measured with a standard in-vitro motility assay. The force-velocity relation was measured in myofibrils with atomic force cantilevers. The force produced by the myosin filaments upon interaction with actin decreased with increasing concentrations of blebbistatin (5 μM-12.5 μM). The force produced by smooth and skeletal muscle myosin filaments were 95.93 ± 12.05 pN/μm before blebbistatin treatment, 71.45 ± 5.94 pN/μm with 5 μm blebbistatin, 62.05 ± 9.44 pN/μm with 7.5 μM blebbistatin, 38.28 ± 8.77 pN/μm with 10 μm blebbistatin and dropped to zero with 12.5 μM blebbistatin. All these differences were significantly different (p<0.0001). Sliding velocity of actin filaments also decreased consistently with increasing concentrations of blebbistatin. Before treatment, filaments slid over HMM at 3.68 ± 0.06 μm/s, decreasing to 2.30 ± 0.056 μm/s with 1 μM, 1.27 ± 0.043 μm/s with 5 μM, and 1.44 ± 0.032 μm/s with 30 μM. The maximal velocity decrease was observed at 5 μM of blebbistatin. These differences were significantly different (P<0.0001). There was a downward shift in the force-velocity relation in myofibrils treated with blebbistatin. These results suggest that blebbistatin regulates the mechanics of myosin motors working collectively in different experimental preparations.