Abstract
Subcellular dynamics of non-muscle myosin 2 (NM2) is crucial for a broad-array of cellular functions. To unveil mechanisms of NM2 pharmacological control, we determined how the dynamics of NM2 diffusion is affected by NM2′s allosteric inhibitors, i.e. blebbistatin derivatives, as compared to Y-27632 inhibiting ROCK, NM2′s upstream regulator. We found that NM2 diffusion is markedly faster in central fibers than in peripheral stress fibers. Y-27632 accelerated NM2 diffusion in both peripheral and central fibers, whereas in peripheral fibers blebbistatin derivatives slightly accelerated NM2 diffusion at low, but markedly slowed it at high inhibitor concentrations. In contrast, rapid NM2 diffusion in central fibers was unaffected by direct NM2 inhibition. Using our optopharmacological tool, Molecular Tattoo, sub-effective concentrations of a photo-crosslinkable blebbistatin derivative were increased to effective levels in a small, irradiated area of peripheral fibers. These findings suggest that direct allosteric inhibition affects the diffusion profile of NM2 in a markedly different manner compared to the disruption of the upstream control of NM2. The pharmacological action of myosin inhibitors is channeled through autonomous molecular processes and might be affected by the load acting on the NM2 proteins.
Highlights
Subcellular dynamics of non-muscle myosin 2 (NM2) is crucial for a broad-array of cellular functions
Using two-sample t-test we compared the normalized pixel intensity distributions, which showed significant differences between the control and the inhibitor-treated distributions; the comparison of distributions for Y-27632 and Ambleb treated cells yielded no significant difference. These results indicate that AmBleb and Y-27632 treatments alter the stress fiber dynamics and cause the GFP-tagged NM2 molecules to redistribute across the imaging plane
These results suggest that the applied drugs can cause NM2 minifilaments to detach from the stress fibers
Summary
Subcellular dynamics of non-muscle myosin 2 (NM2) is crucial for a broad-array of cellular functions. Molecular Tattoo, sub-effective concentrations of a photo-crosslinkable blebbistatin derivative were increased to effective levels in a small, irradiated area of peripheral fibers These findings suggest that direct allosteric inhibition affects the diffusion profile of NM2 in a markedly different manner compared to the disruption of the upstream control of NM2. In the present study we were able to examine the effects of allosteric inhibition of NM2 on its diffusion dynamics both in a whole cell and localized to a stress fiber. We compared these results with the effects of dephosporylation-induced inactivation of NM2. With the help of the Molecular Tattoo technique, the effects of N3Bleb remain localized to the bleached area on a single stress fiber, which indicates an autonomous mechanism by which blebbistatin exerts its effects on fiber dynamics
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