Direct effect of the neurotoxicant acrylamide on kinesin‐based microtubule motility

Abstract

Acrylamide (ACR) is an environmental toxicant and prototypic tool for studying mechanisms of peripheral neuropathies. Reductions in fast anterograde axonal transport (faAXT) are thought to be a critical step leading to axonal degeneration. Kinesin and microtubules (MT) were evaluated as molecular sites of action using an in vitro MT motility assay. The number of locomoting MT which lifted from a bed of kinesin (MT detachments or MTD), increased from 7% in controls to 80, 89, and 100% following preincubation of kinesin (37°C, 20 min) with 0.1, 0.5, or 1.0 mM ACR, respectively; rates were variably reduced by as much as 20%. Similar alterations were observed with N-ethylmaleimide. A non-neurotoxic analogue, propionamide (1mM), had no effect on either parameter. Preincubation of taxol-stabilized MT with ACR produced a dose-dependent increase in MTD but no changes in rate. We conclude that kinesin and MT are covalently modified by ACR resulting in reduced affinity for each other. The greater sensitivity of kinesin indicates that a primary cause of transient, ACR-induced reductions in faAXT is covalent modification of kinesin. Such reductions in faAXT may be sufficient to produce axonal degeneration. Further, ACR may prove useful as a pharmacological tool to decipher the complex mechanics of kinesin-MT interactions. © 1996 Wiley-Liss, Inc.