Abstract
Acetaldehyde alters Ca2+-release channel gating and muscle contraction in a dose-dependent mannerToshiharu Oba and Yoshitaka Maeno1, Depts.Reg.Cell Physiol., and 1Forensic Med. Sci., Nagoya City Univ. Grad. Sch. Med. Sci., Nagoya 467-8601, JapanWe studied whether acetaldehyde, which would be produced by alcohol consumption, impacts ryanodine receptor (RyR) activity and muscle force. Exposure to 50-200 μM acetaldehyde enhanced channel activity of frog RyR and rabbit RyR1 incorporated into lipid bilayers. An increase in acetaldehyde to 1 mM modified channel activity in a time-dependent manner, with a brief activation and then inhibition. Application of 200 μM acetaldehyde to frog fibers increased twitch tension. The maximum rate of rise of tetanus tension was accelerated to 1.5 and 1.74 times the control rate on exposure of fibers to 50 and 200 μM acetaldehyde, respectively. Fluorescence monitoring using Fluo-3 demonstrated that 200-400 μM acetaldehyde induced Ca2+ release from the sarcoplasmic reticulum (SR) in frog muscles. Acetaldehyde at 1 mM inhibited twitch tension by about 12% with an increased relaxation time after a small and transient twitch potentiation. These results suggest that moderate concentrations of acetaldehyde can elicit Ca2+ release from the SR by increasing the open probability of the RyR channel, resulting in increased tension. However, the effects of acetaldehyde at clinical doses (1-30 μM) are unlikely to mediate alcohol-induced acute muscle dysfunction. [Jpn J Physiol 54 Suppl:S118 (2004)]
