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Effects of arachidonic acid and the other long-chain fatty acids on the membrane currents in the squid giant axon
Authors:Toshifumi Takenaka  Hidenori Horie  Hideaki Hori  Tadashi Kawakami
Institution:(1) Department of Physiology, Yokohama City University School of Medicine, Fukuura, Kanazawaku, 236 Yokohama, Japan
Abstract:Summary The effects of arachidonic acid and some other long-chain fatty acids on the ionic currents of the voltage-clamped squid giant axon were investigated using intracellular application of the test substances. The effects of these acids, which are usually insoluble in solution, were examined by using agr-cyclodextrin as a solvent. agr-cyclodextrin itself had no effect on the excitable membrane. Arachidonic acid mainly suppresses the Na current but has little effect on the K current. These effects are completely reversed after washing with control solution. The concentration required to suppress the peak inward current by 50% (ED50) was 0.18mm, which was 10 times larger than that of medium-chain fatty acids like 2-decenoic acid. The Hill number was 1.5 for arachidonic acid, which is almost the same value as for medium-chain fatty acids. This means that the mechanisms of the inhibition are similar in both long- and medium-chain fatty acids. When the long-chain fatty acids were compared, the efficacy of suppression of Na current was about the same value for arachidonic acid, docosatetraenoic acid and docosahexaenoic acid. The suppression effects of linoleic acid and linolenic acid on Na currents were one-third of that of arachidonic acid. Oleic acid had a small suppression effect and stearic acid had almost no effect on the Na current. The currents were fitted to equations similar to those proposed by Hodgkin and Huxley (Hodgkin, A.L., Huxley, A.F. (1952)J. Physiol (London) 117:500–544) and the change in the parameters of these equations in the presence of fatty acids were calculated. The curve of the steady-state activation parameter (m infin) for the Na current against membrane potential and the time constant of activation (tau m ) were shifted 10 mV in a depolarizing direction by the application of fatty acids. The time constant for inactivation (tau h ) has almost unaffected by application of these fatty acids.
Keywords:arachidonic acid  long-chain fatty acids  membrane currents  Na channel  squid axon  membrane excitation
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