Free fatty acids and esters can be immobilized by receptor rich membranes from torpedo marmorata but not phospholipid acyl chains

Publication date

1979-10-12

Authors

Rousselet, A.
Devaux, P.F.
Wirtz, K.W.A.

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Abstract

A long chain spin labeled fatty acid and the corresponding ester have been introduced into receptor rich membranes from Torpedo Marmorata. Superimposed to a mobile component, typical of the lipid phase, a strongly immobilized component is seen on the ESR spectra, both at low temperature (−4°C) and at room temperature. An estimation of the amount of immobilized signal as a function of the concentration of spin label in the membrane shows that a saturation is reached which corresponds to approximately twice the concentration of receptor protein. In the same membranes, a spin labeled phosphatidylcholine was introduced by the release of the phosphatidylcholine analog from purified phosphatidylcholine exchange protein, preloaded with this spin label. No immobilized component is seen in this latter case even at low temperatures. Therefore the immobilized component seen with the fatty acid cannot be considered as reporting on an immobilized boundary layer of phospholipids surrounding the proteins. We attribute the immobilized signal seen with fatty acids and esters to a particular interaction of amphiphilic molecules with the cholinergic receptor protein. Very likely this effect can be associated with the local anaesthetic effect detected previously with this fatty acid.

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