1. EFFECT OF CYANIDE AND ELECTRICAL STIMULATION ON PHOSPHOINOSITIDE METABOLISM IN LOBSTER NERVES
- Author
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Sven G. Eliasson, Paul C. Simpson, Anita C. Birnberger, and K. L. Birnberger
- Subjects
medicine.medical_specialty ,Cell Membrane Permeability ,Chromatography, Paper ,Cyanide ,Central nervous system ,Stimulation ,In Vitro Techniques ,Biology ,Phosphatidylinositols ,Biochemistry ,Cellular and Molecular Neuroscience ,chemistry.chemical_compound ,Adenosine Triphosphate ,In vivo ,Crustacea ,Internal medicine ,medicine ,Animals ,Peripheral Nerves ,Incubation ,Phosphoinositide metabolism ,Cyanides ,Phosphorus Isotopes ,Extremities ,Metabolism ,Electric Stimulation ,Glucose ,medicine.anatomical_structure ,Endocrinology ,chemistry ,Lactates ,Phosphatidylcholines ,Cyanide poisoning - Abstract
The contents of phosphoinositides, ATP, glucose and lactate in leg and claw nerves of the lobster were determined. Nerves were also analysed after cyanide poisoning, after electrical stimulation, and 1 h after removing the leg from the lobster. Cyanide poisoning decreased the levels of ATP and glucose and increased the content of lactate but did not alter the levels of phosphoinositides. Nerves left in situ for 1 h after disconnection from the central nervous system exhibited a decrease in the content of tri-phosphoinositides (TPI) of 50 per cent, without changes in ATP, glucose or lactate. The TPI change was reversed after incubation for 1 h in oxygenated seawater. Nerves labelled in vivo with 32P were removed and stimulated at 50 Hz for 5 min. The turnover of TPI phosphorus increased on stimulation in both normal and cyanide-poisoned nerves. In contrast, turnover of ATP increased after stimulation in normal nerves but not in cyanide-treated nerves. We sought to determine whether polyphosphoinositides play a greater role in resting metabolism of the nerve or in the conducting mechanisms. Our results make more likely the involvement of TPI in permeability changes of neural membranes during excitation.
- Published
- 1971