Guanidine and Neuromuscular Transmission
- 1 August 1975
- journal article
- research article
- Published by American Medical Association (AMA) in Archives of Neurology
- Vol. 32 (8) , 510-518
- https://doi.org/10.1001/archneur.1975.00490500030002
Abstract
The effect of guanidine on the neuromuscular transmission in human intercostal and mouse diaphragm muscle in vitro during repetitive nerve stimulation was studied. The drug greatly increased the release of acetylcholine (ACh) quanta by nerve impulses at low frequencies of nerve stimulation and at the beginning of tetani at high frequencies of stimulation. The effect was shown to be produced by an increase in fractional release from an unchanged store of ACh quanta available for immediate release. This seems to explain why guanidine has a poor therapeutic effect in myasthenia gravis but a good effect in the myasthenic syndrome.Keywords
This publication has 9 references indexed in Scilit:
- On the mechanism by which calcium and magnesium affect the spontaneous release of transmitter from mammalian motor nerve terminalsThe Journal of Physiology, 1968
- DEFECTS OF NEUROMUSCULAR TRANSMISSION IN SYNDROMES OTHER THAN MYASTHENIA GRAVISAnnals of the New York Academy of Sciences, 1966
- A quantitative study of end‐plate potentials in isolated human muscle.The Journal of Physiology, 1965
- Repetitive stimulation at the mammalian neuromuscular junction, and the mobilization of transmitterThe Journal of Physiology, 1963
- EFFECTS OF SOME GUANIDINE DERIVATIVES ON NEUROMUSCULAR AND GANGLIONIC TRANSMISSIONBritish Journal of Pharmacology and Chemotherapy, 1962
- PRESYNAPTIC NATURE OF NEUROMUSCULAR DEPRESSIONThe Japanese Journal of Physiology, 1962
- ACETYLCHOLINE METABOLISM OF A SYMPATHETIC GANGLIONCanadian Journal of Biochemistry and Physiology, 1961
- The effects of presynaptic polarization on the spontaneous activity at the mammalian neuromuscular junctionThe Journal of Physiology, 1956
- AN ELECTRICAL INVESTIGATION OF EFFECTS OF REPETITIVE STIMULATION ON MAMMALIAN NEUROMUSCULAR JUNCTIONJournal of Neurophysiology, 1953