The action of acetylcholine, dopamine and 5-hydroxytryptamine on the spontaneous activity of the cells of Retzius of the leech, Hirudo medicinalis.

Neuropharmacological and neurophysiological studies have been undertaken on both the longitudinal muscle and on the segmental ganglionic neurones of the leech, Hirudo medicinalis. The longitudinal muscle of the leech was developed by Minz (1932) from the initial observations of Fuehner (1918) as an assay procedure for acetylcholine. More recently this same preparation has been used as an assay tissue for 5-hydroxytryptamine (Poloni, 1955), and has subsequently been reinvestigated by Schain (1961). Acetylcholine causes the muscle to contract whereas 5-hydroxytryptamine has a relaxing action and reduces the amplitude of contractions produced by acetylcholine. Electrophysiological recordings from the neurones of the leech ventral nerve cord were first performed by Hagiwara & Morita (1962) and by Eckert (1963). Studies concerning the role of the glial cells in this preparation were made by Kuffler & Potter (1964) and Nicholls & Kuffler (1964). Penn & Loewenstein (1966) have studied the role of calcium in maintaining electrical connections between the nerve cells of Retzius. The actions of acetylcholine and 5-hydroxytryptamine on ganglionic transmission in the leech have been studied by Kostowski (1965) using extracellular recording methods. Kostowski suggests that acetylcholine enhances transmission in the leech cord, while 5-hydroxytryptamine may act as an inhibitory agent. The present study was undertaken to investigate the action of possible chemical transmitter agents on the bioelectrical activity of the cells of Retzius (Retzius, 1891). A preliminary report of this investigation has been communicated to the Physiological Society (Kerkut, Sedden & Walker, 1967a).

[1]  G. A. Kerkut,et al.  Cellular localization of monoamines by fluorescence microscopy in Hirudo medicinalis and Lumbricus terrestris. , 1967, Comparative biochemistry and physiology.

[2]  G. A. Kerkut,et al.  A fluorescence microscopic and electrophysiological study of the giant neurones of the ventral nerve cord of Hirudo medicinalis. , 1967, Journal of Physiology.

[3]  Y. Washizu Electrical properties of leech dorsal muscle. , 1967, Comparative biochemistry and physiology.

[4]  R. Penn,et al.  Uncoupling of a Nerve Cell Membrane Junction by Calcium-Ion Removal , 1966, Science.

[5]  S. W. Kuffler,et al.  EXTRACELLULAR SPACE AS A PATHWAY FOR EXCHANGE BETWEEN BLOOD AND NEURONS IN THE CENTRAL NERVOUS SYSTEM OF THE LEECH: IONIC COMPOSITION OF GLIAL CELLS AND NEURONS. , 1964, Journal of neurophysiology.

[6]  R. Coggeshall,et al.  THE FINE STRUCTURE OF THE CENTRAL NERVOUS SYSTEM OF THE LEECH, HIRUDO MEDICINALIS. , 1964, Journal of neurophysiology.

[7]  S. W. Kuffler,et al.  GLIA IN THE LEECH CENTRAL NERVOUS SYSTEM: PHYSIOLOGICAL PROPERTIES AND NEURON-GLIA RELATIONSHIP. , 1964, Journal of neurophysiology.

[8]  R. Eckert Electrical Interaction of Paired Ganglion Cells in the Leech , 1963, The Journal of general physiology.

[9]  S. Hagiwara,et al.  Electrotonic transmission between two nerve cells in leech ganglion. , 1962, Journal of neurophysiology.

[10]  R. Schain Effects of 5-hydroxytryptamine on the dorsal muscle of the leech (Hirudo medicinalis). , 1961, British Journal of Pharmacology and Chemotherapy.

[11]  J. Welsh,et al.  THE QUANTITATIVE DISTRIBUTION OF 5‐HYDROXY‐TRYPTAMINE IN THE INVERTEBRATES, ESPECIALLY IN THEIR NERVOUS SYSTEMS * , 1960, Journal of neurochemistry.

[12]  L. Steinhauer The Role of Humoral Agents in Nervous Activity. , 1958 .

[13]  Par Z. M. Bacq L'ACÉTYLCHOLINE ET L'ADRÉNALINE CHEZ LES INVERTÉBRÉS , 1947 .

[14]  G. Retzius Zur Kenntniss des centralen Nervensystems der Würmer , 1892 .