Pharmacology and Nerve-Endings

A brief account is given of the scientific career of Walter Ernest Dixon, and of the importance of his work and his influence for the development of Pharmacology in England. It is suggested that the Memorial Lecture may appropriately deal with some matter of new interest, from one of the fields of research in which Dixon himself was active. Special mention is made of his work with Brodie on the physiology and pharmacology of the bronchioles and the pulmonary blood-vessels, as probably showing the beginning of Dixon's interest in the actions of the alkaloids and organic bases which reproduce the effects of autonomic nerves. An account is given of Dixon's early interest in the suggestion, first made by Elliott, that autonomic nerves transmit their effects by releasing, at their endings, specific substances, which reproduce their actions; and of his attempt to obtain experimental support for this conception. After the War it was established by the experiments of O. Loewi; and it is now generally recognized that parasympathetic effects are so transmitted by release of acetylcholine, sympathetic effects by that of a substance related to adrenaline. Very recent evidence indicates that acetylcholine, by virtue of its other (“nicotine-like”) action, also acts as transmitter of activity at synapses in autonomic ganglia, and from motor nerve to voluntary muscle. The terms “cholinergic” and “adrenergic” have been introduced to describe nerve-fibres which transmit their actions by the release at their endings of acetylcholine, and of a substance related to adrenaline, respectively. It is shown that Langley and Anderson's evidence, long available, as to the kinds of peripheral efferent fibres which can replace one another in regeneration, can be summarized by the statement, that cholinergic can replace cholinergic fibres, and that adrenergic can replace adrenergic fibres; but that fibres of different chemical function cannot replace one another. The bearing of this new evidence on conceptions of the mode of action of “neuromimetic” drugs is discussed. The pharmacological problem can now be more clearly defined, and Dixon's participation in further attempts at its solution will be sadly missed.

[1]  J N Langley,et al.  On the Regeneration of Pre‐Ganglionic and of Post‐Ganglionic Visceral Nerve Fibres , 1897, The Journal of physiology.

[2]  J N Langley,et al.  On the Union of Cranial Autonomic (Visceral) Fibres with the Nerve Cells of the Superior Cervical Ganglion , 1898, The Journal of physiology.

[3]  W. E. Dixon The physiological action of the alkaloids derived from Anhalonium Lewinii , 1899, The Journal of physiology.

[4]  J. N. Langley,et al.  On the union of the fifth cervical nerve with the superior cervical ganglion , 1904, The Journal of physiology.

[5]  T. G. Brodie,et al.  Contributions to the physiology of the lungs , 1904, The Journal of physiology.

[6]  H. K. Anderson The paralysis of involuntary muscle , 1905, The Journal of physiology.

[7]  T. Elliott,et al.  The action of adrenalin , 1905, The Journal of physiology.

[8]  W. E. Dixon,et al.  Die elektive Wirkung von Arzeneien auf das periphere Nervensystem , 1912 .

[9]  H. W. Dudley,et al.  The presence of histamine and acetylcholine in the spleen of the ox and the horse , 1929, The Journal of physiology.

[10]  H. Dale,et al.  Reactions of denervated voluntary muscle, and their bearing on the mode of action of parasympathetic and related nerves , 1930, The Journal of physiology.

[11]  J. Burn,et al.  An analysis of the effect of cocaine on the actions of adrenaline and tyramine , 1931, The Journal of physiology.

[12]  W. Cannon,et al.  STUDIES ON THE CONDITIONS OF ACTIVITY IN ENDOCRINE ORGANS: XXVI. A Hormone Produced by Sympathetic Action on Smooth Muscle , 1931 .

[13]  THE SHERRINGTON PHENOMENON: IV. A Study of Some of its Possible Antagonists , 1933 .

[14]  A. Rosenblueth,et al.  STUDIES ON CONDITIONS OF ACTIVITY IN ENDOCRINE ORGANS , 1933 .

[15]  B. B. Dikshit Action of acetylcholine on the brain and its occurrence therein , 1934, The Journal of physiology.

[16]  W. Feldberg,et al.  The chemical transmission of secretory impulses to the sweat glands of the cat , 1934, The Journal of physiology.

[17]  W. Feldberg,et al.  The chemical transmitter at synapses in a sympathetic ganglion , 1934, The Journal of physiology.

[18]  H. Dale CHEMICAL TRANSMISSION OF THE EFFECTS OF NERVE IMPULSES * , 1934, British medical journal.