Vagusstoff (literally translated from German as "Vagus Substance") refers to the substance released by stimulation of the

vagus nerve The vagus nerve, also known as the tenth cranial nerve, cranial nerve X, or simply CN X, is a cranial nerve that interfaces with the parasympathetic control of the heart, lungs, and digestive tract. It comprises two nerves—the left and righ ...

which causes a reduction in the heart rate. Discovered in 1921 by physiologist

Otto Loewi Otto Loewi (; 3 June 1873 – 25 December 1961) was a German-born pharmacologist and psychobiologist who discovered the role of acetylcholine as an endogenous neurotransmitter. For his discovery he was awarded the Nobel Prize in Physiology or M ...

, ''vagusstoff'' was the first confirmation of chemical synaptic transmission and the first neurotransmitter ever discovered. It was later confirmed to be acetylcholine, which was first identified by Sir

Henry Hallett Dale Sir Henry Hallett Dale (9 June 1875 – 23 July 1968) was an English pharmacologist and physiologist. For his study of acetylcholine as agent in the chemical transmission of nerve pulses (neurotransmission) he shared the 1936 Nobel Prize in Ph ...

in 1914. Because of his pioneering experiments, in 1936 Loewi was awarded the

Nobel Prize in Physiology or Medicine The Nobel Prize in Physiology or Medicine is awarded yearly by the Nobel Assembly at the Karolinska Institute for outstanding discoveries in physiology or medicine. The Nobel Prize is not a single prize, but five separate prizes that, accord ...

, which he shared with Dale.

The discovery of ''Vagusstoff''

By the time Loewi began his experiments there was much discussion among scientists whether communication between nerves and muscles was chemical or electrical by nature. Experiments by Luigi Galvani in the 18th century had demonstrated that electrical stimulation of the frog sciatic nerve resulted in twitching of the leg muscles, and from this he developed the concept of

bioelectricity In developmental biology, bioelectricity refers to the regulation of cell, tissue, and organ-level patterning and behavior as the result of endogenous electrically mediated signaling. Cells and tissues of all types use ion fluxes to communicate e ...

. This led to the idea that direct electrical contact between nerves and muscles mediated transmission of excitation. However, work by John Newport Langley had suggested that in the autonomic nervous system communication in the

ciliary ganglion The ciliary ganglion is a bundle of nerve parasympathetic ganglion located just behind the eye in the posterior orbit. It is 1–2 mm in diameter and in humans contains approximately 2,500 neurons. The ganglion contains postganglionic parasympath ...

was chemical. Loewi's experiments, published in 192

finally settled the issue, proving that synaptic transmission was chemical. Loewi performed a very simple yet elegant experiment. Using an isolated

frog A frog is any member of a diverse and largely carnivorous group of short-bodied, tailless amphibians composing the order Anura (ανοὐρά, literally ''without tail'' in Ancient Greek). The oldest fossil "proto-frog" ''Triadobatrachus'' is ...

heart he had previously found that stimulation of the vagus nerve resulted in a slowing of the

heart rate Heart rate (or pulse rate) is the frequency of the heartbeat measured by the number of contractions (beats) of the heart per minute (bpm). The heart rate can vary according to the body's physical needs, including the need to absorb oxygen and excr ...

, while stimulation of the

sympathetic nerve The sympathetic nervous system (SNS) is one of the three divisions of the autonomic nervous system, the others being the parasympathetic nervous system and the enteric nervous system. The enteric nervous system is sometimes considered part of the ...

caused the heart rate to speed up (Figure 1). He reasoned that stimulation of either the vagus or sympathetic nerve would cause the nerve terminal to release a substance which would either slow or accelerate the heart rate. To prove this, he took a frog heart, which had been cannulated in order to perfuse the fluid surrounding the heart, and electrically stimulated the vagus nerve until the heart rate slowed. He then collected the fluid surrounding the heart and added it to a second frog heart which had been stripped of its vagal and sympathetic nerves. By adding the fluid surrounding the first heart to the second heart, he caused the heart rate of the second heart to slow down. This proved that stimulation of the vagus nerve caused the release of a substance which acted upon the heart tissue and directly caused the heart rate to slow down. (Figure 2) This substance was called ''vagusstoff''. ''Vagustoff'' was later confirmed to be acetylcholine and was found to be the principal neurotransmitter in the parasympathetic nervous system. In an interesting aside, Loewi apparently had the idea for his experiment in a

dream A dream is a succession of images, ideas, emotions, and sensations that usually occur involuntarily in the mind during certain stages of sleep. Humans spend about two hours dreaming per night, and each dream lasts around 5 to 20 minutes, althou ...

. He wrote it down in the middle of the night but the next morning could not decipher his writing. He eventually had the same dream on another night, and decided to run to the laboratory to perform the experiment in the middle of the night. About this incident, Loewi writes: :''On mature consideration, in the cold light of the morning, I would not have done it. After all, it was an unlikely enough assumption that the vagus should secrete an inhibitory substance; it was still more unlikely that a chemical substance that was supposed to be effective at very close range between nerve terminal and muscle be secreted in such large amounts that it would spill over and, after being diluted by the perfusion fluid, still be able to inhibit another heart.'' (Loewi 1921) Loewi was fortunate in his choice of experimental preparation. In the species of frog used ('' Rana esculenta''), the vagus contains both inhibitory and stimulatory fibers. In the winter, inhibitory fibers predominate, so Loewi was also fortunate to have performed his experiments in February or March. Additionally, acetylcholinesterase activity (the enzyme that degrades acetylcholine) is low, particularly in an unheated laboratory, allowing the neurotransmitter to remain long enough to be collected and applied to a second heart. Thanks to this confluence of events, Loewi was able to describe the existence of ''vagusstoff'' and prove the existence of chemical synaptic transmission.

Sources

* * * J.G. Nicholls, A.R. Martin, B.G. Wallace and P.A. Fuchs. "From Neuron to Brain". 4th ed. Sinauer Associates, Sunderland, MA. {{Nobel_Prize_in_Physiology_or_Medicine Neurochemistry History of neuroscience

The discovery of ''Vagusstoff''

See also

Sources