John Eccles

Did you mean: John Eccles (Australian physician & anatomist), John Eccles, Jack Eccles, John Eccles (composer), John Eccles, John Eccles, 2nd Viscount Eccles More...

Scientist: Sir John Carew Eccles

Australian physiologist (1903–1997)

Born in Melbourne, Australia, Eccles was educated at the university there and at Oxford University. In Oxford he worked with Charles Sherrington on muscular reflexes and nervous transmission across the synapses (nerve junctions) from 1927 to 1937. He then worked in Australia at the Institute of Pathology from 1937 to 1943. After a period in New Zealand, as professor of physiology at the University of Otago from 1944 to 1951, Eccles returned to Australia to the Australian National University, Canberra, where he served as professor of physiology from 1951 to 1966. In 1966 Eccles moved to the USA, working first in Chicago and finally, from 1968 until his retirement in 1975, at the State University of New York, Buffalo.

While at Canberra Eccles carried out work on the chemical changes that take place at synapses, pursuing the findings of Alan Hodgkin and Andrew Huxley, with whom he subsequently shared the 1963 Nobel Prize for physiology or medicine. Eccles showed that excitation of different nerve cells causes the synapses to release a substance (probably acetylcholine) that promotes the passage of sodium and potassium ions and effects an alternation in the polarity of the electric charge. It is in this way that nervous impulses are communicated or inhibited by nerve cells. Eccles was the author of Reflex Activity of the Spinal Cord (1932) and The Physiology of Nerve Cells (1957).

After his retirement Eccles published a number of works on the mind-body problem. Notable among them are The Self and the Brain (1977), written in collaboration with Karl Popper, The Human Mystery (1979), and The Creation of the Self (1989).

Search unanswered questions...

Browse: Unanswered questions | Most-recent questions | Reference library

5min Related Video: John Eccles

Top

Biography: Sir John Carew Eccles

Top

The Australian neurophysiologist Sir John Carew Eccles (1903-1997) made a series of original contributions to the knowledge of how nerve cells communicate with each other.

John Carew Eccles was born in Melbourne, Australia, on January 27, 1903, the first of two children of two teachers. He attended high school in Warambool, Victoria, but graduated in Melbourne in 1919. He went on to Melbourne University to study medicine, and excelled at multiple athletics. He married Irene Miller in 1928, with whom he would have nine children. When he graduated from college in 1925 at the top of his class, with a bachelor of science and medicine degrees, and as a Rhodes scholar, he realized his dream to attend Oxford University. There he worked with Sir Charles Scott Sherrington, probably the greatest student of the physiology of the nervous system in the 20th century. Eccles carried on and developed further his teacher's scientific and philosophical ideas. He graduated from Magdalen College in Oxford in 1927, again with first-class honors and a scholarship to Exeter College, Oxford. Side by side with Sherrington, they investigated nerve impulses and synapses, which Sherrington had defined in 1897. In 1929 Oxford awarded Eccles a masters of arts and a doctor of philosophy degrees. Eccles continued to research the brain at Oxford until he returned to Australia in 1937.

During the early 1930s Eccles had become interested in the nature of synaptic transmission, particularly in the fundamental question of how signals are transferred from one nerve cell to another. For the next 30 years he pursued this theme in his characteristic style, which was different from that of most scientists. He generally proposed a hypothesis, made it as precise as possible, and championed it with enthusiasm and energy until eventually it was either found to be false or was greatly modified by new experimental data. While many workers feel it is a sign of failure if a pet hypothesis has to be abandoned, Eccles took pleasure in this and was stimulated into a new formulation.

In 1937 Eccles moved to Sydney, where he headed the Kanematsu Memorial Institute, a small, isolated research institute attached to a local hospital. With several younger colleagues, including Bernard Katz, who influenced him greatly, he studied the transmission of impulses from nerve to muscle until 1943. During this time, he carried out studies of synaptic transmission in the mammalian nervous system by making electrical recordings from the interior of individual nerve cells and analyzing in great detail the processes of excitation, as well as inhibition, at cell junctions. During World War II he aided in the Australian war effort by serving on committees on vision, hearing and airsickness, and by synthesizing blood serum for medical facilities.

In 1944 Eccles moved to New Zealand, and until 1951 taught physiology at the University of Otago Medical School in Dunedin. He also continued his research on synaptic transmission, and it was in 1951 that he actually disproved his own hypothesis about the electrical nature of synaptic transmission, and henceforth championed the alternate theory of chemical neurotransmission. His own tactic of wildly espousing theories and then rigorously working to prove them wrong was reinforced when he met Dr. Karl Popper in New Zealand, who encouraged him to do just that.

These findings further crystallized when he left Otago for the John Curtin School of Medical Research of the Australian National University in Canberra, where he became professor of physiology in 1952. In league with other researcher, he discovered how to induce certain synaptic reactions on a chemical and ionic level, and how to rewire nerve endings. Due to his cumulative research, Eccles was knighted in 1958, and was jointly awarded the Nobel Prize for Medicine and Physiology with Alan Hodgkin and Andrew Huxley in 1963 for their respective studies on the production and transmission of nerve impulses.

Eccles was forced to retire from the Australian National University in 1966 upon reached their mandatory retirement age, but quickly accepted an enormous job offer from the American Medical Association to head their largest research group at their Institute for Biomedical Research in Chicago. Soon after, in 1968, he served as Distinguished Professor of Physiology and Medicine and the Dr. Henry C. and Bertha H. Buswell Research Fellow at the medical school of New York State University in Buffalo. Eccles's investigations continued to cover additional areas of the nervous system, as his aim was always an understanding of the working of the entire brain. He explored the functional interconnections in the cerebellum, summarizing his results in The Cerebellum as a Neuronal Machine (1967). In his personal life, he divorced his wife of almost forty years in 1968; a little over two weeks later he was remarried to Helena Taborikova, a medical researcher of some reknown.

Eccles's influence extended beyond his immediate scientific circle. In Australia he was a founder and president of the Academy of Sciences. He published in numerous scientific journals, gave many public lectures, and wrote a series of books which had wide circulation, including Physiology of Nerve Cells (1957) and Physiology of Synapses (1964). He also edited Brain and Conscious Experience (1966). He died on May 2, 1997, at the age of 84, in Switzerland.

Sir John Eccles
John Eccles, at his lab bench
Born	27 January 1903(1903-01-27) Melbourne, Australia
Died	2 May 1997 (aged 94)
Nationality	Australian
Fields	Neuroscience
Notable awards	Nobel Prize in Physiology or Medicine (1963)

Biography

Eccles was born in Melbourne, Australia. He was one of three children as he had two sisters. He was tutored much by his parents who were both teachers as they influenced him greatly on his life. He initially attended Warrnambool College, (where a science wing is named in his honour), then completed his final year of schooling at Melbourne High School and graduated from Melbourne University in 1925. He was awarded a Rhodes Scholarship to study under Charles Scott Sherrington at Magdalen College, Oxford University, where he received his Doctor of Philosophy in 1929.

In 1937 Eccles returned to Australia, where he worked on military research during World War II. After the war, he became a professor at the University of Otago in New Zealand. From 1952 to 1962 he worked as a professor at the Australian National University.

He was appointed a Knight Bachelor in 1958 in recognition of services to physiological research. ^[1]

He won the Australian of the Year Award in 1963, the same year he won the Nobel Prize.

In 1966 he moved to the United States to work at the Institute for Biomedical Research in Chicago. Unhappy with the working conditions there, he left to become a professor at the University at Buffalo from 1968 until he retired in 1975. After retirement, he moved to Switzerland and wrote on the mind-body problem.

In 1990 he was appointed a Companion of the Order of Australia (AC) in recognition of service to science, particularly in the field of neurophysiology. ^[2] He died in 1997 in Locarno, Switzerland.

Eccles was a devout theist and a sometime Roman Catholic, and is regarded by many Christians as an exemplar of the successful melding of a life of science with one of faith. A biography states that, "although not always a practicing Catholic, Eccles was a theist and a spiritual person, and he believed 'that there is a Divine Providence operating over and above the materialistic happenings of biological evolution'..."

Eccles was President of the Australian Academy of Science from 1957 to 1961 at the time of the construction of the Shine Dome.

In the early 1950s, Eccles and his colleagues performed the research that would win Eccles the Nobel Prize. To study synapses in the peripheral nervous system, Eccles and colleagues used the stretch reflex as a model. This reflex is easily studied because it consists of only two neurons: a sensory neuron (the muscle spindle fiber) and the motor neuron. The sensory neuron synapses onto the motor neuron in the spinal cord. When Eccles passed a current into the sensory neuron in the quadriceps, the motor neuron innervating the quadriceps produced a small excitatory postsynaptic potential (EPSP). When he passed the same current through the hamstring, the opposing muscle to the quadriceps, he saw an inhibitory postsynaptic potential (IPSP) in the quadriceps motor neuron. Although a single EPSP was not enough to fire an action potential in the motor neuron, the sum of several EPSPs from multiple sensory neurons synapsing onto the motor neuron could cause the motor neuron to fire, thus contracting the quadriceps. On the other hand, IPSPs could subtract from this sum of EPSPs, preventing the motor neuron from firing.

Apart from these seminal experiments, Eccles was key to a number of important developments in neuroscience. Until around 1949, Eccles believed that synaptic transmission was primarily electrical rather than chemical. Although he was wrong in this hypothesis, his arguments led him and others to perform some of the experiments which proved chemical synaptic transmission. Bernard Katz and Eccles worked together on some of the experiments which elucidated the role of acetylcholine as a neurotransmitter.

Philosophy

In 'Understanding the Human Brain' (1973), Eccles summarizes his philosophy as follows:

"Now before discussing brain function in detail I will at the beginning give an account of my philosophical position on the so-called brain-mind problem so that you will be able to relate the experimental evidence to this philosophical position. I have written at length on this philosophy in my book 'Facing Reality'. In Fig. 6-1 you will be able to see that I fully accept the recent philosophical achievements of Sir Karl Popper with his concept of three worlds. I was a dualist, now I am a trialist! Cartesian dualism has become unfashionable with many people. They embrace monism in order to escape the enigma of brain-mind interaction with its perplexing problems. But Sir Karl Popper and I are interactionists, and what is more, trialist interactionists! The three worlds are very easily defined. I believe that in the classification of Fig. 6-1 there is nothing left out. It takes care of everything that is in existence and in our experience. All can be classified in one or other of the categories enumerated under Worlds 1, 2. and 3.

FIG. 6-1, Three Worlds

WORLD 1	WORLD 2	WORLD 3
PHYSICAL OBJECTS AND STATES	STATES OF CONSCIOUSNESS	KNOWLEDGE IN OBJECTIVE SENSE
1. INORGANIC: Matter and Energy of Cosmos	Subjective Knowledge	Records of Intellectual Efforts
2. BIOLOGY: Structure and Actions of All Living Beings; Human Brains	Experience of: Perception, Thinking, Emotions, Dispositional Intentions, Memories, Dreams, Creative Imagination	Philosophical, Theological, Scientific, Historical, Literary, Artistic, Technological
3. ARTIFACTS: Material Substrates of human creativity, of tools, of machines, of books, of works of art, of music.		Theoretical Systems: Scientific Problems, Critical Arguments

"In Fig. 6-1, World 1 is the world of physical objects and states. It comprises the whole cosmos of matter and energy, all of biology including human brains, and all artifacts that man has made for coding information, as for example, the paper and ink of books or the material base of works of art. World 1 is the total world of the materialists. They recognize nothing else. All else is fantasy.

"World 2 is the world of states of consciousness and subjective knowledge of all kinds. The totality of our perceptions comes in this world. But there are several levels. In agreement with Polten, I tend to recognize three kinds of levels of World 2, as indicated in Fig. 6-2, but it may be more correct to think of it as a spectrum.

FIG. 6-2, World of Consciousness

Outer Sense	Inner Sense	Pure Ego
Light, Colour, Sound, Smell, Taste, Pain, Touch	Thoughts, Feelings, Memories, Dreams, Imaginings, Intentions	The Self - The Soul

"The first level (outer sense) would be the ordinary perceptions provided by all our sense organs, hearing and touch and sight and smell and pain. All of these perceptions are in World 2, of course: vision with light and colour; sound with music and harmony; touch with all its qualities and vibration; the range of odours and tastes, and so on. These qualities do not exist in World 1, where correspondingly there are but electromagnetic waves, pressure waves in the atmosphere, material objects, and chemical substances.

"In addition there is a level of inner sense, which is the world of more subtle perceptions. It is the world of your emotions, of your feelings of joy and sadness and fear and anger and so on. It includes all your memory, and all your imaginings and planning into the future. In fact there is a whole range of levels which could be described at length. All the subtle experiences of the human person are in this inner sensory world. It is all private to you but you can reveal it in linguistic expression, and by gestures of all levels of subtlety.

"Finally, at the core of World 2 there is the self or pure ego, which is the basis of our unity as an experiencing being throughout our whole lifetime.

"This World 2 is our primary reality. Our conscious experiences are the basis of our knowledge of World 1, which is thus a world of secondary reality, a derivative world. Whenever I am doing a scientific experiment, for example, I have to plan it cognitively, all in my thoughts, and then consciously carry out my plan of action in the experiment. Finally I have to look at the results and evaluate them in thought. For example, I have to see the traces of the oscilloscope and their photographic records or hear the signals on the loudspeaker. The various signals from the recording equipment have to be received by my sense organs, transmitted to my brain, and so to my consciousness, then appropriately measured and compared before I can begin to think about the significance of the experimental results. We are all the time, in every action we do, incessantly playing backwards and forwards between World 1 and World 2.

"And what is World 3? As shown in Fig. 6-1 it is the whole world of culture. It is the world that was created by man and that reciprocally made man. This is my message in which I follow Popper unreservedly. The whole of language is here. All our means of communication, all our intellectual efforts coded in books, coded in the artistic and technological treasures in the museums, coded in every artifact left by man from primitive times--this is World 3 right up to the present time. It is the world of civilization and culture. Education is the means whereby each human being is brought into relation with World 3. In this manner he becomes immersed in it throughout life, participating in the heritage of mankind and so becoming fully human. World 3 is the world that uniquely relates to man. It is the world which is completely unknown to animals. They are blind to all of World 3. I say that without any reservations. This is then the first part of my story.

"Now I come to consider the way in which the three worlds interact..."^[3]

Bibliography

1932, Reflex Activity of the Spinal Cord.
1953, The neurophysiological basic of the mind: The principles of neurophysiology, Oxford: Clarendon.
1957, The Physiology of Nerve Cells.
1964, The Physiology of Synapses.
1965, The brain and the unity of conscious experience, London: Cambridge University Press.
1969, The Inhibitory Pathways of the Central Nervous System.
1970, Facing reality: Philosophical Adventures by a Brain Scientist, Berlin: Springer.
1973, The Understanding of the Brain.
1977, The Self and Its Brain, with Karl Popper, Berlin: Springer.
1979, The human mystery, Berlin: Springer.
1980, The Human Psyche.
1984, The Wonder of Being Human - Our Brain & Our Mind, with Daniel N. Robinson, New York, Free Press.
1985, Mind and Brain: The Many-Faceted Problems, (Editor), New York : Paragon House.
1989, Evolution Of The Brain : Creation Of The Self.
1994, How the Self Controls Its Brain.

Styles

Mr John Eccles (1903-1929)
Dr John Eccles (1929-1944)
Prof. John Eccles (1944-1958)
Sir John Eccles (1958-1990)
Sir John Eccles AC (1990-1997)

External links

Sir John Eccles Biography. Nobel Foundation.
Pratt, D.: John Eccles on Mind and Brain. A theosophical view.
Sabbatini, R.M.E.: Neurons and synapses. The history of its discovery IV. Chemical transmission. Brain & Mind, 2004.

References

^ It’s an Honour: Knight Bachelor
^ It’s an Honour: AC
^ Eccles, John (1973). "6 'Brain, Speech, and Consciousness'". The Understanding of the Brain. McGraw-Hill Book Company. ISBN 0-07-018863-7.

Awards
Preceded by Alexander 'Jock' Sturrock	Australian of the Year Award 1963	Succeeded by Dawn Fraser

v • d • e Nobel Laureates in Physiology or Medicine

Max Theiler (1951) · Selman Waksman (1952) · Hans Krebs / Fritz Lipmann (1953) · John Enders / Thomas Weller / Frederick Robbins (1954) · Hugo Theorell (1955) · André Cournand / Werner Forssmann / Dickinson W. Richards (1956) · Daniel Bovet (1957) · George Beadle / Edward Tatum / Joshua Lederberg (1958) · Severo Ochoa / Arthur Kornberg (1959) · Frank Burnet / Peter Medawar (1960) · Georg von Békésy (1961) · Francis Crick / James D. Watson / Maurice Wilkins (1962) · John Eccles / Alan Hodgkin / Andrew Huxley (1963) · Konrad Bloch / Feodor Lynen (1964) · François Jacob / André Lwoff / Jacques Monod (1965) · Francis Rous / Charles B. Huggins (1966) · Ragnar Granit / Haldan Hartline / George Wald (1967) · Robert W. Holley / Har Khorana / Marshall Nirenberg (1968) · Max Delbrück / Alfred Hershey / Salvador Luria (1969) · Bernard Katz / Ulf von Euler / Julius Axelrod (1970) · Earl Sutherland, Jr. (1971) · Gerald Edelman / Rodney Porter (1972) · Karl von Frisch / Konrad Lorenz / Nikolaas Tinbergen (1973) · Albert Claude / Christian de Duve / George Palade (1974) · David Baltimore / Renato Dulbecco / Howard Temin (1975)

Complete roster · 1901–1925 · 1926–1950 · 1951–1975 · 1976–2000 · 2001–present

This entry is from Wikipedia, the leading user-contributed encyclopedia. It may not have been reviewed by professional editors (see full disclaimer)

Donate to Wikimedia

Did you mean: John Eccles (Australian physician & anatomist), John Eccles, Jack Eccles, John Eccles (composer), John Eccles, John Eccles, 2nd Viscount Eccles More...

Learn More

	Semele (music)
	Sir Alan Lloyd Hodgkin (English physician & anatomist)
	Henry Eccles (Classical Artist)

	Does Nick Jonas love Hollie Eccles? Read answer...
	Who is William Eccles and F W Jordan? Read answer...
	What is the meaning of pro eccl esia dei? Read answer...

Help us answer these

	What did John Carew Eccles achieve?
	Where did John Carew Eccles do his work?
	What is an interesting fact about Sir John Eccles?

Post a question - any question - to the WikiAnswers community:

Copyrights:

		Scientist. A Dictionary of Scientists. Copyright © Market House Books Ltd 1993, 1999, 2003. All rights reserved. Read more
		Biography. © 2006 through a partnership of Answers Corporation. All rights reserved. Read more
		Columbia Encyclopedia. The Columbia Electronic Encyclopedia, Sixth Edition Copyright © 2003, Columbia University Press. Licensed from Columbia University Press. All rights reserved. www.cc.columbia.edu/cu/cup/. Read more
		Wikipedia. This article is licensed under the Creative Commons Attribution/Share-Alike License. It uses material from the Wikipedia article "John Eccles (neurophysiologist)". Read more