Otto Heinrich Warburg
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Otto Heinrich Warburg
|Data 2:|| October 8 1883|
Freiburg, Baden, Germany
|Data 3 (data hidden if data3 empty or not defined):|| August 1 1970 (aged 86)|
Berlin, West Germany
Otto Heinrich Warburg (October 8, 1883, Freiburg im Breisgau – August 1, 1970, Berlin), son of physicist Emil Warburg, was a German physiologist, medical doctor and Nobel laureate. Warburg was one of the twentieth century's leading cell biologists.
Otto's father, Emil Warburg, was a distant relative of the illustrious Warburg family of Altona, who had converted to Christianity reportedly after a disagreement in the family. Emil was also President of the Physikalische Reichsanstalt, Wirklicher Geheimer Oberregierungsrat. Otto's mother was the daughter of a Protestant family of civil servants from Baden.
Otto studied chemistry under the great Emil Fischer, and earned his Doctorate of Chemistry in Berlin in 1906. He then studied under Ludolf von Krehl, and earned the degree of Doctor of Medicine in Heidelberg in 1911.
Between 1908 and 1914, Otto was affiliated with the Naples Marine Biological Station, also known as the Stazione Zoologica, in Naples, Italy, where he did research. In later years he would return for visits, and maintained a lifelong friendship with the family of the station's director.
A lifelong equestrian, he served as an officer in the elite Uhlans (cavalry) on the front during the First World War where he won the Iron Cross. Warburg later credited this experience with affording him invaluable insights into "real life" outside the confines of academia. Towards the end of the war, when the outcome was unmistakable, Albert Einstein, who had been a friend of Otto's father Emil, wrote Otto at the behest of friends, asking him to leave the army and return to academia, as it would be a tragedy for the world to lose his talents.
Scientific work and Nobel Prize
While working at the Marine Biological Station Warburg performed research on oxygen consumption in sea urchin eggs after fertilization, and proved that upon fertilization, the rate of respiration increases by as much as sixfold. His experiments also proved that iron is essential for the development of the larval stage.
In 1918 Warburg was appointed Professor at the Kaiser Wilhelm Institute for Biology in Berlin-Dahlem (part of the Kaiser-Wilhelm-Gesellschaft). By 1931 he was named Director of the Kaiser Wilhelm Institute for Cell Physiology there, which founded the previous year by a donation of the Rockefeller Foundation to the Kaiser Wilhelm Gesellschaft (since renamed the Max Planck Society).
Warburg investigated the metabolism of tumors and the respiration of cells, particularly cancer cells, and in 1931 was awarded the Nobel Prize in Physiology or Medicine for his "discovery of the nature and mode of action of the respiratory enzyme."
In 1944, Warburg was nominated again for the Nobel Prize in Physiology or Medicine by Albert Szent-Györgyi, for his work on nicotinic acid amide and the discovery of flavine (in yellow enzymes). It is rumored and reported by some sources that he was selected for a second Nobel Prize in Physiology or Medicine in 1944 but was not allowed to accept the Prize due to the policies of the German government of the time. According to the Nobel Foundation, this rumor is not true; although he was considered a worthy candidate, he was not selected for the prize.
Three scientists who worked in Warburg's lab, including Sir Hans Adolf Krebs, went on to win the Nobel Prize. Among other discoveries, Krebs is credited with the identification of the citric acid cycle (or Krebs cycle).
In 1924, Warburg hypothesized that cancer, malignant growth, and tumor growth are caused by the fact that tumor cells mainly generate energy (as e.g. adenosine triphosphate / ATP) by non-oxidative breakdown of glucose (a process called glycolysis). This is in contrast to "healthy" cells which mainly generate energy from oxidative breakdown of pyruvate. Pyruvate is an end-product of glycolysis, and is oxidized within the mitochondria. Hence and according to Warburg, cancer should be interpreted as a mitochondrial dysfunction.
"Cancer, above all other diseases, has countless secondary causes. But, even for cancer, there is only one prime cause. Summarized in a few words, the prime cause of cancer is the replacement of the respiration of oxygen in normal body cells by a fermentation of sugar." -- Dr. Otto H. Warburg in Lecture 
Warburg continued to develop the hypothesis experimentally, and held several prominent lectures outlining the theory and the data.
The concept that cancer cells switch to glycolysis has become widely accepted, even if it is not seen as the cause of cancer. Some suggest that the Warburg phenomenon could be used to develop anticancer drugs. Indeed is the basis of positron emission tomography (18-FDG PET), a medical imaging technology that relies on this phenomenon.
Otto Warburg edited and has much of his original work published in The Metabolism of Tumours (tr. 1931) and wrote New Methods of Cell Physiology (1962). An unabashed Anglophile, Otto Warburg was thrilled when Oxford University awarded him an honorary doctorate. Otto Warburg was awarded the Order Pour le Mérite in 1952. Warburg was known to tell other universities not to bother with honorary doctorates, and to ask officials to mail him medals he had been awarded so as to avoid a ceremony that would separate him from his beloved laboratory, an unusual trait in German culture.
Warburg also wrote about oxygen's relationship to the pH of cancer cells internal environment. Since fermentation was a major metabolic pathway of cancer cells, Warburg reported that cancer cells maintain a lower pH, as low as 6.0, due to lactic acid production and elevated CO2. He firmly believed that there was a direct relationship between pH and oxygen. Higher pH means higher concentration of oxygen molecules while lower pH means lower concentrations of oxygen.
When frustrated by the lack of acceptance of his ideas, Warburg was known to quote an aphorism he attributed to Max Planck that science doesn't progress because scientists change their minds, but rather because scientists attached to erroneous views die, and are replaced.
Seemingly utterly convinced of the accuracy of his conclusions, Warburg expressed dismay at the "continual discovery of cancer agents and cancer viruses" which he expected to "hinder necessary preventative measures and thereby become responsible for cancer cases". 
In his later years Warburg came to be a bit of an eccentric in that he was convinced that illness resulted from pollution; this caused him to become a bit of a health nut. He insisted on eating bread made from wheat grown organically on land that belonged to him. When he visited restaurants he often made arrangements to pay the full price for a cup of tea but to only be served boiling water, from which he would make tea with a tea bag he had brought with him. He was also known to go to significant lengths to obtain organic butter whose quality he trusted.
When Dr. Josef Issels, an intrepid doctor who became famous for his use of non-mainstream therapies to treat cancer, was arrested and later found guilty of malpractice in what Issels alleged was a highly politicized case, Warburg offered to testify on Issels' behalf at his appeal to the German Supreme Court. All of Issels' convictions were overturned.
The Otto Warburg Medal
The Otto Warburg Medal is intended to commemorate Warburg's outstanding achievements. It has been awarded by the German Society for Biochemistry and Molecular Biology (Gesellschaft für Biochemie und Molekularbiologie, GBM) since 1963. The prize honors and encourages pioneering achievements in fundamental biochemical and molecular biological research. The Otto Warburg Medal is regarded as the highest award for biochemists and molecular biologists in Germany. It has been endowed with prize money of 25,000 euros since 2007, sponsored by QIAGEN.
- Über die Rolle des Eisens in der Atmung des Seeigeleis nebst Bemerkungen über einige durch Eisen beschleunigte Oxydationen m. Abb. (Sitzungsber. Heidelberger Akad. Wiss. math.-nat. Kl B Heidelberg, 1911) (Trans: On the rôle of Iron in the Breathing of the Sea Urchin Egg and Comments about some Oxidations accelerated by Iron. Proceedings of the Heidelberg Academy of Sciences Heidelberg 1911.)
- Schwermetalle als Wirkungsgruppe von Fermenten (Berlin, 1946.) (Trans: Heavy metal prosthetic groups and enzyme action)
- Ideen zur Fermentchemie der Tumoren (Abh. der Deutschen Akad. der Wissenschaften zu Berlin. Math-naturwissenschaft. Kl 1947, Berlin 1947) (Trans: Theses on the enzymatic chemistry of Tumors, Proceedings of the German Academy of Sciences in Berlin, mathematical-scientific ?, Berlin 1947)
- Wasserstoffübertragende Fermente (Berlin, Saenger 1948) (Trans: Hydrogen-transferring Enzymes)
- Weiterentwicklung der zellphysiologischen Methoden: angewandt auf Krebs, Photosynthese und Wirkungsweise der Röntgenstrahlung: Arbeiten aus den Jahren 1945-1961, (Thieme, Stuttgart 1962) (Trans: Further Developments of Methods in Cellular Physiology applied to Cancer, Photosynthesis and the Effects of X-ray Radiation) Texts in German and English
- ↑ Krebs, HA (Nov., 1972). "Otto Heinrich Warburg. 1883-1970". Biographical Memoirs of Fellows of the Royal Society 18: 628-699. The Royal Society.
- ↑ NobelPrize.org, The Nobel Prize in Physiology or Medicine 1931 accessed April 20, 2007
- ↑ 3.0 3.1 Liljestrand & Bernhard 1972, "The Prize in Physiology or Medicine", p. 210
- ↑ The Nomination Database for the Nobel Prize in Physiology or Medicine, 1901-1951: 1944: Otto H Warburg. Nobel Foundation (1944). Retrieved on 2007-11-10.
- ↑ "Otto Warburg". Encyclopædia Britannica Online (2007). Retrieved on 2007-11-12..
- ↑ Chernow 539-541.
- ↑ Otto H. Warburg, The Prime Cause and Prevention of Cancer accessed October 30, 2007
- ↑ Warburg O (1956). "On the origin of cancer cells". Science 123 (3191): 309–14. doi:10.1126/science.123.3191.309. PMID 13298683.
- ↑ 9.0 9.1 Kim JW, Dang CV (2006). "Cancer's molecular sweet tooth and the Warburg effect". Cancer Res. 66 (18): 8927–30. doi:10.1158/0008-5472.CAN-06-1501. PMID 16982728.
- ↑ Som P, Atkins HL, Bandoypadhyay D, et al (1980). "A fluorinated glucose analog, 2-fluoro-2-deoxy-D-glucose (F-18): nontoxic tracer for rapid tumor detection". J. Nucl. Med. 21 (7): 670–5. PMID 7391842.
- ↑ Issels.
- 1965, Nobel Lectures, Physiology or Medicine 1922-1941, Amsterdam: Elsevier Publishing Company
- Chernow, Ron (1993), The Warburgs: The Twentieth-Century Odyssey of a Remarkable Jewish Family, New York, NY: Random House, ISBN 0-679-41823-7
- Krebs, Hans Adolf (1981), Otto Warburg: Cell Physiologist, Biochemist, and Eccentric, Oxford University Press, ISBN 0198581718
- Liljestrand, Göran & Bernhard, Carl Gustaf (1972), "The Prize in Physiology or Medicine", in Nobel Foundation & Odelberg, W. (Coordinating Ed.), Nobel: The Man and His Prizes (3rd ed.), New York, NY: American Elsevier Publishing Company, Inc, pp. 139-278, ISBN 0-444-00117-4
- Notable Names Database (NNDB) Biography
- Nobel Lecture biography
- 1931 Nobel Prize in Physiology or Medicine
- The Prime Cause and Prevention of Cancer
- Exerpt from The Warburgs by Ron Chernow (pgs. 539-541))
- Website of the Otto Warburg Medal
Nobel Laureates in Physiology or Medicine
Johannes Fibiger (1926) · Julius Wagner-Jauregg (1927) · Charles Nicolle (1928) · Christiaan Eijkman / Frederick Hopkins (1929) · Karl Landsteiner (1930) · Otto Warburg (1931) · Charles Sherrington / Edgar Adrian (1932) · Thomas Morgan (1933) · George Whipple / George Minot / William Murphy (1934) · Hans Spemann (1935) · Henry Dale / Otto Loewi (1936) · Albert Szent-Györgyi (1937) · Corneille Heymans (1938) · Gerhard Domagk (1939) · Henrik Dam / Edward Doisy (1943) · Joseph Erlanger / Herbert Gasser (1944) · Alexander Fleming / Ernst Chain / Howard Florey (1945) · Hermann Muller (1946) · Carl Cori / Gerty Cori / Bernardo Houssay (1947) · Paul Müller (1948) · Walter Hess / Egas Moniz (1949) · Edward Kendall / Tadeusz Reichstein / Philip Hench (1950)
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