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Gerhard Domagk

March 01, 2023

Gerhard Johannes Paul Domagk (German pronunciation: [ˈɡeːɐ̯haʁt ˈdoːmak] (listen); 30 October 1895 – 24 April 1964) was a German pathologist and bacteriologist. He is credited with the discovery of sulfonamidochrysoidine (KL730) as an antibiotic for which he received the 1939 Nobel Prize in Physiology or Medicine. The drug became the first commercially available antibiotic and marketed under the brand name Prontosil.[3][4]

Gerhard Domagk
Born
Gerhard Johannes Paul Domagk

(1895-10-30)30 October 1895
Lagow, Brandenburg, Kingdom of Prussia, German Empire
(now Łagów, Świebodzin County, Lubusz Voivodeship, Poland)
Died24 April 1964(1964-04-24) (aged 68)
Burgberg, Baden-Württemberg, West Germany
NationalityGerman
Alma materUniversity of Kiel
Known forDiscovery of sulfonamides such as Prontosil as antibiotics[1]
SpouseGertrud Strube
ChildrenOne daughter and three sons
AwardsCameron Prize for Therapeutics of the University of Edinburgh (1939)
Nobel Prize in Medicine (1939)
Paul Ehrlich and Ludwig Darmstaedter Prize (1956)
Fellow of the Royal Society (1959)[2]
Scientific career
FieldsBacteriology

While working in the pathology department of the University of Münster, Domagk was invited to join the IG Farben branch at Elberfeld (later Wuppertal) in 1927. His duty was to test chemical compounds prepared at the IG Farben laboratory for potential drugs. A novel compound synthesised by Friedrich Mietzsch and Joseph Klarer, a benzene derivative of azo dye attached with sulphonamide group as a side chain was found to have antibacterial activity against human bacterium Streptococcus pyogenes. In 1935, Domagk's only daughter, Hildegarde, injured herself and contracted a streptococcal infection. In a desperate attempt to save his daughter's arm from amputation and her life, Domagk used the new compound that eventually cured the infection. Given the brand name Prontosil, the new drug became the first antibiotic commercially available for bacterial infections.

Domagk was chosen to receive the 1939 Nobel Prize in Physiology or Medicine "for the discovery of the antibacterial effects of prontosil,"[5] but the Nazi Germany prohibited him from receiving the award. In 1947, after the fall of Nazi Germany, he was officially given the Nobel diploma and delivered the Nobel lecture.[6]

Biography

Domagk was born in Lagow, Brandenburg, German Empire (now Poland). His father Paul Richard Domagk was a school teacher. He had an elder brother Erich, who died in childhood, and a younger sister, Charlotte. When he was five, in 1900, his father was transferred to Sommerfeld (now Lubsko, Poland). He immediately entered the Bismarck School where he completed elementary education in 1910. Then, he attended Herzog-Heinrich School in Liegnitz where he completed secondary education in 194, aged 14.[7]

Domagk entered the University of Kiel in 1914 to study medicine. As the First World War broke out, the university was closed and he returned to Sommerfeld. He joined the German Grenadier Regimen 7 as a volunteer along with 15 of his old school friends. In his first experience of war at Flanders in October 1914, he barely escaped death where 11 of his school friends were killed. He was transferred to eastern front in Poland in December 1914, where he was shot on the head.[8] He was transported to Lichterfelde near Berlin where he recovered from the injury. There he was given a training as medical orderly. In May 1915, he rejoined the eastern front as a medic. He recalled the horrors and suffering, especially of infections, at the battlefields, saying "There horrible impressions kept pursuing me during my whole life, and made me think how I could take measures against bacteria... I then swore, in case I would return to my home alive, to work and work to make a small contribution to solve that problem."[9]

As the war ended in November 1918, Domagk resumed his medical course at Kiel. His doctoral thesis titled Beeinflussung der Kreatininausscheidung durch Muskelarbeit[10] (Influence of Creatinine Excretion in the Urine through Muscular Activity)[11] was supervised by Max Buerger and with that he earned his degree in 1921.[12] Between 1922 and 1923, he worked as an assistant to Georg Hoppe-Seyler at Kiel.[11]

In 1923, he met Walter Gross, the Director of the Institute of Pathology at the University of Greifswald, at the conference of German Society of Pathology in Leipzig. Gross was impressed with him and appointed him a junior doctor at Greifswald.[12] He supported Domagk's research on phagocytosis, an immune process discovered by Russian zoologist Elie Metchnikoff, so far as permitting excessive use of electricity, constant photographic lights, and free roaming of experimental mice, all of which angered the janitor. Domagk's thesis "Destroying infectious diseases through the reticuloendothelium and the development of amyloid",[11] published in 1924 in Virchows Archiv für pathologische Anatomie und Physiologie und für klinische Medizin (now Virchows Archiv)[13] was assessed as a worthy criterion for promotion to a full professor. However, Gross was appointed to the University of Münster, and he invited Domagk to join him as a lecturer at his proposed Department of Experimental Pathology.[14]

In 1925, he married Gertrude Strube, at the time an advisor to the German Chamber of Commerce in Basel.[15] Later they had three sons and a daughter.[11]

At Münster, Domagk felt that the new department was not flourishing as he anticipated and was underpaid. The IG Farben branch at Elberfeld (later Wuppertal) noticed him and offered him to lead their institute of experimental pathology. When he informed of this opportunity to his university authority in July 1927, and that he would stay if at least he was given a position of associate professor; he never received a response. He took a sabbatical leave for two years without pay, and decided to accept IF Farben's offer in 1929.[16] However, another source states that he joined the IG Farben in 1927.[11]

Domagk was appointed director of the Institute of Pathology and Bacteriology, started working at the IG Farben laboratories at Wuppertal where he continued the studies of Josef Klarer and Fritz Mietzsch, based on works by Paul Ehrlich, to use dyes, at that time a major product of the company, as antibiotics. He changed his focus to tuberculosis and chemotherapy. He remained in that position until his retirement in 1961.[11]

Domagk died from heart attack at his villa in the Black Forest village of Burberg near Königsfeld, Schwarzwald.[17]

Achievements

 
Tube of Prontosil tablets available in Germany during 1935-1950

Prontosil

Domagk's responsibility at IG Farben was to test the new compounds, chemical dyes, for antimicrobial activities. Werner Schulemann, Friedrich Mietzsch, Hans Mauss and Joseph Klarer were largely responsible for providing a continuous supply of chemicals to be screened.[18] Since the end of the 19th century, azo dyes, developed and used for colouring textile and other materials, were found to have medicinal properties against infections. For example, German biologist Paul Ehrlich used methylene blue, a type of azo dye, to kill malarial parasites in experimental animals, and cured two persons from malaria in 1891. Later, Ehrlich and his students found that some azo dyes were effective against African sleeping sickness.[19] In 1913, P. Eisenberg discovered that another azo dye, chrysoidine could kill bacteria and could be used as a disinfectant.[20][21] Following such leads, IG Farben devoted to studying and chemically modifying azo dyes for potential medicines.[19]

Development

In early 1930s, Mietzsch and Klarer synthesised a benzene derivative of azo dye, which was chemically related to (an analogue of) chrysoidine.[22] The compound had an addition of sulphonamide group as a side chain, thus becoming sulfamidochrysoidine. They suspected that a unique chemical component of sulphonamide group in the new dye could be a possible drug candidate; as Mietzsch predicted: "[The sulphonamide parts were] the right substituents in the right positions on the azo group."[18] The compound was then labelled KL730 (KL for Klarer). IG Farben received a German patent for the new compound in 1932.[23]

The exact date of synthesis is unknown.[22] An account that the IG Farben leader Heinrich Hörlein suggested the use of sufur group to azo dyes "some time in 1932"[24] may not be true, as IG Farben received the patent of the first modified sulfamidochrysoidine on 7 November 1931.[25] The other related compound received patent in December 1932.[23] Initial experiments in 1931 indicated poor antibacterial effect against bacterial cultures. It was not known at the time that the active component of Prontosil was the sulphonamide and not the azo group, as they expected. In addition, the sulphonamides by themselves were not antibacterials, but only became active drug after metabolism inside the body. This is why the first tests (in vitro) on bacterial cultures failed.[23]

Discovery of antibacterial activity

In early 1931,[25] Domagk immediately tested the compound in mice that were having bacterial infection, and found that it was effective against Gram-positive bacteria.[26] He designated a code for the compound D 4145 (D for Domagk).[24] He induced infection at the belly (peritonitis) of mice using clinical specimens (isolates) of Streptococcus pyogenes. In the first experiment, he infected 26 mice by injecting the bacteria, and he injected a single dose of Prontosil to 12 of the infected mice, while the rest 14 were simply kept infected (as controls) without Prontosil treatment. All the Prontosil-injected mice survived, meaning they were cured of the streptococcal infection,[18][27] whereas the untreated 14 mice all died by the fourth day of experiment.[22] There were several more experimental tests, and a clinical trial in which a boy was cured of streptococcal infection in 1933.[18] In February 1935, Domagk reported his experiments in the journal Deutsche Medizinische Wochenschrift as "Ein Beitrag zur Chemotherapie der bakteriellen Infektionen" ("A contribution to the chemotherapy of bacterial infections").[28][23]

At the time, there was no medical cure for streptococcal infection, and infected body parts had to be surgically removed to prevent further spread of the infection.[29] This is still in practice when the infection had caused severe tissue damage even after antibiotics are available.[30] In a notable incidence, Domagk's four-year-old daughter, Hildegarde, injured herself with a stitching needle while making Christmas decorations on 4 December 1935. She fell on the stairs and stabbed her hand with the needle, and the broken needle was stuck in her wrist. The needle was removed at a hospital. However, she developed severe inflammation and fever from the next day. As Domagk recounted:

When the dressing was changed a few days later there was marked swelling of the hand, and despite removal of all the stitches the fever continued to rise rapidly. In spite of numerous incisions the inflammation phlegmon extended to the under-arm. A serious worsening of the general condition and dizziness occurred, so that we were gravely worried about the child. Since further surgical intervention was not possible, I asked permission of the treating surgeon to use Prontosil, after I had established by culture that streptococci were the cause of the illness.[31]

After making 14 incisions, the physician suggested that the only way to save Hildegarde was amputation of the arm. However, Hildegarde recovered following the Prontosil treatment and her arm was saved.[23]

By 1935, Mietzsch and Klarer had prepared two forms of the compound, one is poorly soluble in water while the other is highly soluble. The water-soluble compound was given a name Streptozon (specifically Streptozon S, for the soluble sodium salt) after the bacterium with which it was originally experimented, and the less water-soluble was called Prontosil (specifically Prontosil rubrum).[32] Prontosil was used as the common name for both and the brand name of the drug after 1935. Domagk had used only the Streptozon type.[33] He reported the development of the drug and his human application in article "Chemotherapie der streptokokken-infektionen" ("Chemotherapy of streptococcus infection") in the October issue of Klinische Wochenschrift (later Journal of Molecular Medicine).[34]

Confirmation

The first independent research was done by English physician Leonard Colebrook at the Queen Charlotte's Maternity Hospital in London. Immediately after reading Domagk's paper, in 1935, Colebrook repeated the experiments on mice using both soluble Streptozon and the less soluble form and found that Streptozon was more effective but only in specific bacteria that caused puerperal fever.[35][36] However, he found a serious side effect that the surviving mice developed severe kidney damages. This discouraged him from human clinical trials, but he encountered one woman who was terminally ill from puerperal fever. Without other options of treatment, he gave the Streptozon that cured the woman in a couple of days. He tested the drug again on another woman with the same result, to which he remarked: "Almost at once there was a surprising and most gratifying change."[27] With Méave Kenny, he treated 64 women and reported the experiments and clinical trials in 1936.[33] The medical application was soon supported by other clinical cases and Prontosil became the major antibiotic for the next decade.[23]

Sulfonamides had revolutionary antibacterial effectiveness for their time, surpassing phage therapy, but were later replaced by penicillin, which showed both better effects and fewer side effects (sulfonamides can cause kidney stones and changes in bone marrow). However, Domagk's work on sulfonamides eventually led to the development of the antituberculosis drugs thiosemicarbazone and isoniazid, which helped to curb the epidemic of tuberculosis which swept Europe after World War II. Although Prontosil lost its popularity after the 1960s, its derivatives are continued to be used in several bacterial and viral infections,[37] especially in the treatments of burns and urinary tract infections.[38]

Zephirol

In 1932, Domagk discovered the potential use of benzyldimethyldodecylammonium chloride as a powerful antimicrobial agent. After a series of tests with different bacteria, he published in 1935 as a disinfectant, naming it Zephirol.[39] Domagk explained how Zephirol applied to the skin, such as before wearing gloves during surgery, could prevent infection.[40] It led to a successful marketing as a common disinfectant. This was the discovery of quats,[41] chemicals that are later used in a variety of consumer applications including as general antimicrobials (such as detergents and disinfectants), fabric softeners, and hair conditioners.[42][43]

Cancer therapy

Since 1936, Domagk also focussed on cancer treatment.[44] In 1956, he reported the successful development of an anticancer drug which he designated E-39 (E for ethylenimine quinones).[17] He showed that the compound could destroy cancer cells such as Yoshida sarcoma, Ehrlich carcinoma and Crocker sarcoma of mice and the Walker carcinoma of rats.[45][46] He was aware that precision drugs would be required to target specific cancers, as he remarked:

In therapy we will have to be satisfied, for the present at least, with a certain equilibrium between body cell and tumorous cell, even if the tumor cannot be completely eliminated. We will be satisfied if we ca slow down it growth, in order to preserve the life of a patient longer and under bearable conditions.[47]

Although the drug did not find way into prescription treatment of cancer, it was continued to be investigated[48][49] and several related compounds are still under experimental studies.[50][51][52]

Nobel Prize and issues

In 1939, Domagk was selected by the Nobel Foundation to receive the Nobel Prize in Physiology or Medicine for the discovery of Prontosil as an antibiotic, the first commercially available drug effective against bacterial infections. However, the Nazi Germany banned him from attending the award ceremony. This was because Carl von Ossietzky, an outspoken anti-Nazi pacifist, had won the Nobel Peace Prize in 1935, who which had angered the Nazi German government. Ossietzky was imprisoned and died in a concentration camp. In 1937, Adolf Hitler made an official decree that prohibited German nationals to accept the Nobel Prize.[11][53]

On 27 October 1939, Domagk received a telegram from the rector of the Karolinska Institute in Stockholm that he was to receive the Nobel Prize. He informed the rector of the University of Münster, Walter Mevius, who immediately submitted a petition to the German authorities to allow Domagk to receive the award. Domagk himself wrote to the NSDAP Office of the Führer, Hitler's headquarters, that should he be allowed to receive he award, he would donate 100,000 Deutsche Marks for the war cause.[11] On 17 November, he was arrested by the Gestapo who detained him for a week.[54][55][53] He was released when he was verified that he supported the German National Socialism and was politically loyal. However, he was informed to communicate with Karolinska Institute only through the government departments such as the Ministry of Education or Foreign Office, and forced to decline the award.[11] It was officially announced in Berlin that Domagk had "rather regretfully declined" the award.[17]

Two years after the end of World War II and the Nazi regime, the Nobel Foundation gave the Nobel medallion and a diploma to Domagk in 1947. However, the monetary prize was not given as it was already returned to the foundation.[26]

Awards and honours

Domagk was awarded the 1939 Nobel Prize in Physiology or Medicine. In the same year, Domagk was also awarded the Cameron Prize for Therapeutics of the University of Edinburgh. In 1941 Domagk was awarded the Medaglia Paterno (Rome) by the Kingdom of Italy and also the Von-Klebelsberg-Medal and Prize by the Kingdom of Hungary. He became a member of the German Academy of Sciences Leopoldina in 1942.

After the war, in 1947, Domagk was finally able to receive his Nobel Prize,[56] but not the monetary portion of the prize due to the time that had elapsed. In 1951, he was one of seven Nobel Laureates who attended the 1st Lindau Nobel Laureate Meeting.[57] He received the El Soleil del Perú in 1952, the Pour le mérite für Wissenschaften und Künste in 1952, the Spanish Civil de Sanidad in 1953, the del Lobertador from the Republic of Venezuela in 1957, the Medal of the Rising Sun 2nd Class from Japan in 1960, the Grand Cross with Star of the Order of Merit of the Federal Republic of Germany in 1955. In 1952, he was elected chairman of the German Society of Pathology.[11]

Domagk became a Foreign Member of the Royal Society in 1959; his short biography was published by the Royal Society in 1964.[2][53]

Domagkpark, a public park, and Domagkstraße, a road, in Munich are named after Domagk. In Münster, a research foundation called Krebsforschung Professor Dr. Gerhard Domagk (Cancer Research Professor Dr. Gerhard Domagk) was established in 1961, and Gerhard-Domagk-Institut für Pathologie (Gerhard Domagk Institute of Pathology) is created in the University of Münster.[11]

References

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External links

  • Gerhard Domagk on Nobelprize.org   including the Nobel Lecture on 12 December 1947 Further Progress in Chemotherapy of Bacterial Infections
  • Biography at Bayer

March 01, 2023
gerhard, domagk, gerhard, johannes, paul, domagk, german, pronunciation, ˈɡeːɐ, haʁt, ˈdoːmak, listen, october, 1895, april, 1964, german, pathologist, bacteriologist, credited, with, discovery, sulfonamidochrysoidine, kl730, antibiotic, which, received, 1939,. Gerhard Johannes Paul Domagk German pronunciation ˈɡeːɐ haʁt ˈdoːmak listen 30 October 1895 24 April 1964 was a German pathologist and bacteriologist He is credited with the discovery of sulfonamidochrysoidine KL730 as an antibiotic for which he received the 1939 Nobel Prize in Physiology or Medicine The drug became the first commercially available antibiotic and marketed under the brand name Prontosil 3 4 Gerhard DomagkBornGerhard Johannes Paul Domagk 1895 10 30 30 October 1895Lagow Brandenburg Kingdom of Prussia German Empire now Lagow Swiebodzin County Lubusz Voivodeship Poland Died24 April 1964 1964 04 24 aged 68 Burgberg Baden Wurttemberg West GermanyNationalityGermanAlma materUniversity of KielKnown forDiscovery of sulfonamides such as Prontosil as antibiotics 1 SpouseGertrud StrubeChildrenOne daughter and three sonsAwardsCameron Prize for Therapeutics of the University of Edinburgh 1939 Nobel Prize in Medicine 1939 Paul Ehrlich and Ludwig Darmstaedter Prize 1956 Fellow of the Royal Society 1959 2 Scientific careerFieldsBacteriologyWhile working in the pathology department of the University of Munster Domagk was invited to join the IG Farben branch at Elberfeld later Wuppertal in 1927 His duty was to test chemical compounds prepared at the IG Farben laboratory for potential drugs A novel compound synthesised by Friedrich Mietzsch and Joseph Klarer a benzene derivative of azo dye attached with sulphonamide group as a side chain was found to have antibacterial activity against human bacterium Streptococcus pyogenes In 1935 Domagk s only daughter Hildegarde injured herself and contracted a streptococcal infection In a desperate attempt to save his daughter s arm from amputation and her life Domagk used the new compound that eventually cured the infection Given the brand name Prontosil the new drug became the first antibiotic commercially available for bacterial infections Domagk was chosen to receive the 1939 Nobel Prize in Physiology or Medicine for the discovery of the antibacterial effects of prontosil 5 but the Nazi Germany prohibited him from receiving the award In 1947 after the fall of Nazi Germany he was officially given the Nobel diploma and delivered the Nobel lecture 6 Contents 1 Biography 2 Achievements 2 1 Prontosil 2 1 1 Development 2 1 2 Discovery of antibacterial activity 2 1 3 Confirmation 2 2 Zephirol 2 3 Cancer therapy 3 Nobel Prize and issues 4 Awards and honours 5 References 6 External linksBiography EditDomagk was born in Lagow Brandenburg German Empire now Poland His father Paul Richard Domagk was a school teacher He had an elder brother Erich who died in childhood and a younger sister Charlotte When he was five in 1900 his father was transferred to Sommerfeld now Lubsko Poland He immediately entered the Bismarck School where he completed elementary education in 1910 Then he attended Herzog Heinrich School in Liegnitz where he completed secondary education in 194 aged 14 7 Domagk entered the University of Kiel in 1914 to study medicine As the First World War broke out the university was closed and he returned to Sommerfeld He joined the German Grenadier Regimen 7 as a volunteer along with 15 of his old school friends In his first experience of war at Flanders in October 1914 he barely escaped death where 11 of his school friends were killed He was transferred to eastern front in Poland in December 1914 where he was shot on the head 8 He was transported to Lichterfelde near Berlin where he recovered from the injury There he was given a training as medical orderly In May 1915 he rejoined the eastern front as a medic He recalled the horrors and suffering especially of infections at the battlefields saying There horrible impressions kept pursuing me during my whole life and made me think how I could take measures against bacteria I then swore in case I would return to my home alive to work and work to make a small contribution to solve that problem 9 As the war ended in November 1918 Domagk resumed his medical course at Kiel His doctoral thesis titled Beeinflussung der Kreatininausscheidung durch Muskelarbeit 10 Influence of Creatinine Excretion in the Urine through Muscular Activity 11 was supervised by Max Buerger and with that he earned his degree in 1921 12 Between 1922 and 1923 he worked as an assistant to Georg Hoppe Seyler at Kiel 11 In 1923 he met Walter Gross the Director of the Institute of Pathology at the University of Greifswald at the conference of German Society of Pathology in Leipzig Gross was impressed with him and appointed him a junior doctor at Greifswald 12 He supported Domagk s research on phagocytosis an immune process discovered by Russian zoologist Elie Metchnikoff so far as permitting excessive use of electricity constant photographic lights and free roaming of experimental mice all of which angered the janitor Domagk s thesis Destroying infectious diseases through the reticuloendothelium and the development of amyloid 11 published in 1924 in Virchows Archiv fur pathologische Anatomie und Physiologie und fur klinische Medizin now Virchows Archiv 13 was assessed as a worthy criterion for promotion to a full professor However Gross was appointed to the University of Munster and he invited Domagk to join him as a lecturer at his proposed Department of Experimental Pathology 14 In 1925 he married Gertrude Strube at the time an advisor to the German Chamber of Commerce in Basel 15 Later they had three sons and a daughter 11 At Munster Domagk felt that the new department was not flourishing as he anticipated and was underpaid The IG Farben branch at Elberfeld later Wuppertal noticed him and offered him to lead their institute of experimental pathology When he informed of this opportunity to his university authority in July 1927 and that he would stay if at least he was given a position of associate professor he never received a response He took a sabbatical leave for two years without pay and decided to accept IF Farben s offer in 1929 16 However another source states that he joined the IG Farben in 1927 11 Domagk was appointed director of the Institute of Pathology and Bacteriology started working at the IG Farben laboratories at Wuppertal where he continued the studies of Josef Klarer and Fritz Mietzsch based on works by Paul Ehrlich to use dyes at that time a major product of the company as antibiotics He changed his focus to tuberculosis and chemotherapy He remained in that position until his retirement in 1961 11 Domagk died from heart attack at his villa in the Black Forest village of Burberg near Konigsfeld Schwarzwald 17 Achievements Edit Tube of Prontosil tablets available in Germany during 1935 1950 Prontosil Edit Domagk s responsibility at IG Farben was to test the new compounds chemical dyes for antimicrobial activities Werner Schulemann Friedrich Mietzsch Hans Mauss and Joseph Klarer were largely responsible for providing a continuous supply of chemicals to be screened 18 Since the end of the 19th century azo dyes developed and used for colouring textile and other materials were found to have medicinal properties against infections For example German biologist Paul Ehrlich used methylene blue a type of azo dye to kill malarial parasites in experimental animals and cured two persons from malaria in 1891 Later Ehrlich and his students found that some azo dyes were effective against African sleeping sickness 19 In 1913 P Eisenberg discovered that another azo dye chrysoidine could kill bacteria and could be used as a disinfectant 20 21 Following such leads IG Farben devoted to studying and chemically modifying azo dyes for potential medicines 19 Development Edit In early 1930s Mietzsch and Klarer synthesised a benzene derivative of azo dye which was chemically related to an analogue of chrysoidine 22 The compound had an addition of sulphonamide group as a side chain thus becoming sulfamidochrysoidine They suspected that a unique chemical component of sulphonamide group in the new dye could be a possible drug candidate as Mietzsch predicted The sulphonamide parts were the right substituents in the right positions on the azo group 18 The compound was then labelled KL730 KL for Klarer IG Farben received a German patent for the new compound in 1932 23 The exact date of synthesis is unknown 22 An account that the IG Farben leader Heinrich Horlein suggested the use of sufur group to azo dyes some time in 1932 24 may not be true as IG Farben received the patent of the first modified sulfamidochrysoidine on 7 November 1931 25 The other related compound received patent in December 1932 23 Initial experiments in 1931 indicated poor antibacterial effect against bacterial cultures It was not known at the time that the active component of Prontosil was the sulphonamide and not the azo group as they expected In addition the sulphonamides by themselves were not antibacterials but only became active drug after metabolism inside the body This is why the first tests in vitro on bacterial cultures failed 23 Discovery of antibacterial activity Edit In early 1931 25 Domagk immediately tested the compound in mice that were having bacterial infection and found that it was effective against Gram positive bacteria 26 He designated a code for the compound D 4145 D for Domagk 24 He induced infection at the belly peritonitis of mice using clinical specimens isolates of Streptococcus pyogenes In the first experiment he infected 26 mice by injecting the bacteria and he injected a single dose of Prontosil to 12 of the infected mice while the rest 14 were simply kept infected as controls without Prontosil treatment All the Prontosil injected mice survived meaning they were cured of the streptococcal infection 18 27 whereas the untreated 14 mice all died by the fourth day of experiment 22 There were several more experimental tests and a clinical trial in which a boy was cured of streptococcal infection in 1933 18 In February 1935 Domagk reported his experiments in the journal Deutsche Medizinische Wochenschrift as Ein Beitrag zur Chemotherapie der bakteriellen Infektionen A contribution to the chemotherapy of bacterial infections 28 23 At the time there was no medical cure for streptococcal infection and infected body parts had to be surgically removed to prevent further spread of the infection 29 This is still in practice when the infection had caused severe tissue damage even after antibiotics are available 30 In a notable incidence Domagk s four year old daughter Hildegarde injured herself with a stitching needle while making Christmas decorations on 4 December 1935 She fell on the stairs and stabbed her hand with the needle and the broken needle was stuck in her wrist The needle was removed at a hospital However she developed severe inflammation and fever from the next day As Domagk recounted When the dressing was changed a few days later there was marked swelling of the hand and despite removal of all the stitches the fever continued to rise rapidly In spite of numerous incisions the inflammation phlegmon extended to the under arm A serious worsening of the general condition and dizziness occurred so that we were gravely worried about the child Since further surgical intervention was not possible I asked permission of the treating surgeon to use Prontosil after I had established by culture that streptococci were the cause of the illness 31 After making 14 incisions the physician suggested that the only way to save Hildegarde was amputation of the arm However Hildegarde recovered following the Prontosil treatment and her arm was saved 23 By 1935 Mietzsch and Klarer had prepared two forms of the compound one is poorly soluble in water while the other is highly soluble The water soluble compound was given a name Streptozon specifically Streptozon S for the soluble sodium salt after the bacterium with which it was originally experimented and the less water soluble was called Prontosil specifically Prontosil rubrum 32 Prontosil was used as the common name for both and the brand name of the drug after 1935 Domagk had used only the Streptozon type 33 He reported the development of the drug and his human application in article Chemotherapie der streptokokken infektionen Chemotherapy of streptococcus infection in the October issue of Klinische Wochenschrift later Journal of Molecular Medicine 34 Confirmation Edit The first independent research was done by English physician Leonard Colebrook at the Queen Charlotte s Maternity Hospital in London Immediately after reading Domagk s paper in 1935 Colebrook repeated the experiments on mice using both soluble Streptozon and the less soluble form and found that Streptozon was more effective but only in specific bacteria that caused puerperal fever 35 36 However he found a serious side effect that the surviving mice developed severe kidney damages This discouraged him from human clinical trials but he encountered one woman who was terminally ill from puerperal fever Without other options of treatment he gave the Streptozon that cured the woman in a couple of days He tested the drug again on another woman with the same result to which he remarked Almost at once there was a surprising and most gratifying change 27 With Meave Kenny he treated 64 women and reported the experiments and clinical trials in 1936 33 The medical application was soon supported by other clinical cases and Prontosil became the major antibiotic for the next decade 23 Sulfonamides had revolutionary antibacterial effectiveness for their time surpassing phage therapy but were later replaced by penicillin which showed both better effects and fewer side effects sulfonamides can cause kidney stones and changes in bone marrow However Domagk s work on sulfonamides eventually led to the development of the antituberculosis drugs thiosemicarbazone and isoniazid which helped to curb the epidemic of tuberculosis which swept Europe after World War II Although Prontosil lost its popularity after the 1960s its derivatives are continued to be used in several bacterial and viral infections 37 especially in the treatments of burns and urinary tract infections 38 Zephirol Edit In 1932 Domagk discovered the potential use of benzyldimethyldodecylammonium chloride as a powerful antimicrobial agent After a series of tests with different bacteria he published in 1935 as a disinfectant naming it Zephirol 39 Domagk explained how Zephirol applied to the skin such as before wearing gloves during surgery could prevent infection 40 It led to a successful marketing as a common disinfectant This was the discovery of quats 41 chemicals that are later used in a variety of consumer applications including as general antimicrobials such as detergents and disinfectants fabric softeners and hair conditioners 42 43 Cancer therapy EditSince 1936 Domagk also focussed on cancer treatment 44 In 1956 he reported the successful development of an anticancer drug which he designated E 39 E for ethylenimine quinones 17 He showed that the compound could destroy cancer cells such as Yoshida sarcoma Ehrlich carcinoma and Crocker sarcoma of mice and the Walker carcinoma of rats 45 46 He was aware that precision drugs would be required to target specific cancers as he remarked In therapy we will have to be satisfied for the present at least with a certain equilibrium between body cell and tumorous cell even if the tumor cannot be completely eliminated We will be satisfied if we ca slow down it growth in order to preserve the life of a patient longer and under bearable conditions 47 Although the drug did not find way into prescription treatment of cancer it was continued to be investigated 48 49 and several related compounds are still under experimental studies 50 51 52 Nobel Prize and issues EditIn 1939 Domagk was selected by the Nobel Foundation to receive the Nobel Prize in Physiology or Medicine for the discovery of Prontosil as an antibiotic the first commercially available drug effective against bacterial infections However the Nazi Germany banned him from attending the award ceremony This was because Carl von Ossietzky an outspoken anti Nazi pacifist had won the Nobel Peace Prize in 1935 who which had angered the Nazi German government Ossietzky was imprisoned and died in a concentration camp In 1937 Adolf Hitler made an official decree that prohibited German nationals to accept the Nobel Prize 11 53 On 27 October 1939 Domagk received a telegram from the rector of the Karolinska Institute in Stockholm that he was to receive the Nobel Prize He informed the rector of the University of Munster Walter Mevius who immediately submitted a petition to the German authorities to allow Domagk to receive the award Domagk himself wrote to the NSDAP Office of the Fuhrer Hitler s headquarters that should he be allowed to receive he award he would donate 100 000 Deutsche Marks for the war cause 11 On 17 November he was arrested by the Gestapo who detained him for a week 54 55 53 He was released when he was verified that he supported the German National Socialism and was politically loyal However he was informed to communicate with Karolinska Institute only through the government departments such as the Ministry of Education or Foreign Office and forced to decline the award 11 It was officially announced in Berlin that Domagk had rather regretfully declined the award 17 Two years after the end of World War II and the Nazi regime the Nobel Foundation gave the Nobel medallion and a diploma to Domagk in 1947 However the monetary prize was not given as it was already returned to the foundation 26 Awards and honours EditDomagk was awarded the 1939 Nobel Prize in Physiology or Medicine In the same year Domagk was also awarded the Cameron Prize for Therapeutics of the University of Edinburgh In 1941 Domagk was awarded the Medaglia Paterno Rome by the Kingdom of Italy and also the Von Klebelsberg Medal and Prize by the Kingdom of Hungary He became a member of the German Academy of Sciences Leopoldina in 1942 After the war in 1947 Domagk was finally able to receive his Nobel Prize 56 but not the monetary portion of the prize due to the time that had elapsed In 1951 he was one of seven Nobel Laureates who attended the 1st Lindau Nobel Laureate Meeting 57 He received the El Soleil del Peru in 1952 the Pour le merite fur Wissenschaften und Kunste in 1952 the Spanish Civil de Sanidad in 1953 the del Lobertador from the Republic of Venezuela in 1957 the Medal of the Rising Sun 2nd Class from Japan in 1960 the Grand Cross with Star of the Order of Merit of the Federal Republic of Germany in 1955 In 1952 he was elected chairman of the German Society of Pathology 11 Domagk became a Foreign Member of the Royal Society in 1959 his short biography was published by the Royal Society in 1964 2 53 Domagkpark a public park and Domagkstrasse a road in Munich are named after Domagk In Munster a research foundation called Krebsforschung Professor Dr Gerhard Domagk Cancer Research Professor Dr Gerhard Domagk was established in 1961 and Gerhard Domagk Institut fur Pathologie Gerhard Domagk Institute of Pathology is created in the University of Munster 11 References Edit Otten H 1986 Domagk and the development of the sulphonamides The Journal of Antimicrobial Chemotherapy 17 6 689 696 doi 10 1093 jac 17 6 689 PMID 3525495 a b Colebrook Leonard 1964 Gerhard Domagk 1895 1964 Biographical Memoirs of Fellows of the Royal Society 10 38 50 doi 10 1098 rsbm 1964 0003 Kyle R A Shampo M A 1982 Gerhard Domagk JAMA The Journal of the American Medical Association 247 18 2581 doi 10 1001 jama 247 18 2581 PMID 7040718 G Domagk British Medical Journal 1 5391 1189 1191 1964 doi 10 1136 bmj 1 5391 1189 PMC 1813461 PMID 14120818 Raju T N 1999 The Nobel chronicles 1939 Gerhard Domagk 1895 1964 Lancet 353 9153 681 doi 10 1016 S0140 6736 05 75485 4 PMID 10030374 S2CID 54410112 The Nobel Prize in Physiology or Medicine 1939 Gerhard Domagk Nobelprize org Retrieved 2 July 2010 Grundmann Ekkehard 2004 Gerhard Domagk The First Man to Triumph Over Infectious Diseases LIT Verlag Munster pp 8 9 ISBN 978 3 8258 6164 3 Grundmann Ekkehard 2004 Ibid pp 12 13 ISBN 9783825861643 Grundmann Ekkehard 2004 Ibid pp 14 15 ISBN 9783825861643 Domagk Gerhard 1921 Beeinflussung der Kreatininausscheidung durch Muskelarbeit Universitat Kiel OCLC 793770685 a b c d e f g h i j k Uhlendahl Hendrik Gross Dominik 2020 Victim or profiteer Gerhard Domagk 1895 1964 and his relation to National Socialism Pathology Research and Practice 216 6 152944 doi 10 1016 j prp 2020 152944 ISSN 1618 0631 PMID 32303387 S2CID 215810336 a b Grundmann Ekkehard 2004 Ibid pp 16 18 ISBN 9783825861643 Domagk Gerhard 1924 Untersuchungen uber die Bedeutung des retikuloendothelialen Systems fur die Vernichtung von Infektionserregern und fur die Entstehung des Amyloids Virchows Archiv fur Pathologische Anatomie und Physiologie und fur Klinische Medizin in German 253 3 594 638 doi 10 1007 BF01994397 ISSN 0945 6317 S2CID 10695542 Grundmann Ekkehard 2004 Ibid pp 21 22 ISBN 9783825861643 Grundmann Ekkehard 2004 Ibid p 18 ISBN 9783825861643 Grundmann Ekkehard 2004 Ibid p 26 ISBN 9783825861643 a b c Prof Gerhard Domagk Dead Won 39 Nobel Prize for Drug Developed Prontosil the First Sulfonamide Studied Cancer and TB The New York Times 26 April 1964 ISSN 0362 4331 Retrieved 5 October 2022 a b c d Wainwright Mark Kristiansen Jette E 2011 On the 75th anniversary of Prontosil Dyes and Pigments 88 3 231 234 doi 10 1016 j dyepig 2010 08 012 a b Wainwright Mark 2008 Dyes in the development of drugs and pharmaceuticals Dyes and Pigments 76 3 582 589 doi 10 1016 j dyepig 2007 01 015 Whitson Theodore C 1968 Development of topical chemotherapy in the management of burns The American Journal of Surgery 116 1 69 72 doi 10 1016 0002 9610 68 90420 0 PMID 5652361 Durie Beatrix 1938 Sulphanamide Medical Journal of Australia 2 27 1103 1109 doi 10 5694 j 1326 5377 1938 tb46024 x ISSN 0025 729X a b c Kenny Meave 1945 Chemotherapy in Obstetrics and Gynaecology BJOG An International Journal of Obstetrics and Gynaecology 52 4 372 388 doi 10 1111 j 1471 0528 1945 tb07639 x ISSN 1470 0328 S2CID 71576734 a b c d e f Chung King Thom 2016 Azo dyes and human health A review Journal of Environmental Science and Health Part C Environmental Carcinogenesis amp Ecotoxicology Reviews 34 4 233 261 doi 10 1080 10590501 2016 1236602 ISSN 1532 4095 PMID 27635691 S2CID 27970581 a b Bentley Ronald 2009 Different roads to discovery Prontosil hence sulfa drugs and penicillin hence beta lactams Journal of Industrial Microbiology amp Biotechnology 36 6 775 786 doi 10 1007 s10295 009 0553 8 ISSN 1476 5535 PMID 19283418 a b Brownlee George 1949 The Sulphonamides and Allied Compounds Nature 163 4148 662 Bibcode 1949Natur 163 662B doi 10 1038 163662a0 ISSN 1476 4687 S2CID 4120072 a b Rifkind David 2005 Prontosil and the sulfonamides The Nobel Prize Winning Discoveries in Infectious Diseases London Elsevier Academic p 39 ISBN 978 0 12 369353 2 OCLC 162572834 a b Wong Sam 2017 Sibling saviours of the maternity ward New Scientist 233 3111 40 41 Bibcode 2017NewSc 233 40W doi 10 1016 S0262 4079 17 30228 2 ISSN 0262 4079 Domagk Gerhard 1935 Ein Beitrag zur Chemotherapie der bakteriellen Infektionen DMW Deutsche Medizinische Wochenschrift in German 61 7 250 253 doi 10 1055 s 0028 1129486 ISSN 0012 0472 Estes W L 1925 Amputations in industrial surgery Annals of Surgery 81 1 164 190 doi 10 1097 00000658 192501010 00016 ISSN 0003 4932 PMC 1400175 PMID 17865165 Sutherland Mark E Meyer Anthony A 1994 Necrotizing Soft Tissue Infections Surgical Clinics of North America 74 3 591 607 doi 10 1016 S0039 6109 16 46331 0 PMID 8197532 Petri William A 4 April 2007 The First Miracle Drugs How the Sulfa Drugs Transformed Medicine JAMA 297 13 doi 10 1001 jama 297 13 1494 ISSN 0098 7484 Braasch William F 1939 Present status of chemotherapy for infections of the urinary tract The American Journal of Surgery 45 3 472 478 doi 10 1016 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ed Nobel The Man and His Prizes Stockholm Klara Civiltryckeri pp 167 179 Thomas Hager The Demon Under the Microscope 2006 ISBN 1 4000 8213 7 cited in The Saga of a Sulfa Drug Pioneer NPR Weekend Edition 23 December 2006 NobelPrize org Archived 2 February 2007 at the Wayback Machine Chorba Terence March 2018 Peace Liberty Mycobacteria and Tuberculosis Mortality Emerg Infect Dis 24 3 611 612 doi 10 3201 eid2403 AC2403 PMC 5823360 1st Lindau Nobel Laureate Meeting Laureates www mediatheque lindau nobel org Retrieved 9 January 2018 External links EditGerhard Domagk on Nobelprize org including the Nobel Lecture on 12 December 1947 Further Progress in Chemotherapy of Bacterial Infections Biography at Bayer Retrieved from https en wikipedia org w index php title Gerhard Domagk amp oldid 1136325912, wikipedia, wiki, book, books, library,

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