Ulf von Euler

On 12 April, 1930, Ulf von Euler married Jane Sodenstierna. They had two sons; Hans Leo and Johan Christopher, and two daughters; Ursula Katarina and Marie Jane. All of them were highly educated and held important positions in their respective fields. The marriage culminated in a divorce in 1957.

He married Dagmar Carola Adelaide Cronstedt, a Swedish Countess, on 20 August 1958. They remained together till his death. The couple did not have any children.

Ulf von Euler died in Stockholm on 9 March 1983 following complications resulting from an open heart surgery. .

Ulf von Euler was born on 7 February 1905, in Stockholm, into an educationally distinguished family. His father, Hans Karl August Simon von Euler-Chelpin, was a German-born Swedish biochemist, who won the Nobel Prize in Chemistry in 1929.

His mother, Astrid M. Cleve von Euler, was the first Swedish woman to obtain a doctoral degree in science (botany). Born as the eldest daughter of Per Teodor Cleve, who discovered holmium and thulium, she was a professor of botany and geology and also a reputed researcher at Uppsala University.

Ulf von Euler was the second son of his parents’ five children. Although his parents divorced in 1912 and his father married Elisabeth Baroness af Ugglas the following year it did not have any negative impact on his upbringing.

Brought up in a scientific environment, it became inevitable that Ulf von Euler would also grow up to be a scientist. He did his schooling first in Stockholm and then in Karlstad. In 1922, he entered Karolinska Institute, one of the most prestigious medical schools in the world, to study medicine.

While there, von Euler began his research work under Robin Fåhraeus on blood sedimentation and rheology. Later he also researched on the pathophysiology of vasoconstriction.

Soon after receiving his PhD in 1930, von Euler was appointed as an Assistant Professor in Pharmacology at Karolinska Institute, also known as Royal Caroline Institute, on the recommendation of Göran Liljestrand. In the same year, he received a Rochester Fellowship to do his post-doctoral studies abroad.

Accordingly, he first went to England to work with John H. Gaddum at the laboratory of Sir Henry Dale in London. Working with rabbits, he discovered an active biological factor, which is resistant to atropine. He named it ‘Substance P’.

The substance contracted the muscles of the gastrointestinal tract and lowered blood pressure in anesthetized rabbits. After working on it for few months he described its polypeptide structure, studied its distribution in the body and also developed methods to purify it.

Subsequently, he worked with I. de Burgh Daly in Birmingham, Corneille Heymans in Ghent and Gustav Embden in Frankfurt before returning to Karolinska Institute, where he carried on his research work. Then on coming back to Stockholm, he resumed his duty as an Assistant Professor at the Karolinska Institute. However, he kept on making foreign tours, visiting laboratories of established scientists around the world.

In 1934, he made his second discovery. Continuing with his work on different kinds of tissue extracts he discovered another atropine-resistant biological factor in human seminal fluid and sheep vesicular glands. He dubbed it ‘prostaglandin’.

Identification of norepinephrine in the sympathetic nervous system is considered to be his most important work. He and his team had also studied it from various angles and the findings provided a new direction to the research on the neurotransmission processes. The discovery had a great impact not only on scientific world, but also on medical science.