Arnold Adolph Berthold (1849) Arnold Adolph Berthold was a German
physiologist and
zoologist, who, in 1849, had a question about the function of the
testes. He noticed in castrated roosters that they did not have the same sexual behaviors as
roosters with their testes intact. He decided to run an experiment on male roosters to examine this phenomenon. He kept a group of roosters with their testes intact, and saw that they had normally sized wattles and combs (secondary
sexual organs), a normal crow, and normal sexual and aggressive behaviors. He also had a group with their testes surgically removed, and noticed that their secondary sexual organs were decreased in size, had a weak crow, did not have sexual attraction towards females, and were not aggressive. He realized that this organ was essential for these behaviors, but he did not know how. To test this further, he removed one testis and placed it in the abdominal cavity. The roosters acted and had normal physical
anatomy. He was able to see that the location of the testes does not matter. He then wanted to see if it was a
genetic factor that was involved in the testes that provided these functions. He transplanted a testis from another rooster to a rooster with one testis removed, and saw that they had normal behavior and physical anatomy as well. Berthold determined that the location or genetic factors of the testes do not matter in relation to sexual organs and behaviors, but that some
chemical in the testes is being secreted is causing this phenomenon. It was later identified that this factor was the hormone
testosterone.
Charles and Francis Darwin (1880) Although known primarily for his work on the
Theory of Evolution,
Charles Darwin was also keenly interested in plants. Through the 1870s, he and his son
Francis studied the movement of plants towards light. They were able to show that light is perceived at the tip of a young stem (the
coleoptile), whereas the bending occurs lower down the stem. They proposed that a 'transmissible substance' communicated the direction of light from the tip down to the stem. The idea of a 'transmissible substance' was initially dismissed by other plant biologists, but their work later led to the discovery of the first plant hormone. In the 1920s Dutch scientist
Frits Warmolt Went and Russian scientist
Nikolai Cholodny (working independently of each other) conclusively showed that asymmetric accumulation of a growth hormone was responsible for this bending. In 1933 this hormone was finally isolated by Kögl, Haagen-Smit and Erxleben and given the name '
auxin'.
Oliver and Schäfer (1894) British physician
George Oliver and physiologist
Edward Albert Schäfer, professor at University College London, collaborated on the physiological effects of adrenal extracts. They first published their findings in two reports in 1894, a full publication followed in 1895. Though frequently falsely attributed to
secretin, found in 1902 by Bayliss and Starling, Oliver and Schäfer's adrenal extract containing
adrenaline, the substance causing the physiological changes, was the first hormone to be discovered. The term hormone would later be coined by Starling.
Bayliss and Starling (1902) William Bayliss and
Ernest Starling, a
physiologist and
biologist respectively, wanted to see if the
nervous system had an impact on the
digestive system. From the work of
Martin Heidenhain and
Claude Bernard, they knew that the
pancreas was involved in the secretion of
digestive fluids after the passage of food from the
stomach to the
intestines, which they believed to be due to the nervous system. They cut the nerves to the pancreas in an animal model and discovered that it was not nerve impulses that controlled secretion from the pancreas. It was determined that a factor secreted from the intestines into the
bloodstream was stimulating the pancreas to secrete digestive fluids. This was named
secretin: a hormone. In 1905 Starling coined the word hormone from the Greek
to arouse or excite which he defined as "the
chemical messengers which speeding from cell to cell along the blood stream, may coordinate the activities and growth of different parts of the body". ==Types of signaling==