Myspace Layouts at Pimp-My-Profile.com / Black and White layout
Myspace Layouts at Pimp-My-Profile.com / Black and White layout
Julian's research at Glidden changed in 1940 when he began work on synthesizing progesterone, estrogen and testosterone from the plant sterol stigmasterol, and sitosterol isolated from soybean oil by a foam technique he invented. At that time clinicians were discovering many uses for the newly discovered sex hormones. However, only minute quantities could be produced from the extraction of hundreds of pounds of spinal cords, testicles or ovaries. In 1940 Julian produced 100 lb of mixed soy sterols daily and the value of this daily by-product in terms of sex hormones was $10,000 daily. Julian was soon ozonizing 100 pounds daily of mixed sterol dibromides. The result was the female hormone progesterone which was put on the American market in bulk for the first time and other sex hormones soon followed.His work made possible the production of these hormones on a larger industrial scale, with a potential of reducing the cost of treating hormonal deficiencies. Julian and his co-workers obtained patents for Glidden .. processes for the preparation of progesterone and testosterone from soybean plant sterols, but product patents held by a former cartel of European pharmaceutical companies prevented a significant reduction in wholesale and retail prices for clinical use of these hormones in the 1940s.On April 13, 1949, rheumatologist Philip Hench at the Mayo Clinic announced the dramatic effectiveness of cortisone in treating rheumatoid arthritis. The cortisone was produced by Merck at great expense using a complex 36-step synthesis developed by chemist Lewis Sarett starting with deoxycholic acid from cattle bile acids. On September 30, 1949, Julian announced an improvement in the process of producing cortisone from bile acids that eliminated the need to use osmium tetroxide (a rare and expensive chemical), and said, further, that by 1950, Glidden would begin producing closely related compounds which may have partial, cortisone, activity. Julian also announced the synthesis, starting with pregnenolone from soybean oil sterols of the steroid cortexolone and possibly 17,,-hydroxyprogesterone and pregnenetriolone, which he hoped might also be effective in treating rheumatoid arthritis 8]On April 5, 1952, biochemist Durey Peterson and microbiologist Herbert Murray at Upjohn published the first report of a fermentation process for the microbial 11,,-oxygenation of steroids in a single step (by common molds of the order Mucorales). Their fermentation process could produce 11,,-hydroxyprogesterone or 11,,-hydroxycortisone from progesterone or Compound S, respectively, which could then by further chemical steps be converted to cortisone or 11β-hydroxycortisone (cortisol).After two years, Glidden abandoned production of cortisone from bile acids to concentrate on Compound S. Julian developed an excellent multistep process for conversion of pregnenolone, available in abundance from soybean oil sterols to cortexolone.In 1952, Glidden, which had been producing progesterone and other steroids from soybean oil, shut down its own production and began importing them from Mexico through an arrangement with Diosynth (a small Mexican company founded in 1947 by Russell Marker after leaving Syntex). Glidden's cost of production of cortexolone was relatively high, so Upjohn decided to use progesterone, available in large quantity at low cost from Syntex, to produce cortisone and hydrocortisone.In 1953, Glidden decided to leave the steroid business which had been relatively unprofitable over the years despite Julian's innovative work.On December 1, 1953, Julian left Glidden after 18 years, giving up a salary of nearly $50,000 a year, to found his own company, Julian Laboratories, Inc., taking over the small, concrete-block building of Suburban Chemical Company in Franklin Park, Illinois.On December 2, 1953, Pfizer and Syntex acquired exclusive licenses of Glidden patents for the synthesis of Compound S. Pfizer had developed a fermentation process for microbial 11β-oxygenation of steroids in a single step that could convert Compound S directly to 11β-hydrocortisone (cortisol), with Syntex undertaking large-scale production of cortexolone at very low costAround 1950 Julian moved his family from Chicago to the suburb of Oak Park, Illinois, where the Julians were the first African American family. Although some residents welcomed them into the community, there was also widespread antipathy towards them. Their home was fire-bombed on Thanksgiving Day, 1950, before they moved in. After they moved to Oak Park, the house was attacked with dynamite on June 12, 1951. The attacks galvanized the community and a community group was formed to support the Julians.Julian's son later recounted that during these times, he and his father often kept watch over the family's property by sitting in a tree with a shotgun.In 1953, he founded his own research firm, Julian Laboratories, Inc. He brought many of his best chemists including African Americans and women from Glidden to his own company. He won a contract to provide Upjohn with $2 million worth of progesterone. To compete against Syntex he would have to use the same Mexican yam as his starting material. He borrowed and used his own money to build a processing plant in Mexico, but could not get a permit to harvest the yams from the government. Abraham Zlotnik found a new source of the yam in Guatemala for the company.In July 1956, Julian and executives of two other American companies trying to enter the Mexican steroid intermediates market appeared before a U.S. Senate subcommittee and testified that Syntex was using undue influence to monopolize access to the Mexican yam.The hearings resulted in Syntex signing a consent decree with the U.S. Justice Department in which it did not admit to restraining trade but promised not to do so in the future.With the doors to the Mexican steroid intermediates market forced open by the U.S. government, within five years, large American multinational pharmaceutical companies had acquired all six producers of steroid intermediates in Mexico (four of which had previously been Mexican-owned).Syntex had reduced the cost of bulk progesterone as an intermediate more than 250-fold over twelve years, from $80 per gram in 1943 to $0.31 per gram in 1955. Competition from Upjohn and General Mills, who had together made very substantial improvements in the production of progesterone from stigmasterol, forced the price of Mexican progesterone down to less than $0.15 per gram in 1957, and the price continued to fall, bottoming out at $0.08 per gram in 1968.In 1958, Upjohn purchased 6,900 kg of progesterone from Syntex at $.135 per gram, 6,201 kg of progesterone from Searle (who had acquired Pesa) at $0.143 per gram, 5,150 kg of progesterone from Julian Laboratories at $0.14 per gram, and 1,925 kg of progesterone from General Mills (who had acquired Protex) at $0.142 per gram.Despite continually falling bulk prices of steroid intermediates, an oligopoly of large American multinational pharmaceutical companies kept the wholesale prices of corticosteroid drugs fixed and unchanged year after year into the 1960s (cortisone fixed at $5.48 per gram from 1954, hydrocortisone fixed at $7.99 per gram from 1954, prednisone fixed at $35.80 per gram from 1956). Merck and Roussel Uclaf concentrated on improving the production of corticosteroids from cattle bile acids—in 1960 Roussel produced almost one-third of the world's corticosteroids from bile acids.One year Julian Laboratories chemists found a way to quadruple the yield on a product on which they were barely breaking even, and Julian reduced their price for the product from $4,000 per kg down to $400 per kg.He sold the company in 1961, for $2.3 million dollars.The U.S. and Mexico facilities were purchased by Smith Kline and his chemical plant in Guatemala was purchased by Upjohn. In 1964, he founded Julian Associates and Julian Research Institute, which he managed for the rest of his life.Percy Lavon Julian was elected to the National Academy of Sciences in 1973 in recognition of his scientific achievements. He was the second African American after David Blackwell.Julian died of liver cancer on April 19, 1975 in St. Theresa's Hospital in Waukegan, Illinois and was buried in Elm Lawn Cemetery in Elmhurst, Illinois