Chinese Scientist Wins Lasker Award for Anti-Malaria Drug
An 81-year-old Chinese scientist won America’s outstanding award in medicine on Friday for her discovery of an anti-malaria drug.
Professor Tu Youyou is the first scientist from mainland China to win the Lasker Award—dubbed as “America’s Nobels.”
Tu’s discovery of artemisinin is a highly effective anti-malarial drug. It has saved millions of people, especially in developing countries.
Tu Youyou
For the discovery of artemisinin, a drug therapy for malaria that has saved millions of lives across the globe, especially in the developing world.
The 2011 Lasker~DeBakey Clinical Medical Research Award honors a scientist who discovered artemisinin and its utility for treating malaria. Tu Youyou (China Academy of Chinese Medical Sciences, Beijing) developed a therapy that has saved millions of lives across the globe, especially in the developing world. An artemisinin-based drug combination is now the standard regimen for malaria, and the World Health Organization (WHO) lists artemisinin and related agents in its catalog of "Essential Medicines." Each year, several hundred million people contract malaria. Without treatment, many more of them would die than do now. Tu led a team that transformed an ancient Chinese healing method into the most powerful antimalarial medicine currently available.
Malaria has devastated humans for millennia, and it continues to ravage civilizations across the planet. In 2008, the mosquito-borne parasites that cause the illness, Plasmodia, infected 247 million people and caused almost one million deaths. The ailment strikes children particularly hard, especially those in sub-Saharan Africa. It affects more than 100 countries—including those in Asia, Latin America, the Middle East, parts of Europe—and travelers from everywhere. Symptoms include fever, headache, and vomiting; malaria can quickly become life-threatening by disrupting the blood supply to vital organs. Early diagnosis and treatment reduces disease incidence, prevents deaths, and cuts transmission.
In the late 1950s, the WHO embarked on an ambitious project to eradicate malaria. After limited success, the disease rebounded in many places, due in part to the emergence of parasites that resisted drugs such as chloroquine that had previously held the malady at bay. At the beginning of the Chinese Cultural Revolution, the Chinese government launched a secret military project that aimed to devise a remedy for the deadly scourge. China was particularly motivated to prevail over malaria not only because it was a significant problem at home, but also because the Vietnamese government had asked for help. It was at war and the affliction was devastating its civilian and military populations.
The covert operation, named Project 523 for the day it was announced—May 23, 1967—set out to battle chloroquine-resistant malaria. The clandestine nature of the enterprise and the political climate created a situation in which few scientific papers concerning the project were published for many years, the earliest ones were not accessible to the international community, and many details about the endeavor are still shrouded in mystery. In early 1969, Tu was appointed head of the Project 523 research group at her institute, where practitioners of traditional medicine worked side by side with modern chemists, pharmacologists, and other scientists. In keeping with Mao Zedong's urgings to "explore and further improve" the "great treasure house" of traditional Chinese medicine, Tu combed ancient texts and folk remedies for possible leads. She collected 2000 candidate recipes, which she then winnowed. By 1971, her team had made 380 extracts from 200 herbs. The researchers then assessed whether these substances could clear Plasmodia from the bloodstream of mice infected with the parasite.