About Us
Founded in 1944, the American Committee for the Weizmann Institute of Science develops philanthropic support for the Weizmann Institute in Israel, and advances its mission of science for the benefit of humanity.
May 06, 2020... A year and a half ago, biochemist Prof. Ruth Arnon, Israel Prize recipient for medicine and past president of the Israel Academy of Sciences and Humanities, received an email from the editor of a science journal. The editor asked whether she planned to attend a conference on multiple sclerosis that was to take place a few days later. Arnon, who was one of the scientists responsible for the research that led to the MS treatment, Copaxone, said she wouldn’t be attending, but was sending a researcher from her lab at the Weizmann Institute of Science.
Sep 10, 2020...
A novel treatment for Alzheimer’s, developed by one of Israel’s top scientists, is preparing to launch a Phase 1 clinical trial and, if successful, it could change the course of the disease and arrest its progression.
The therapy, developed by ImmunoBrain Checkpoint and based on 20 years of work by Prof. Michal Schwartz of the Weizmann Institute of Science demonstrating that the immune system is needed for the maintenance of healthy brain function and repair, would contribute to the understanding of the biology of Alzheimer’s disease.
Aug 04, 2022... REHOVOT, ISRAEL—August 4, 2022—The myriads of microbes in our gut, collectively termed the microbiome, are considered important to our health, but they can also harbor bacteria that contribute to inflammatory bowel disease or other disorders. Currently, however, it is impossible to target such disease-contributing bacteria without harming the surrounding beneficial microbes. Antibiotics kill friendly microbes along with the harmful ones, and in any event, they tend to trigger bacterial resistance and to have side effects. In a study published today in Cell, Weizmann Institute of Science researchers have demonstrated the feasibility of a potential therapy for killing inflammation-causing gut bacteria in a targeted manner: by using viruses that infect them.