Jul 5, 2016
Engineers Design Programmable RNA Vaccines That Protext Against Ebola and H1N1 Influenza
Posted by Phillipe Bojorquez in categories: bioengineering, biotech/medical, genetics
A newly published study details how engineers developed programmable RNA vaccines that work against Ebola, H1N1 influenza, and a common parasites in mice.
MIT engineers have developed a new type of easily customizable vaccine that can be manufactured in one week, allowing it to be rapidly deployed in response to disease outbreaks. So far, they have designed vaccines against Ebola, H1N1 influenza, and Toxoplasma gondii (a relative of the parasite that causes malaria), which were 100 percent effective in tests in mice.
The vaccine consists of strands of genetic material known as messenger RNA, which can be designed to code for any viral, bacterial, or parasitic protein. These molecules are then packaged into a molecule that delivers the RNA into cells, where it is translated into proteins that provoke an immune response from the host.