Finding new methods for the development of antibodies became possible with an ERC Starting Grant of DKK 11.2 million from the European Research Council. Associate Professor Andreas Hougaard Laustsen from DTU Bioengineering is responsible for the research project MABSTER which will develop new methods for finding human antibodies with specific binding properties. Antibodies carrying these properties can, among other things, be used to develop a new generation of antivenoms designed in such a way that they are safe, inexpensive to produce, and can be given in ultra-low doses.”The new type of therapeutic antibodies can be used to design medicines for treating rare cancers and chronic diseases or medicines with a broad-spectrum effect against various infections, and they can also be fine-tuned to work in a specific part of the body to avoid side effects in, for example, healthy organs.””Associate Professor Andreas Hougaard Laustsen
Andreas Laustsen explains how this new type of antivenom based on human antibodies will be produced in cell factories, and how each antibody will be designed to be work against for example several different snake toxins at the same time.
“We are working on developing and refining the biotechnological methods we use to find therapeutic antibodies. These improved methods will enable us to discover ‘intelligent’ antibodies that can be administered in very low doses while still being effective, or that have a more broad-spectrum effect, meaning that they will work against several types of venom. Among other things, this will enable us to develop the next generation of snakebite antivenoms. But it will also make it possible to develop antibody-based medicines for a variety of infectious and parasitic diseases.”
Andreas Hougaard Laustsen’s research group the Tropical Pharmacology Lab had their first major breakthrough in 2018, when they succeeded—in collaboration with researchers from Instituto Clodomiro Picado in Costa Rica and IONTAS from Cambridge in England—in using a biotechnological method to produce and propagate human antibodies against black mamba venom. The research group is now working on the continuation of that success.
The ability to develop new types of antibodies is not only relevant in battling diseases that affect societies in the poorer parts of the world, such as snakebite envenoming —the methods that the MABSTER project aims to develop can also be used to develop medicines for cancer, autoimmune diseases, and even multiresistant bacteria:
“The tools we develop have the potential to constitute a paradigm shift within antivenom research and within the design of biotherapeutic medicines for mutating diseases such as cancer, infections, and parasites.
The new type of therapeutic antibodies can be used to design medicines for treating rare cancers and chronic diseases or medicines with a broad-spectrum effect against various infections, and they can also be fine-tuned to work in a specific part of the body to avoid side effects in, for example, healthy organs,” says Andreas Hougaard Laustsen.