Antibody Therapy Creates New Opportunities For Treating Brain Diseases
Immunotherapy has proven to be effective against many serious diseases. But to treat diseases in the brain, the antibodies must first get past the obstacle of the blood-brain barrier. In a new study, a research group at Uppsala University describes their development of a new antibody design that increases brain uptake of antibodies almost 100-fold.
Immunotherapy entails treatment with antibodies; it is the fastest growing field in pharmaceutical development. In recent years, immunotherapy has successfully been used to treat cancer and rheumatoid arthritis, and the results of clinical studies look very promising for several other diseases. Antibodies are unique in that they can be modified to strongly bind to almost any disease-causing protein. In other words, major potential exists for new antibody-based medicines.
The problem with immunotherapy for diseases affecting the brain is that the brain is protected by a very tight layer of cells, called the blood-brain barrier. The blood-brain barrier effectively prevents large molecules, such as antibodies, from passing from the bloodstream into the brain. It has therefore been difficult to use immunotherapy to treat Alzheimer’s and Parkinson’s disease, which affect the brain, as well as cancerous tumours in the brain.
It has been known for a long time that some large proteins are actively transported across the blood-brain barrier. These include a protein called transferrin, whose primary task is to bind to iron in the blood and then transport it to the brain. The research group behind this new study has taken advantage of this process and modified the antibodies they want to transport into the brain using components that bind to the transferrin receptor. Then, like a Trojan horse, the receptor transports antibodies into the brain. The number of modifications to and placement of the antibodies have proven to be important factors for making this process as effective as possible.
“Bivalent Brain Shuttle Increases Antibody Uptake by Monovalent Binding to the Transferrin Receptor” by Greta Hultqvist, Stina Syvänen, Xiaotian T Fang, Lars Lannfelt, and Dag Sehlin in Theranostics. Published online January 2017 doi:10.7150/thno.17155
The green antibody is modified using two components that bind to the transferrin receptor and enable the antibody to pass through the blood-brain barrier. The components are placed in such a way that prevents them from being able to bind simultaneously. The placement is important, because otherwise the antibody would not detach on the far side of the blood-brain barrier. NeuroscienceNews.com image is credited to Greta Hultqvist.
