A new study suggests that it is possible to design drugs that can target a type of shape-shifting protein involved in Alzheimer鈥檚 disease, which was previously thought to be undruggable.
A new study suggests that it is possible to design drugs that can target a type of shape-shifting protein involved in Alzheimer鈥檚 disease, which was previously thought to be undruggable.
We hope that we can extend this understanding to also target disordered proteins involved in other diseases
Gabriella Heller
A team of researchers, led by the 探花直播 of Cambridge, have identified a new mechanism of targeting amyloid-beta, a protein fragment that clumps together and kills healthy brain cells in people with Alzheimer鈥檚 disease.
Working with colleagues from Imperial College London, Institut Pasteur, and the 探花直播 of Florence, the researchers found that it is possible for a drug-like molecule to target amyloid-beta in its disordered state, reducing its ability to form the toxic clusters which are the hallmark of Alzheimer鈥檚 disease. 探花直播results, reported in the journal Science Advances, could form the basis of a new avenue for the development of potential treatments for the disease.
鈥淎myloid-beta is a disordered protein, a type of target that is elusive for standard therapeutic approaches,鈥 said Professor Michele Vendruscolo from Cambridge鈥檚 Centre for Misfolding Diseases, who led the research. 鈥淚t is constantly changing shape, so traditional drug discovery techniques don鈥檛 work on it. By revealing a new drug-binding mechanism, we have extended traditional drug discovery approaches based on the optimisation of the binding affinity to include disordered proteins.鈥
Most drugs work by binding proteins through what is often described as a lock-and-key mechanism, where a drug fits into a protein鈥檚 grooves like a key in a lock. However, since they are often changing shape, disordered proteins such as amyloid-beta听don鈥檛 have stable 鈥榣ocks鈥 for drugs to bind to, which is why they are considered 鈥榰ndruggable.鈥
探花直播approach developed by the researchers is based on the so-called disordered binding mechanism that they discovered, where small molecules form a disordered complex with the protein target, so that it is like the protein and the drug are 鈥榙ancing鈥 with one another.
探花直播researchers characterised this new mechanism using a combination of biophysical experiments, mathematical modelling, in vivo experiments and computation.
First, they tested the aggregation of amyloid-beta in the presence of the compound in in vitro assays. Data from these experiments allowed the researchers to build a mathematical model of how the drug was able to inhibit the aggregation of amyloid-beta at the microscopic level.
探花直播team also used high-performance computing methods to study the binding interaction at the atomic level. These intensive calculations allowed the researchers to 鈥榮ee鈥 how the binding was occurring at the atomic level, which is otherwise almost impossible to observe experimentally. Further tests were then carried out in nematode worms, which are often used as a model organism to study Alzheimer鈥檚 disease.
鈥淚n contrast to the traditional lock-and-key binding mechanism, in which a drug tightly interacts with its target in a specific conformation, we found that both the small molecule and the disordered protein remained extremely dynamic, and that the small molecule interacted with many parts of the protein,鈥 said Gabriella Heller, Schmidt Science Fellow and the study鈥檚 first author.
鈥淭his way of stabilising native states of proteins is a powerful drug discovery strategy, which has so far been extremely challenging for disordered proteins,鈥 said Vendruscolo.
Amyloid beta, the protein which the team targeted, is closely associated with Alzheimer鈥檚 disease as it is the primary component of senile plaques, which are characteristically found in the brains of the people affected by the disease.
While this research is still preliminary in terms of clinical translation, it demonstrates that targeting the formation of these plaques by preventing the aggregation of amyloid-beta is a major therapeutic strategy. To date the mainstream approach has been to develop antibodies to bind to the aggregates, promoting their removal and interfering with their self-assembly.
鈥淒isordered proteins are also involved in a wide range of diseases including cancer and cardiovascular disease. We hope that we can extend this understanding to also target disordered proteins involved in other diseases,鈥 said Heller.
Reference:
Gabriella T. Heller et al. 鈥楽mall-molecule sequestration of amyloid-尾 as a drug discovery strategy for Alzheimer鈥檚 disease.鈥 Science Advances (2020). DOI: 10.1126/sciadv.abb5924
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