Unique AI method for generating proteins to speed up drug development

Unique AI method for generating proteins will speed up drug development
Researchers at Chalmers University of Technology, Sweden, present a way to generate synthetic proteins using Artificial Intelligence. The new approach has huge potential for developing efficient industrial enzymes as well as new protein-based medicine, such as antibodies and vaccines. Image: Pixabay/Yen Strandqvist, Chalmers University of Technology Credit: Pixabay/Yen Strandqvist, Chalmers University of Technology
Artificial intelligence is now capable of generating novel, functionally active proteins, thanks to recently published work by researchers from Chalmers University of Technology, Sweden.

"What we are now able to demonstrate offers fantastic potential for a number of future applications, such as faster and more cost-efficient development of -based drugs," says Aleksej Zelezniak, Associate Professor at the Department of Biology and Biological Engineering at Chalmers.

Proteins are large, that play a crucial role in all living cells, building, modifying, and breaking down other molecules naturally inside our cells. They are also widely used in industrial processes and products, and in our daily lives.

Protein-based drugs are very common—the diabetes drug insulin is one of the most prescribed. Some of the most expensive and effective cancer medicines are also protein-based, as well as the antibody formulas currently being used to treat COVID-19.

From computer design to working proteins in just a few weeks

Current methods used for protein engineering rely on introducing random mutations to protein sequences. However, with each additional random mutation introduced, the protein activity declines.

"Consequently, one must perform multiple rounds of very expensive and time-consuming experiments, screening millions of variants, to engineer proteins and enzymes that end up being significantly different from those found in nature," says research leader Aleksej Zelezniak, continuing:

"This engineering process is very slow, but now we have an AI-based method where we can go from to working protein in just a few weeks."

The new results from the Chalmers researchers were recently published in the journal Nature Machine Intelligence and represent a breakthrough in the field of synthetic proteins. Aleksej Zelezniak's research group and collaborators have developed an AI-based approach called ProteinGAN, which uses a generative deep learning approach.

In essence, the AI is provided with a large amount of data from well-studied proteins; it studies this data and attempts to create new proteins based on it.

At the same time, another part of the AI tries to figure out if the synthetic proteins are fake or not. The proteins are sent back and forth in the system until the AI cannot tell apart natural and synthetic proteins anymore.

This method is well known for creating photos and videos of people who do not exist, but in this study, it was used for producing highly diverse protein variants with naturalistic-like physical properties that could be tested for their functions.

The proteins widely used in everyday products are not always entirely natural but are made through synthetic biology and techniques. Using these techniques, the original are modified in the hope of creating synthetic novel protein variants that are more efficient, stable, and tailored towards particular applications. The new AI-based approach is of importance for developing efficient industrial enzymes as well as new protein-based therapies, such as antibodies and vaccines.

A cost-efficient and sustainable model

Assistant Professor Martin Engqvist, also of the Department of Biology and Biological Engineering, was involved in designing the experiments to test the AI synthesized proteins.

"Accelerating the rate at which we engineer proteins is very important for driving down development costs for enzyme catalysts. This is the key for realizing environmentally sustainable and consumer products, and our AI model, as well as future models, will enable that. Our work is a vital contribution in that context," says Martin Engqvist.

"This kind of work is only possible in the type of multidisciplinary environment that exists at our Division—at the interface of computer science and biology. We have perfect conditions to experimentally test the properties of these AI-designed proteins," says Aleksej Zelezniak.

The next step for the researchers is to explore how the technology could be used for specific improvements to protein properties, such as increased stability, something which could have great benefit for proteins used in industrial technology.


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More information: Donatas Repecka et al, Expanding functional protein sequence spaces using generative adversarial networks, Nature Machine Intelligence (2021). DOI: 10.1038/s42256-021-00310-5
Journal information: Nature Machine Intelligence

Citation: Unique AI method for generating proteins to speed up drug development (2021, March 30) retrieved 20 April 2021 from https://techxplore.com/news/2021-03-unique-ai-method-proteins-drug.html
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