Better Molecules, Faster: NVIDIA Blueprint Redefines Hit Identification With Generative AI-Based Virtual Screening

Benchling, Dotmatics, Terray, TetraScience and Cadence Molecular Sciences to use NVIDIA NIM microservices and NIM Agent Blueprints to push the boundaries of drug discovery.
by Anthony Costa

Editor’s note: The name of NIM Agent Blueprints was changed to NVIDIA Blueprints in October 2024. All references to the name have been updated in this blog.

Aimed at making hit identification — the process of finding promising drug candidates — faster and smarter, NVIDIA on Wednesday released the NVIDIA Blueprint for generative AI-based virtual screening.

This software-based approach will reduce the time and cost of hit discovery and lead optimization, leading to streamlined development of life-saving drugs and enabling quicker access to critical treatments for patients.

This NVIDIA Blueprint introduces a paradigm shift in the drug discovery process, particularly in the crucial “hit-to-lead” transition, by moving from traditional fixed database screening to generative AI-driven molecule design and pre-optimization, enabling researchers to design better molecules faster.

What’s a NIM? What’s an NVIDIA Blueprint?

NVIDIA NIM microservices are modular, cloud-native components that accelerate AI model deployment and execution. These microservices allow drug discovery researchers to integrate and scale advanced AI models within their workflows, enabling faster and more efficient processing of complex data.

The generative virtual screening NVIDIA Blueprint, a comprehensive guide, shows how these microservices can optimize key stages of drug discovery, such as hit identification and lead optimization.

How Is Generative AI Used for Virtual Screening?

Drug discovery is a complex process with three critical stages: target identification, hit identification and lead optimization. Target identification involves choosing the right protein receptor or other biological target to modify to treat the disease; hit identification is identifying potential molecules that will bind to that target; and lead optimization is improving the design of those molecules to be safer and more effective.

This NVIDIA Blueprint, called generative virtual screening for accelerated drug discovery, identifies and improves virtual hits in a smarter and more efficient way.

At its core are three essential AI models, now including the recently integrated AlphaFold2 as part of NVIDIA’s NIM microservices.

  • AlphaFold2, as an NVIDIA NIM, enables researchers to more quickly and accurately predict protein structures. Packaged as an NVIDIA NIM, AlphaFold2 can be deployed in any computing environment, saving researchers hours or more in setup and deployment time.
  • MolMIM is a novel model developed by NVIDIA that generates molecules while simultaneously optimizing for multiple properties, such as high solubility and low toxicity. Capable of accepting custom input from other models, MolMIM helps researchers design promising candidates with improved pharmacological profiles faster and in fewer steps.
  • DiffDock is an advanced molecular docking tool for quickly modeling the binding of small molecules to their protein targets, helping researchers accelerate the identification of effective compounds.

These models work in concert to improve the hit-to-lead process, making it more efficient and faster.

Each of these AI models is packaged within NVIDIA NIM microservices — portable containers designed to accelerate the performance, shorten time-to-market and simplify the deployment of generative AI models anywhere.

The NVIDIA Blueprint integrates these microservices into a flexible, scalable, generative AI workflow that can help transform drug discovery.

Leading computational drug discovery and biotechnology software providers that are using NIM microservices now, such as Benchling, Dotmatics, Terray, TetraScience and Cadence Molecular Sciences (OpenEye), are using NVIDIA Blueprints in their computer-aided drug discovery platforms.

These integrations aim to make the hit-to-lead process faster and more intelligent, leading to the identification of more viable drug candidates in less time and at lower cost.

Global professional services company Accenture is poised to tailor the NVIDIA Blueprint to the specific needs of drug development programs by optimizing the molecule generation step with input from pharmaceutical partners to inform the MolMIM NIM.

In addition, the NIM microservices that comprise the NVIDIA Blueprint will soon be available on AWS HealthOmics, a purpose-built service that helps customers orchestrate biological analyses. This includes streamlining the integration of AI into existing drug discovery workflows.

Revolutionizing Drug Development With AI

The stakes in drug discovery are high.

Developing a new drug typically costs around $2.6 billion and can take 10-15 years, with a success rate of less than 10%.

By making molecular design and lead optimization smarter with NVIDIA’s AI-powered AI Blueprint, pharmaceutical companies can reduce these costs and shorten development timelines in the $1.5 trillion global pharmaceutical market.

This NVIDIA AI Blueprint represents a significant shift from traditional drug discovery methods, offering a generative AI approach that pre-optimizes molecules for desired therapeutic properties.

For example, MolMIM, the generative model for molecules within this NVIDIA AI Blueprint, uses advanced functions to steer the generation of molecules with optimized pharmacokinetic properties — such as absorption rate, protein binding, half-life and other properties — a marked advancement over previous methods.

This smarter approach to small molecule design enhances the potential for successful lead optimization, accelerating the overall drug discovery process.

This leap in technology could lead to faster, more targeted treatments, addressing growing challenges in healthcare, from rising costs to an aging population.

NVIDIA’s commitment to supporting researchers with the latest advancements in accelerated computing underscores its role in solving the most complex problems in drug discovery.

Visit build.nvidia.com to download the NVIDIA AI Blueprint for generative AI-based virtual screening and take the first step toward faster, more efficient drug development.

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