Big Board Alerts

Boehringer Ingelheim and IBM collaborate to advance generative AI and foundation models for therapeutic antibody development

Boehringer Ingelheim and IBM announced an agreement that will enable Boehringer to use IBM’s foundation model technologies to discover novel candidate antibodies for the development of efficient therapeutics.

“We are very excited to collaborate with the research team at IBM, who share our vision of making in silico biologic drug discovery a reality,” said Andrew Nixon, Global Head of Biotherapeutics Discovery at Boehringer Ingelheim. “I am confident that by joining forces with IBM scientists we will develop an unprecedented platform for accelerated antibody discovery which will enable Boehringer to develop and deliver new treatments for patients with high unmet need.”

Boehringer will be using an IBM-developed, pre-trained AI model that will be further fine-tuned on additional Boehringer proprietary data. “IBM has been at the forefront of creating generative AI models that extend AI’s impact beyond the domain of language” said Alessandro Curioni, Vice President Accelerated Discovery, IBM Research. “We are thrilled to now bring IBM’s multimodal foundation model technologies to Boehringer, a leader in the development and manufacturing of antibody-based therapies, to help accelerate the pace at which Boehringer can create new therapeutics.”

Foundation models for antibody discovery

Therapeutic antibodies are central in the treatment of many diseases, including cancer, autoimmune and infectious diseases. Despite major technological advances, the discovery and development of therapeutic antibodies covering diverse epitopes remains a highly complex and time-consuming process.

Together, Boehringer and IBM researchers will aim to accelerate the antibody discovery process through in-silico methods.  The sequence, structure and molecular profile information of disease-relevant targets as well as success criteria for therapeutically relevant antibody molecules, like affinity, specificity and developability will form the basis for the in-silico generation of new human antibody sequences. These methods rely on new IBM foundation model technologies, designed to increase the speed and efficiency of antibody discovery and quality of predicted antibody candidates.

IBM’s foundation model technologies, which have demonstrated success in generating biologics and small molecules with relevant target affinities, are used to design antibody candidates for the defined targets which are subsequently screened with AI-enhanced simulation to select and refine the best binders for the target. In a validation step, Boehringer Ingelheim will produce in mini-scales and experimentally assess the antibody candidates. Moving forward, the results from the laboratory experiments will be used to improve the in-silico methods via feedback loops.

By collaborating with leading academic and industry partners, Boehringer is building a leading digital ecosystem to enable the acceleration of drug discovery and development and create new breakthrough opportunities to transform patients’ lives.
This work also serves as the latest in IBM’s efforts to use generative AI and foundation models to accelerate discovery and creation of new biologics and small molecules. Earlier this year, the company’s generative AI model efficiently predicted physico-chemical properties of drug-like small molecules.

The IBM biomedical foundation model technologies rely on a wide range of heterogenous, publicly available data sets, including protein-protein interactions and drug-target interactions to develop pre-trained models.  The pre-trained models are then fine-tuned on specific proprietary data of IBM’s partner to offer newly designed proteins and small molecules with the desired properties.

The post Boehringer Ingelheim and IBM collaborate to advance generative AI and foundation models for therapeutic antibody development appeared first on Pharma Journalist.

 

Latest Articles

DON’T MISS THE OPPORTUNITY TO JOIN OUR MARKET SUMMARY REPORT FOR A LIMITED TIME

By submitting this form on our website, you agree that we may collect and use your personal information for marketing, and for other purposes as set forth in our privacy policy, which we encourage you to review.