- Yuhan Corporation CEO Wook Je Cho, National Assembly Member
Seong Hoon Park, and KAIST Professor Joung
Ho Kim join a pioneering collaboration in precision
oncology.
SEOUL,
South Korea, Nov. 5, 2024
/PRNewswire/ -- On November 4,
2024, J INTS BIO hosted a significant MOU signing ceremony at
Baekyangnuri Plaza, Yonsei University,
unveiling a groundbreaking AI-driven collaboration to revolutionize
cancer treatment. This ambitious alliance unites leading
institutions, including Yonsei
University College of Medicine's DAAN Cancer Research
Institute, Daegu Gyeongbuk Institute of Science and Technology
(DGIST), Korea Research Institute of Chemical Technology (KRICT),
and KAIST. The event featured a distinguished lineup, with Yuhan
Corporation CEO Wook Je Cho, National Assembly Representative
Seong Hoon Park, and KAIST's
Professor Joung Ho Kim, a prominent
member of the National AI Committee, highlighting the extensive
support from both government and industry sectors.
Precision Medicine Redefined: AI Meets Multi-Omics
J INTS BIO is at the forefront of
developing personalized lung cancer therapies through the
integration of artificial intelligence and multi-omics technology.
Multi-omics offers a comprehensive approach to disease biology by
combining genomics, transcriptomics, metabolomics, and proteomics.
Using AI and national supercomputing infrastructure, the project
aims to enhance drug efficacy prediction and minimize toxicity,
addressing the critical challenges that plague conventional
oncology drug development.
Professor Byoung Chul Cho of
Severance Hospital, a key figure behind the development of the
highly successful lung cancer drug "Leclaza," emphasized, "AI is
revolutionizing precision medicine. By employing AI and
supercomputing, we can achieve ultra-precise analysis of patient
tissue and genetic profiles, enabling the design of highly
effective, personalized treatment strategies." KAIST's Professor
Joung Ho Kim added, "AI's capacity
to process immense biological datasets and apply machine learning
for patient-specific predictions can drastically reduce clinical
trial failure rates and accelerate the entire drug discovery
process."
End-to-End Research Strategy: From Biopsies to AI-Optimized
Therapies
The collaboration is structured around a comprehensive,
four-phase research strategy: meticulous patient sample collection
and preparation, AI-driven protein analysis using supercomputers,
synthesis of drug candidates informed by AI insights, and rigorous
clinical trials for validation.
The DAAN Cancer Research Institute at Yonsei University will lead the first phase,
collecting lung cancer tissue and genomic samples and preparing
them for AI model development. Using cell and animal models, the
institute will validate AI predictions, identify drug resistance
mechanisms, and refine algorithms to maximize accuracy.
DGIST's Core Protein Resources Center will utilize national
supercomputers to simulate protein-drug interactions, conducting
high-precision structural analyses and virtual experiments. This
work will confirm AI-driven hypotheses and facilitate the design of
drugs tailored to the molecular characteristics of cancer.
KRICT's Medicinal Bio Research Division will synthesize the
AI-recommended drug candidates, subjecting them to thorough
pharmacological and toxicological assessments. KRICT Director
Kwang Rok Kim remarked, "AI is
fundamentally transforming the landscape of drug discovery. It
allows us to develop optimized therapeutic compounds faster and
with greater safety, delivering unprecedented precision in
medicine."
J INTS BIO will oversee the
entire project, managing clinical trials to validate AI-based
predictions and develop clinically proven, patient-specific
treatment protocols. This approach aims to expedite the path from
laboratory research to market readiness, making advanced cancer
therapies more accessible to patients worldwide.
A Game-Changer in Oncology: Government and Industry in
Harmony
This collaboration marks a transformative leap in cancer
research, showcasing the potential of merging AI with
biotechnology. Seong-Kyoon Choi,
Director of DGIST's Core Protein Resources Center, stated, "AI and
supercomputing together set a new standard for protein analysis and
drug design precision. This partnership is poised to deliver
groundbreaking advancements in cancer treatment." National Assembly
Member Seong Hoon Park underscored the national importance of this
initiative: "The integration of AI and biotech is crucial for
elevating South Korea's global
competitiveness in the bio-industry. The government will continue
to provide unwavering support for these pioneering research
efforts."
Envisioning a future shaped by precision medicine, J INTS BIO
and its partners aim to build extensive cancer data
infrastructures, providing a solid foundation for ongoing research
and innovation. The consortium plans to unveil interim results from
the "AI-Supercomputing-Based Personalized Lung Cancer Therapy"
project at a major international conference in the first half of
next year, showcasing the project's far-reaching impact and
potential.
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