The content discusses the use of the KinCon reporter technology to study the conformational dynamics of various disease-associated kinases, including BRAF, LKB1, RIPK1, and CDK4/6. Key highlights:
The KinCon reporter system is a Renilla luciferase-based protein fragment complementation assay that can track changes in kinase conformations in live cells in response to factors like mutations, protein-protein interactions, post-translational modifications, and small molecule binding.
For the BRAF kinase, the KinCon reporter was used to show that FDA-approved melanoma drugs and a drug candidate can convert the opened, active BRAF-V600E conformation to a more closed, inactive state.
The LKB1-STRADα-MO25 trimeric complex formation was found to promote the closing and activation of the LKB1 KinCon reporter. Certain patient-derived LKB1 mutations disrupted this complex formation and prevented the closing of the LKB1 conformation.
RIPK1 KinCon reporters revealed that both activating and inactivating mutations, as well as allosteric inhibitors, can induce conformational changes in RIPK1, suggesting a role for structural dynamics in regulating its scaffolding and catalytic functions.
For CDK4/6, the KinCon reporters showed that mutations reducing the binding affinity for the inhibitor p16INK4a led to a more opened conformation, but clinically used CDK4/6 inhibitors did not induce significant conformational changes.
The study highlights how the KinCon technology can provide insights into the structural dynamics of kinases and their regulation by diverse cellular factors, which is crucial for designing more effective therapeutic strategies.
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biorxiv.org
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by Kugler,V., S... ที่ www.biorxiv.org 01-12-2024
https://www.biorxiv.org/content/10.1101/2024.01.11.575270v3สอบถามเพิ่มเติม