Revealing an invisible kinase state that accounts for vital biological function

This ADP/ATP turnover needs to happen rapidly; otherwise, the kinase moves away too soon, and the target protein is inadequately phosphorylated. While the fleeting appearance of this hidden state explains its elusiveness, its conservation across other kinases, including Lck and Hck, underscores its importance for cell function. When the researchers eliminated this state by making targeted mutations, they found that cell migration (controlled by Src and Hck) and T-cell regulation (controlled by Lck) were significantly impacted.   

“These observations show that these hidden states of kinases act to ensure the precise regulation of different cellular functions”, said first author Yixin Cui, PhD, Department of Structural Biology. 

The findings expand our fundamental understanding of kinase function and set the stage for new therapeutic approaches that selectively target these newly discovered conformational states. Additionally, the hidden state may be exploited to fine-tune kinase activity within engineered systems, such as chimeric antigen receptor (CAR) T cells.  

“Src kinases are vital in health and many diseases, as well as for the function of adoptive immunotherapies, such as CAR T cells, that have shown great benefit in targeting certain cancers,” said co-author Terrence L. Geiger, MD, PhD, Senior Vice President and Deputy Director for Academic and Biomedical Operations, and Departments of Pathology and Immunology member. “These insights reshape our understanding of how cellular signals are transmitted and reveal new strategies to therapeutically alter kinase activity and modulate cell behavior.” 

While the study is informative for potential therapeutic approaches, the expansion of our knowledge on the kinase conformational landscape goes beyond the Src kinase family. The researchers are exploring hidden states across other kinases to understand this essential protein family better.  

“It is likely that there are other hidden or invisible states that we have not yet detected,” Kalodimos said. “We’ve only scratched the surface — many more invisible states remain to be revealed.”

Authors and funding 

The study’s other authors are Rustam Ali, Mary Clay, Paolo Rossi, Aizhuo Liu, Darong Yang and Nancy Gough, St. Jude.  

The study was supported by the Blue Sky Initiative ‘Seeing the Invisible in Protein Kinases’ at St. Jude Children’s Research Hospital, the National Institutes of Health (R35 GM122462) and the American Lebanese Syrian Associated Charities (ALSAC), the fundraising and awareness organization of St. Jude.