AI Article Synopsis
- Identifying hyperactive kinases in cancer is essential for tailoring specific treatments.
- Using mass spectrometry-based phosphoproteomics, researchers can analyze global protein phosphorylation profiles to understand kinase activity better.
- The new Integrative Inferred Kinase Activity (INKA) analysis method effectively combines kinase and substrate data to visualize kinase activity and networks, demonstrating superior performance in various cancer sample analyses compared to previous methods.
Article Abstract
Identifying hyperactive kinases in cancer is crucial for individualized treatment with specific inhibitors. Kinase activity can be discerned from global protein phosphorylation profiles obtained with mass spectrometry-based phosphoproteomics. A major challenge is to relate such profiles to specific hyperactive kinases fueling growth/progression of tumors. Hitherto, the focus has been on phosphorylation of either kinases or their substrates. Here, we combined label-free kinase-centric and substrate-centric information in an Integrative Inferred Kinase Activity (INKA) analysis. This multipronged, stringent analysis enables ranking of kinase activity and visualization of kinase-substrate networks in a single biological sample. To demonstrate utility, we analyzed (i) cancer cell lines with known oncogenes, (ii) cell lines in a differential setting (wild-type versus mutant, +/- drug), (iii) pre- and on-treatment tumor needle biopsies, (iv) cancer cell panel with available drug sensitivity data, and (v) patient-derived tumor xenografts with INKA-guided drug selection and testing. These analyses show superior performance of INKA over its components and substrate-based single-sample tool KARP, and underscore target potential of high-ranking kinases, encouraging further exploration of INKA's functional and clinical value.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6461034 | PMC |
| http://dx.doi.org/10.15252/msb.20188250 | DOI Listing |
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