To study the extraordinary complexity of biological systems in a relevant way requires both multidimensional and highly specific analyses. Ultimately, I want to build a chemical biology research program using synthetic protein chemistry and a systems biology approach to address the challenges of studying complexity in a simple way. I plan to use chemical protein synthesis as a combinatorial strategy to generate molecular biosensors with enough features to define differences and signatures in kinase signaling pathways related to breast cancer, and that also allow for the incorporation of chemical tricks to improve signal to noise and ease analysis. The biosensors will have clinical applications in detecting, monitoring and designing treatment for cancer-related pathways, and will provide unique information about the relevance of interrelated kinase activities to cancer disease states with high signal to noise, resolution and specificity.
The specific aims are to: build and characterize an initial library of artificial, targeted kinase substrate proteins; use these artificial substrates for in vivo detection of cancer-related kinase activities; and use the in vivo phosphorylation information in a systems-level approach to define cancer-related multi-substrate 'signatures' to serve as biosensors for disease states. To generate these biosensors, small peptide units with different specific functions will be synthesized using solid-phase peptide synthesis and linked to each other using native chemical ligation to make small (100-150 aa) artificial proteins. These proteins will consist of modules for directing their cellular internalization and localization, enhancing specific protein-protein interactions, reporting their location via fluorescence and acting as kinase substrates for particular signaling pathways. The kinase substrate portion will be selectively releasable, and contain an affinity tag for rapid purification of this segment and analysis using MALDI-TOF mass spectrometry as a reporter for kinase activity. In this project, artificial protein biosensors will be designed to help us visualize the complicated patterns of abnormal tyrosine kinase activity in diseases like breast cancer. In many breast cancers, these tyrosine kinases are highly abundant and overactive, disrupting the normal cellular processes that keep growth from getting out of control. Understanding how their activities interrelate and the timing of changes in their patterns will help us better diagnose and treat diseases that show these characteristic complexities.
|Cui, Wei; Parker, Laurie L (2016) Modular, Antibody-free Time-Resolved LRET Kinase Assay Enabled by Quantum Dots and Tb(3+)-sensitizing Peptides. Sci Rep 6:28971|
|Ouellette, Steven B; Noel, Brett M; Parker, Laurie L (2016) A Cell-Based Assay for Measuring Endogenous BcrAbl Kinase Activity and Inhibitor Resistance. PLoS One 11:e0161748|
|Cui, Wei; Parker, Laurie L (2015) A time-resolved luminescence biosensor assay for anaplastic lymphoma kinase (ALK) activity. Chem Commun (Camb) 51:362-5|
|Lipchik, Andrew M; Perez, Minervo; Bolton, Scott et al. (2015) KINATEST-ID: a pipeline to develop phosphorylation-dependent terbium sensitizing kinase assays. J Am Chem Soc 137:2484-94|
|Lipchik, Andrew M; Perez, Minervo; Cui, Wei et al. (2015) Multicolored, Tb³?-Based Antibody-Free Detection of Multiple Tyrosine Kinase Activities. Anal Chem 87:7555-8|
|Damayanti, Nur P; Parker, Laurie L; Irudayaraj, Joseph M K (2013) Fluorescence lifetime imaging of biosensor peptide phosphorylation in single live cells. Angew Chem Int Ed Engl 52:3931-4|
|Yang, Tzu-Yi; Eissler, Christie L; Hall, Mark C et al. (2013) A multiple reaction monitoring (MRM) method to detect Bcr-Abl kinase activity in CML using a peptide biosensor. PLoS One 8:e56627|
|Lipchik, Andrew M; Parker, Laurie L (2013) Time-resolved luminescence detection of spleen tyrosine kinase activity through terbium sensitization. Anal Chem 85:2582-8|
|Martin, Victoria A; Wang, Wen-Horng; Lipchik, Andrew M et al. (2012) Akt2 inhibits the activation of NFAT in lymphocytes by modulating calcium release from intracellular stores. Cell Signal 24:1064-73|
|Tang, Jiabin; Wang, Jean Y; Parker, Laurie L (2012) Detection of early Abl kinase activation after ionizing radiation by using a peptide biosensor. Chembiochem 13:665-73|
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