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Multiplexed Isobaric Quantitative Cross-Linking Reveals Drug-Induced Interactome Changes in Breast Cancer Cells

Helisa H. Wippel, Juan D. Chavez, Andrew Keller, James E. Bruce

2022Analytical Chemistry30 citationsDOIOpen Access PDF

Abstract

The study of protein structures and interactions is critical to understand their function. Chemical cross-linking of proteins with mass spectrometry (XL-MS) is a rapidly developing structural biology technique able to provide valuable insight into protein conformations and interactions, even as they exist within their native cellular environment. Quantitative analysis of cross-links can reveal protein conformational and interaction changes that occur as a result of altered biological states, environmental conditions, or pharmacological perturbations. Our laboratory recently developed an isobaric quantitative protein interaction reporter (iqPIR) cross-linking strategy for comparative interactome studies. This strategy relies on isotope encoded chemical cross-linkers that have the same molecular mass yet produce unique and specific isotope signatures upon fragmentation in the mass spectrometer which can be used for quantitative analysis of cross-linked peptides. The initial set of iqPIR molecules allowed for binary comparisons. Here, we describe the in vivo application of an extended set of six iqPIR reagents (6-plex iqPIR), allowing multiplexed quantitative interactome analysis of up to six biological samples in a single LC–MS acquisition. Multiplexed iqPIR is demonstrated on MCF-7 breast cancer cells treated with five different Hsp90 inhibitors revealing large scale protein conformational and interaction changes specific to the molecular class of the inhibitors.

Topics & Concepts

InteractomeChemistryComputational biologyTandem mass tagProtein–protein interactionMass spectrometryQuantitative proteomicsIsobaric processStable isotope labeling by amino acids in cell cultureProteomicsBiochemistryChromatographyBiologyPhysicsThermodynamicsGeneHeat shock proteins researchthermodynamics and calorimetric analysesViral Infectious Diseases and Gene Expression in Insects
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