Abstract
Multiprotein complexes control the behavior of cells, such as of lymphocytes of the immune system. Methods to affinity purify protein complexes and to determine their interactome by mass spectrometry are thus widely used. One drawback of these methods is the presence of false positives. In fact, the elution of the protein of interest (POI) is achieved by changing the biochemical properties of the buffer, so that unspecifically bound proteins (the false positives) may also elute. Here, we developed an optogenetics-derived and light-controlled affinity purification method based on the light-regulated reversible protein interaction between phytochrome B (PhyB) and its phytochrome interacting factor 6 (PIF6). We engineered a truncated variant of PIF6 comprising only 22 amino acids that can be genetically fused to the POI as an affinity tag. Thereby the POI can be purified with PhyB-functionalized resin material using 660 nm light for binding and washing, and 740 nm light for elution. Far-red light-induced elution is effective but very mild as the same buffer is used for the wash and elution. As proof-of-concept, we expressed PIF-tagged variants of the tyrosine kinase ZAP70 in ZAP70-deficient Jurkat T cells, purified ZAP70 and associating proteins using our light-controlled system, and identified the interaction partners by quantitative mass spectrometry. Using unstimulated T cells, we were able to detect the known interaction partners, and could filter out all other proteins.
Highlights
Most, if not all, biochemical processes in cells, such as signal transduction, rely on protein-proteininteractions [1, 2]
We identified a truncated variant of phytochrome interacting factor 6 (PIF6) comprising only 22 amino acids that reversibly interacts with phytochrome B (PhyB) and can be used as an affinity tag for the protein of interest (POI)
PIF-POI and its binding partners are eluted in the same buffer as used in the washing steps by changing illumination to 740 nm light, as light of this wavelength switches PhyB into the Pr state that terminates the interaction with PIF
Summary
If not all, biochemical processes in cells, such as signal transduction, rely on protein-proteininteractions [1, 2]. A well-studied example is the binding of the T cell antigen receptor (TCR) complex to the tyrosine kinase ZAP70 in resting T cells [5,6,7,8]. Upon ligand binding to the TCR, ZAP70 gets activated by phosphorylation and detaches from the TCR [9] leading to the generation of new intracellular interactions and the remodeling of signalosomes [10]. As those protein-protein-interactions control cell behavior, their investigation is of key interest in immunological and biological research
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