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C105A/C205A Uland Lau, Pardeep Singh, Joe Argus 4/17/12
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Our Genetic Toolkit “Modern experimental biology often relies on the perturbation of a gene followed by observation of the resulting phenotype to elucidate gene function.” Importance of perturbing a gene to determine its function –DNA level: cre/lox –Transcription level: tet/dox –mRNA level: RNAi –Protein level: ?
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Modulating Genes at the Protein Level Small molecule specific inhibitors/activators –fast, dose-dependent, reversible –existence of small molecule inhibitor/activator, off- target effects Shokat method –Fast, dose-dependent, reversible, specific, –Genetic work, limited to ATPases/GTPases Goal: develop a way to modulate any target protein’s activity rapidly, reversibly, and dose- dependently
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Predecessors to a New Method Temperature sensitive “degron” in yeast –DHFR TS :X is stable at permissive temp at degraded at high temp FKBP/MaRap/FRB system –Proteins FKBP and FRB only dimerize when small molecule MaRap is present –Can use this to force colocalization of target proteins X and Y (FKBP:X and FRB:Y)
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“Single Ligand-Single Domain” System DD = destabilizing domain, POI = protein of interest
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Summary Developed a “Single Ligand-Single Domain” system for regulating the abundance of a target protein (in vivo) rapidly, reversibly, and tunably. Proofs of principle: –FKBP:YFP (N and C termini) –FKBP:YFP in multiple cell lines –FKBP:X (multiple different soluble proteins) –FKBP:CD8 (integral membrane protein) –Changing phenotype (morphology)
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Cell-Based Screen Starting Point for DD: FKBP12 (F36V), called “FKBP” from now on Generate variants of FKBP (error-prone PCR), fuse to YFP and strong promoter Stably integrate constructs into fibroblasts Treat with ligand, sort for YFP+ Remove ligand, sort for YFP- Treat with ligand, sort for YFP+ Sequence constructs from remaining cells
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Characterization of ligand- responsive destabilizing domains Five mutants were chosen (F15S, V24A, H25R, E60G, and L106P) Separately transduced into NIH3T3 fibroblast cells. A- Absence of Shld1 B- Introduction of Shld1 treated with 3-fold dilutions of Shl1 (1microM-0.1 nM) C-Varying dosages of Shld1 D-Treatment of Shld1 for 24 hours then washed to remove Shld1 from media
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Characterization of Shld1-Responsive Destabilizing Domains
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E-Immunoblot of FKBP-YFP fusions from mock treatment(-) or treatment with 1 μM Shld1 for 24 hours. F-Proteasome inhibitor MG132 used in the presence or absence of Shld1. G-HeLa cells transfected with siRNA against lamin A/C monitored over 24 hours.
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Fusion of an FKBP Destabilizing Domain to the N Terminus of YFP Results in Predictable and Reversible Small-Molecule Regulation of Intracellular Protein Levels.
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Reversing the orientation of FKBP and YFP and determining the efficiency of these candidate destabilizing domains -Overall: Destabilizing domains fused to the C terminus of YFP are less destabilizing than their N-terminal counterparts. Both domains respond similarly to Shld1.
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Figure 4: FKBP Destabilizing Domains Confer Shld1-Dependent Stability to a Variety of Proteins
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Regulation of a Membrane Protein CD8α – transmembrane glycoprotein – surface of T cells C terminus fused Suggests that the FKBP recruits cellular proteins for internalization of membrane proteins
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Control of Cellular Phenotypes Expression of active small GTPases causes well- characterized changes in cell morphology Cdc42 – filopodia RhoaA – stress fibers Arl7 – shrunken cell phenotype
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Conclusion and Discussion Use of a synthetic small molecule (Shld-1) to regulate the stability of specific proteins Reliably control and predict the target protein’s levels by dosage Shown ligand-dependent stability in different types of proteins (cytoplasmic, nuclear, and transmembrane) and various cell types Cell-permeable small molecules – ease of delivery –Fast, reversible, and tunable Probing protein function, physiological processes, and pathways
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Comparison to RNAi Design of synthetic RNAi is difficult Effect of mRNA degradation can be variable Introducing into cells can be a challenge Typically, 48 hrs is needed for significant knockdown of protein levels
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Disadvantages Requires making the fusion protein (gene knockin) Fusion protein needs to function like the native protein In-vivo experiments would be tedious –Need to introduce gene into animal –Regularly administer the ligand or small molecule
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PLoS ONE 7(1), 2012
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Nature Medicine, Vol. 13, No. 5, 2007
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