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Cytoplasmic delivery and selective, multicomponent labeling with oligoarginine-linked protein tags.


ABSTRACT: Strategies that leverage bio-orthogonal interactions between small molecule ligands and genetically encoded amino acid sequences can be used to attach high-performance fluorophores to proteins in living cells. However, a major limitation of chemical protein labeling is that cells' plasma membranes are impermeable to many useful probes and biolabels. Here, we show that conjugation to nonaarginine, a cell penetrating peptide (CPP), enables passive cytoplasmic delivery of otherwise membrane-impermeant, small molecule protein labels. Heterodimers consisting of a luminescent Tb(3+) complex, Lumi4, linked to benzyl guanine, benzyl cytosine, and trimethoprim were conjugated to the peptide CysArg9 with a reducible disulfide linker. When added to culture medium, the peptide conjugates rapidly (<30 min) enter the cytoplasm and diffuse freely throughout cells. The benzyl guanine, benzyl cytosine, and trimethoprim derivatives bind selectively to fusion proteins tagged with SNAP-Tag, CLIP-Tag, and Escherichia coli dihydrofolate reductase (eDHFR), respectively. Furthermore, eDHFR and SNAP-Tag fusions can be labeled with Lumi4 analogues in the same cell, and this labeling can be detected using two-color, time-gated Förster resonance energy transfer (FRET) microscopy. Finally, we present quantitative data showing that cytoplasmic uptake of nonaarginine-conjugated probes occurs in multiple cell types (MDCK, HeLa, NIH 3T3), most cells in a culture (>75%) are loaded with probe, and the cellular probe concentration can be controlled by varying incubation conditions. CPP-mediated delivery of Lumi4-linked protein labels will greatly increase the utility of lanthanide-based FRET microscopy. Moreover, our results strongly suggest that this approach can be adapted to deliver a wide variety of protein-targeted fluorophores or other functional probes that were previously unavailable for intracellular imaging studies.

SUBMITTER: Zou X 

PROVIDER: S-EPMC4503323 | biostudies-literature | 2015 Mar

REPOSITORIES: biostudies-literature

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Cytoplasmic delivery and selective, multicomponent labeling with oligoarginine-linked protein tags.

Zou Xiaoyan X   Rajendran Megha M   Magda Darren D   Miller Lawrence W LW  

Bioconjugate chemistry 20150224 3


Strategies that leverage bio-orthogonal interactions between small molecule ligands and genetically encoded amino acid sequences can be used to attach high-performance fluorophores to proteins in living cells. However, a major limitation of chemical protein labeling is that cells' plasma membranes are impermeable to many useful probes and biolabels. Here, we show that conjugation to nonaarginine, a cell penetrating peptide (CPP), enables passive cytoplasmic delivery of otherwise membrane-imperme  ...[more]

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