Study of uptake of cell penetrating peptides and their cargoes in permeabilized wheat immature embryos

The uptake of five fluorescein labeled cell-penetrating peptides (Tat, Tat(2), mutated-Tat, peptide vascular endothelial-cadherin and transportan) was studied in wheat immature embryos. Interestingly, permeabilization treatment of the embryos with toluene/ethanol (1 : 20, v/v with permeabilization buffer) resulted in a remarkably higher uptake of cell-penetrating peptides, whereas nonpermeabilized embryos failed to show significant cell-penetrating peptide uptake, as observed under fluorescence microscope and by fluorimetric analysis. Among the cell-penetrating peptides investigated, Tat monomer (Tat) showed highest fluorescence uptake (4.2-fold greater) in permeabilized embryos than the nonpermeabilized embryos. On the other hand, mutated-Tat serving as negative control did not show comparable fluorescence levels even in permeabilized embryos. A glucuronidase histochemical assay revealed that Tat peptides can efficiently deliver functionally active beta-glucuronidase (GUS) enzyme in permeabilized immature embryos. Tat(2)-mediated GUS enzyme delivery showed the highest number of embryos with GUS uptake (92.2%) upon permeabilization treatment with toluene/ethanol (1 : 40, v/v with permeabilization buffer) whereas only 51.8% of nonpermeabilized embryos showed Tat(2)-mediated GUS uptake. Low temperature, endocytosis and macropinocytosis inhibitors reduced delivery of the Tat(2)-GUS enzyme cargo complex. The results suggest that more than one mechanism of cell entry is involved simultaneously in cell-penetrating peptide-cargo uptake in wheat immature embryos. We also studied Tat(2)-plasmid DNA (carrying Act-1GUS) complex formation by gel retardation assay, DNaseI protection assay and confocal laser microscopy. Permeabilized embryos transfected with Tat(2)-plasmid DNA complex showed 3.3-fold higher transient GUS gene expression than the nonpermeabilized embryos. Furthermore, addition of cationic transfecting agent Lipofectamine (TM) 2000 to the Tat(2)-plasmid DNA complex resulted in 1.5-fold higher transient GUS gene expression in the embryos. This is the first report demonstrating translocation of various cell-penetrating peptides and their potential to deliver macromolecules in wheat immature embryos in the presence of a cell membrane permeabilizing agent.