Abstract
Cellular uptake of the human immunodeficiency virus TAT protein transduction domain (PTD), or cell-penetrating peptide, has previously been surmised to occur in a manner dependent on the presence of heparan sulfate proteoglycans that are expressed ubiquitously on the cell surface. These acidic polysaccharides form a large pool of negative charge on the cell surface that TAT PTD binds avidly. Additionally, sulfated glycans have been proposed to aid in the interaction of TAT PTD and other arginine-rich PTDs with the cell membrane, perhaps aiding their translocation across the membrane. Surprisingly, however, TAT PTD-mediated induction of macropinocytosis and cellular transduction occurs in the absence of heparan sulfate and sialic acid. Using labeled TAT PTD peptides and fusion proteins, in addition to TAT PTD-Cre recombination-based phenotypic assays, we show that transduction occurs efficiently in mutant Chinese hamster ovary cell lines deficient in glycosaminoglycans and sialic acids. Similar results were obtained in cells where glycans were enzymatically removed. In contrast, enzymatic removal of proteins from the cell surface completely ablated TAT PTD-mediated transduction. Our findings support the hypothesis that acidic glycans form a pool of charge that TAT PTD binds on the cell surface, but this binding is independent of the PTD-mediated transduction mechanism and the induction of macropinocytotic uptake by TAT PTD.
Highlights
Cationic peptide-mediated cellular transduction represents a cell entry modality with enormous potential for the delivery of macromolecular therapeutic agents
We detected differences between wild-type Chinese hamster ovary (CHO) cells and heparan sulfate (HS)- and sialic acids (SAs)-deficient cells in the cell-surface binding of TAT protein transduction domain (PTD) peptides at 4 °C (Fig. 1C) that correlated with differences in TAT PTD-Fluorescein isothiocyanate (FITC) cell association, indicating a reduction in extracellular binding capacity in glycan-deficient cells
Based primarily on microscopic visualization, previous studies concluded that cells lacking proteoglycans are refractory to cellular transduction by several PTDs, including
Summary
Cationic peptide-mediated cellular transduction represents a cell entry modality with enormous potential for the delivery of macromolecular therapeutic agents. For microscopic visualization of cell association, cells were plated on glass coverslips and treated as described above with 0.5 M TAT PTD-Cre-Alexa Fluor 546 for 1 h in serum-free medium at 37 °C.
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