The pancreatic and duodenal homeobox factor-1 (PDX-1), also known as IDX-1/STF-1/IPF1, a homeodomaincontaining transcription factor, plays a central role in regulating pancreatic development and insulin gene transcription. Furthermore, even in adults, PDX-1 is associated with islet neogenesis and differentiation of insulin-producing cells from progenitor cells. Here, we report for the first time that PDX-1 protein can permeate cells due to an Antennapedia-like protein transduction domain sequence in its structure and that transduced PDX-1 functions similarly to endogenous PDX-1; it binds to the insulin promoter and activates its expression. PDX-1 protein can also permeate into isolated pancreatic islets, which leads to stimulation of insulin gene expression. Moreover, PDX-1 protein transduced into cultures of pancreatic ducts, thought to be islet progenitor cells, induces insulin gene expression. These data suggest that PDX-1 protein transduction could be a safe and valuable strategy for enhancing insulin gene transcription and for facilitating differentiation of ductal progenitor cells into insulinproducing cells without requiring gene transfer technology. Diabetes 52:1732-1737, 2003 S ince the discovery of protein transduction domains (PTDs) that allow proteins to be translocated across the plasma membrane and into nuclei without endocytosis, there has been increasing interest in their potential for the delivery of bioactive peptides and proteins into eukaryotic cells as a valuable strategy for the transduction of therapeutic proteins into patients. The small PTDs from TAT protein of HIV-1 (1) and from VP22 protein of Herpes simplex virus (2) have been fused to proteins with the remarkable result of delivery of proteins into many mammalian tissues (1,2). The presence of a PTD in the third ␣-helix of the homeodomain of Antennapedia, a Drosophila transcription factor, has been shown to be necessary and sufficient for an "unconventional" translocation of this peptide into the cytoplasm and nuclei of living cells (3).We noticed that the transcription factor PDX-1 protein, which itself contains an Antennapedia-like homeodomain in its structure, has the same amino acid sequence, except for one amino acid toward the NH 2 -terminus, as the Antennapedia PTD (Fig. 1A). The presence of a PTD in PDX-1 is intriguing because PDX-1 plays such a crucial role in pancreatic development (4 -6), -cell differentiation (7-9), and maintenance of normal -cell function by its regulation of multiple important -cell genes (10,11), including insulin (12,13). Adenoviral-mediated introduction of PDX-1 induced insulin expression in the liver and improved the glucose tolerance of streptozotocin-induced diabetic mice (8). The ability of the PDX-1 protein to both regulate its own gene expression through an A-box element in its promoter (14) and to induce the expression of other -cell genes is thought to be the basis of this induced insulin expression.Here, we report for the first time that PDX-1 protein can permeate cells due to the Antenn...
