We examined whether protein kinase D1 (PKD1), the founding member of a new protein kinase family, plays a critical role in intestinal epithelial cell proliferation. Our results demonstrate that PKD1 activation is sustained, whereas that of PKD2 is transient in intestinal epithelial IEC-18 stimulated with the G q -coupled receptor agonists angiotensin II or vasopressin. PKD1 gene silencing utilizing small interfering RNAs dramatically reduced DNA synthesis and cell proliferation in IEC-18 cells stimulated with G q -coupled receptor agonists. To clarify the role of PKD1 in intestinal epithelial cell proliferation in vivo, we generated transgenic mice that express elevated PKD1 protein in the intestinal epithelium. The mammalian intestine is covered by a single layer of epithelial cells that is renewed every 4 -5 days along the cryptvillus axis (1). The high rate of cell turnover, driven by crypt cell proliferation, plays a fundamental role in the organization, maintenance, and restoration of tissue integrity. It is recognized that the sequential proliferation, lineage-specific differentiation, crypt-villus migration, and cell death of the epithelial cells of the intestinal mucosa is a tightly regulated process modulated by a broad range of regulatory peptides, differentiation signals, and luminal stimuli, including nutrients and pathogenic/commensal organisms (1-3). Despite its importance for understanding normal homeostasis, wound healing, and the pathogenesis of human disease states, including inflammatory bowel diseases and colon cancer, the intracellular signal transduction mechanisms involved remain incompletely understood.Protein kinase D1 (PKD1), 2 the founding member of a new protein kinase family within the calcium/calmodulin-dependent protein kinase group and separate from the previously identified PKCs (for review, see Ref. 4), is attracting intense attention. PKD1 has been extensively studied in vitro with regard to identifying the functions of its domains and the effect of cell signaling on its activity and subcellular localization (4). In unstimulated cells, PKD1 is in a state of low catalytic (kinase) activity maintained by autoinhibition mediated by the N-terminal domain, a region containing a repeat of cysteinerich zinc finger-like motifs and a pleckstrin homology domain (4 -7). PKD1 can be activated within intact cells by multiple stimuli acting through receptor-mediated pathways (for review, see Ref. 4). Our own studies demonstrated rapid, PKCdependent, PKD1 activation in response to G protein-coupled receptor (GPCR) agonists, including regulatory peptides (8 -17) and bioactive lipids (12, 18 -20) that act through G q , G 12 , G i , and Rho (12,[17][18][19]21,22), growth factors that act though tyrosine-kinase receptors (8, 23), cross-linking of Bcell receptor, and T-cell receptor in B and T lymphocytes (24 -26) and oxidative stress (27,28). The phosphorylation of Ser 744 and Ser 748 in the PKD1 activation loop (also referred as activation segment or T-loop) is critical for PKD1 activation (4,...
