ssues, among which the developing pancreatic epithelium is one. Since Foxa2 expression is stimulated by Hnf6, it has been proposed that Hnf6 is a key component in the pancreatic transcription cascade. Moreover, Hnf6 regulates pancreatic endocrine cell differentiation and controls expression of the proendocrine gene Ngn3. In addition, Hnf6 is required for induction of Pdx1 expression in the ventral pancreatic bud but not in the dorsal pancreatic bud. We found HNF6 to be expressed in the majority of PDX1+ cells, supporting the notion that the predominant fraction of PDX1+ cells represents foregut endodermal cells. The caudal related homeobox gene CDX2, which is expressed in midgut, posterior gut 62717-42-4 site endoderm as well as in trophectoderm, was inconsistently regulated by RA/FGF4. SOX9 is an HMG-box transcription factor that is expressed in multipotential pancreatic progenitors and later in duct cells, stem cells and paneth cells of the intestinal epithelium, neuronal cells, heart, and hair. In addition, SOX9 activates expression of the proendocrine marker Ngn3 and is required for the maintenance of the pancreatic progenitor pool. Moreover, in the developing pancreas, expression of Sox9 is restricted to PDX1+ progenitors and is not found in committed endocrine precursors. We found SOX9 to be expressed in the majority of PDX1+ cells. In conclusion, co-localization data show that the RA/FGF4-induced PDX1+ cells co-express FOXA2, HNF6, and SOX9, representing foregut endoderm. However, although these markers are expressed in multipotent pancreatic endoderm, their expression in the nonpancreatic foregut endoderm precludes judgement of a pancreatic endodermal phenotype. In order to evaluate whether any of the PDX1+ cells represents pancreatic endoderm, expression of PTF1a and NKX6.1 were examined. PTF1a is a member of the basic helix-loop-helix transcription factor family that, in addition to being expressed in non-endodermal cell types such as various neuronal precursor cells, is specifically expressed in the early pancreatic endoderm within the foregut endoderm. PTF1a is required for exocrine cell differentiation, and lineage-tracing studies show that Ptf1a-expressing cells give rise to all pancreatic cell lineages. NKX6.1, a member of the NK homeodomain transcription factor family, is expressed during mouse fetal development in the majority of pancreatic 19478133 epithelial cells from the earliest stage of bud formation at E9.5 until the onset of the secondary transition at E13.5. Thus, PDX1+ cells co-expressing PTF1a and NKX6.1 is diagnostic for pancreatic endoderm. However, quantitative analysis of PTF1a and NKX6.1 mRNA expression revealed no, to very low, levels of these mRNAs. Consistently, expression of NKX6.1 protein was undetectable. Thus, in conclusion, the PDX1+ cells induced by the RA/FGF4 protocol represent either posterior stomach/duodenal endoderm, or prepancreatic posterior foregut endoderm not yet expressing genes representative of pancreatic foregut endoderm. 22440900 Multiple points of interactions exist between RA and FGF signaling during embryonic axis formation in Xenopus and mouse. The temporally regulated and distinct expression patterns of RARb and FGFR1/FGFR2 led us to test whether RA signaling regulated FGFR1/FGFR2 expression and vice versa. However, blocking FGF signaling had no impact on RARb expression and blocking RA receptors had no impact on FGFRs. Interestingly, blocking FGF signaling concomitant with RA treatment resulted in reduced r