En2, Pax2/5 and Tcf-4 transcription factors cooperate in patterning the Xenopus brain

Loss-of-function experiments demonstrate that both en2 and pax2/5 are essential for endogenous XTcf-4 expression. The primary effect of pax2/5 depletion thereby appears to be a reduced en2 expression at neurula stages. Because en2 can compensate for the depletion of pax2/5, we assume a hierarchical regulation of gene expression in the midbrain/isthmus region with pax2/5 acting upstream of en2. Furthermore, since the XTcf-4 expression domain does not overlap with the expression domains of the isthmus marker genes en2 and pax2/5, we conclude that the knock-down of en2 and pax2/5 results in a downregulation of a paracrine growth factor regulating XTcf-4 expression. We found that the growth factor for this non-cell-autonomous effect of en2 and pax2/5 is wnt-1 acting on the − 1437 Lef/Tcf binding site on the XTcf-4 promoter. We provide evidence that the main nuclear wnt transducer for the autoregulation of XTcf-4 is XTcf-1.