The Drosophila Pax-6 gene eyeless (ey) plays a key role in eye development. Here we show tht Drosophila contains a second Pax-6 gene, twin of eyeless (toy), due to a duplication during insect evolution. Toy is more similar to vertebrate Pax-6 proteins than Ey with regard to overall sequence conservation, DNA-binding function, and early expression in the embryo, toy and ey share a similar expression pattern in the developing visual system, and targeted expression of Toy, like Ey, induces the formation of ectopic eyes. Genetic and biochemical evidence indicates, however, that Toy functions upstream of ey by directly regulating the eye-specific enhancer of ey. Toy is therefore required for initiation of ey expression in the embryo and acts through Ey to activate the eye developmental program.
Previous DNA-binding studies indicated that an intact paired domain is required for interaction of the transcription factor BSAP (Pax-S) with DNA. We have now identified a subset of BSAP recognition sequences that also bind to a truncated BSAP peptide lacking 36 carboxy-terminal amino acids of the paired domain. Sequence comparison of this class of BSAP-binding sites made it possible to unequivocally align all known BSAP-binding sites and to deduce a consensus sequence consisting of two distinct half sites. We propose here a model for the paired domain-DNA interaction in which the paired domain is composed of two subdomains that bind to the two half-sites in adjacent major grooves on the same side of the DNA helix. The existence of these half sites and of the two paired domain subregions was directly demonstrated by methylation interference analysis and by in vitro mutagenesis of both the paired domain and its recognition sequence. Both half-sites contribute to the overall affinity of a given BSAP-binding site according to their match with the consensus sequence. However, none of the naturally occurring BSAP-binding sites completely conform to the consensus sequence. Instead, they contain compensatory base changes in their half-sites that explain the versatile and seemingly degenerate DNA sequence recognition of Pax proteins. Domain swap experiments between BSAP and Pax-1 demonstrated that the sequence specificity of the BSAP paired domain is determined by both its amino-and carboxy-terminal subdomains. Moreover, mutations affecting only one of the two subdomains restricted the sequence specificity of the paired domain. Such mutations have been shown previously to be the cause of mouse developmental mutants {undulated, Splotch, and Small eye) and human syndromes (Waardenburg's syndrome and aniridia) and may thus differentially affect the regulation of target genes by the mutated Pax protein.
Pax-6 is known to be a key regulator of vertebrate eye development. We have now isolated cDNA for an invertebrate Pax-6 protein from sea urchin embryos. Transcripts of this gene first appear during development at the gastrula stage and are later expressed at high levels in the tube foot of the adult sea urchin. The sea urchin Pax-6 protein is highly homologous throughout the whole protein to its vertebrate counterpart with the paired domain and homeodomain being virtually identical. Consequently, we found that the DNA-binding and transactivation properties of the sea urchin and mouse Pax-6 proteins are very similar, if not identical. A potent activation domain capable of stimulating transcription from proximal promoter and distal enhancer positions was localized within the C-terminal sequences of both the sea urchin and mouse Pax-6 proteins. The homeodomain of Pax-6 was shown to cooperatively dimerize on DNA sequences consisting of an inverted repeat of the TAAT motif with a preferred spacing of 3 nucleotides. The consensus recognition sequence of the Pax-6 paired domain deviates primarily only at one position from that of BSAP (Pax-5), and yet the two proteins exhibit largely different binding specificities for individual, naturally occurring sites. By creating Pax-6-BSAP fusion proteins, we were able to identify a short amino acid stretch in the N-terminal part of the paired domain which is responsible for these differences in DNA-binding specificity. Mutation of three Pax-6-specific residues in this region (at positions 42, 44, and 47 of the paired domain) to the corresponding amino acids of BSAP resulted in a complete switch of the DNA-binding specificity from Pax-6 to BSAP. These three amino acids were furthermore shown to discriminate between the Pax-6-and BSAP-specific nucleotide at the divergent position of the two consensus recognition sequences.
The specification of distinct neuronal cell-types is controlled by inducing signals whose interpretation in distinct areas along the central nervous system provides neuronal progenitors with a precise and typical expression code of transcription factors. To gain insights into this process, we investigated the role of Otx2 in the specification of identity and fate of neuronal progenitors in the ventral midbrain. To achieve this, Otx2 was inactivated by Cre recombinase under the transcriptional control of En1. Lack of Otx2 in the ventrolateral and posterior midbrain results in a dorsal expansion of Shh expression and in a dorsal and anterior rotation of the midbrain-hindbrain boundary and Fgf8 expression. Indeed, in this mutant correct positioning of the ventral site of midbrain-hindbrain boundary and Fgf8 expression are efficiently controlled by Otx1 function, thus allowing the study of the identity and fate of neuronal progenitors of the ventral midbrain in the absence of Otx2. Our results suggest that Otx2 acts in two ways: by repressing Nkx2.2 in the ventral midbrain and maintaining the Nkx6.1-expressing domain through dorsal antagonism on Shh. Failure of this control affects the identity code and fate of midbrain progenitors, which exhibit features in common with neuronal precursors of the rostral hindbrain even though the midbrain retains its regional identity and these neuronal precursors are rostral to Fgf8 expression. Dopaminergic neurons are greatly reduced in number, red nucleus precursors disappear from the ventral midbrain where a relevant number of serotonergic neurons are generated. These results indicate that Otx2 is an essential regulator of the identity, extent and fate of neuronal progenitor domains in the ventral midbrain and provide novel insights into the mechanisms by which neuronal diversity is generated in the central nervous system.
SummaryNodal activity in the left lateral plate mesoderm (LPM) is required to activate left-sided Nodal signaling in the epithalamic region of the zebrafish forebrain. Epithalamic Nodal signaling subsequently determines the laterality of neuroanatomical asymmetries. We show that overactivation of Wnt/Axin1/β-catenin signaling during late gastrulation leads to bilateral epithalamic expression of Nodal pathway genes independently of LPM Nodal signaling. This is consistent with a model whereby epithalamic Nodal signaling is normally bilaterally repressed, with Nodal signaling from the LPM unilaterally alleviating repression. We suggest that Wnt signaling regulates the establishment of the bilateral repression. We identify a second role for the Wnt pathway in the left/right regulation of LPM Nodal pathway gene expression, and finally, we show that at later stages Axin1 is required for the elaboration of concordant neuroanatomical asymmetries.
Beside spatial distribution, timing of gene expression is a key parameter controlling gene function during embryonic development. Gain-of-function experiments can therefore have quite opposing results, depending on the time of gene activation. Induction techniques are necessary to control timing in these experiments from outside of the organism. Natural heat shock promoters constitute a simple inducible misexpression system, the main disadvantage is a high background level of expression. We present here a new heat stress-inducible bidirectional promoter consisting of multimerized heat shock elements (HSE). The simplified architecture of this promoter largely improves the properties needed for an efficient induction system: dramatically reduced background activity, improved inducibility, and loss of all tissue specific components. Based on this new artificial promoter, we present a transient induction system for fish embryos. Application of this new induction system for Fgf8 misexpression during embryonic development reveals different windows of competence during eye development. A dramatic early phenotype resulting in loss of the eyes is observed for conventional mRNA injection. Later activation, by using our inducible promoter, uncovers different eye phenotypes like cyclopic eyes. Even after 14 days, an efficient heat stress response could be evoked in the injected embryos. The HSE promoter therefore represents a new artificial heat shock promoter with superior properties, making possible transient experiments with inducible misexpression at various stages of development.
The myogenic basic helix-loop-helix proteins are
One of the earliest organizational decisions in the development of the vertebrate brain is the division of the neural plate into Otx2-positive anterior and Gbx2-positive posterior territories. At the junction of these two expression domains, a local signaling center is formed, known as the midbrain-hindbrain boundary (MHB). This tissue coordinates or "organizes" the development of neighboring brain structures, such as the midbrain and cerebellum. Correct positioning of the MHB is thought to depend on mutual repression involving these two homeobox genes. Using a cell culture colocalization assay and coimmunoprecipitation experiments, we show that engrailed homology region 1 (eh1)-like motifs of both transcription factors physically interact with the WD40 domain of Groucho/Tle corepressor proteins. In addition, heat shock-induced expression of wild-type and mutant Otx2 and Gbx2 in medaka embryos demonstrates that Groucho is required for the repression of Otx2 by Gbx2. On the other hand, the repressive functions of Otx2 on Gbx2 do not appear to be dependent on corepressor interaction. Interestingly, the association of Groucho with Otx2 is also required for the repression of Fgf8 in the MHB. Therefore Groucho/Tle family members appear to regulate key aspects in the MHB development of the vertebrate brain.Gbx2 is a member of the homeobox gene family and has been identified in mammalian, avian, amphibian, and fish species (12,24,36,56,66). Gbx genes are related to the Drosophila unplugged gene, which is involved in tracheal branching (18). Gbx2 is a key player in the early patterning of the vertebrate brain and is expressed in the local signaling center known as the midbrain-hindbrain boundary (MHB) or isthmic organizer, which is positioned between the presumptive midbrain and hindbrain (reviewed in references 34, 54, 59, and 70). The Gbx2 expression domain is located at the region of the hindbrain, while the homeobox gene Otx2 is expressed in the presumptive forebrain and midbrain and thereby forms a common border with the Gbx2 domain at the position of the prospective MHB. Gbx2 mutant mice lack the anterior hindbrain and reveal a posterior expansion of the midbrain (67). In contrast, the anterior brain rostral to rhombomere 3 is deleted in Otx2-null mutant mice (3, 44). Misexpression of Gbx2 represses Otx2 expression in the posterior midbrain (46, 66), whereas misexpression of Otx2 in the anterior hindbrain represses Gbx2 expression in this region (11,35). Studies in Xenopus suggest that Otx and Gbx proteins needed for the positioning process function primarily as repressors rather than activators (28).Tle4 is one of the four full-length Groucho proteins in mammals (39, 63). The founding member of this conserved corepressor family is the Groucho gene of Drosophila. Groucho is known to play important roles in various developmental processes, including sex determination, segmentation, neurogenesis and dorsoventral patterning (22,50). Groucho family members are characterized by a conserved N-terminal glutamine-rich reg...
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