Retinoids, such as retinoic acid (RA), play a critical role in normal vertebrate development and physiology. However, embryonic exposure to excess retinoids also causes severe malformations. Retinoids bind RA receptors and retinoid X receptors, thus activating a plethora of genes. Separating the genes induced directly by retinoid-bound receptors from those induced subsequently by other transcription factors is difficult. The loose consensus defining known RA responsive elements (RAREs) further complicates this effort. We developed a yeast-based system to trap functional RAREs in the mouse genome. Several of the clones contain RAREs near RA-induced genes. Mammalian reporter gene analyses and EMSAs showed that these are bona fide RAREs. This functional genomics approach should identify RA-regulated genes that initiate critical signaling cascades in cells.
Cyclosporin synthetase, a multifunctional polypeptide, catalyses the biosynthesis of the set of natural cyclosporins. We report that this enzyme is also capable of introducing a beta-alanine into position 7 or 8 of the ring instead of the alpha-alanines present at these positions in cyclosporin A. This leads to 34-membered rings in contrast to the 33-membered ring of the cyclo-undecapeptide cyclosporin A. Both [beta Ala7]CyA and [beta Ala8]CyA show immunosuppressive activity. The cyclosporin synthetase-related enzyme peptolide SDZ 214-103 synthetase, on the other hand, does not incorporate either beta-alanine into position 7 or beta-hydroxy acids into position 8, confirming the previously described higher substrate specificity of this enzyme compared with cyclosporin synthetase [Lawen and Traber (1993) J. Biol. Chem. 268, 20452-20465].
Blastula protease 10 (BP10) is a metalloenzyme involved in sea urchin embryogenesis, which has been assigned to the astacin family of zinc-dependent endopeptidases. It shows greatest homology with the mammalian tolloid-like genes and contains conserved structural motifs consistent with astacin, tolloid, and bone morphogenetic protein 1. Astacin, a crustacean digestive enzyme, has been proposed to carry out hydrolysis via a metal-centered mechanism that involves a metal-coordinated "tyrosine switch." It has not been determined if the more structurally complex members of this family involved in eukaryotic development share this mechanism. The recombinant BP10 has been overexpressed in Escherichia coli, its metalloenzyme nature has been confirmed, and its catalytic properties have been characterized through kinetic studies. BP10 shows significant hydrolysis toward gelatin both in its native zinc-containing form and copper derivative. The copper derivative of BP10 shows a remarkable 960% rate acceleration toward the hydrolysis of the synthetic substrate N-benzoyl-arginine-p-nitroanilide when compared with the zinc form. The enzyme also shows calcium-dependent activation. These are the first thorough mechanistic studies reported on BP10 as a representative of the more structurally complex members of astacin-type enzymes in deuterostomes, which can add supporting data to corroborate the metal-centered mechanism proposed for astacin and the role of the coordinated Tyr. We have demonstrated the first mechanistic study of a tolloidrelated metalloenzyme involved in sea urchin embryogenesis.The astacin family of zinc-dependent endopeptidases is ubiquitously distributed across all phyla and part of the superfamily of metzincins (1). Approximately 30 members of the astacin family have been characterized at the protein level (2), such as meprins, bone morphogenetic protein-1 (BMP-1), 3 and tolloid, whereas several others have been identified through gene sequencing, including those in Caenorhabditis elegans (3). The signature of the sequence of the active site motif for this family of enzymes is HEXXHXXGXXH, where one Zn 2ϩ ion coordinates with the three histidines (boldface type), a tyrosine (Met-His/SerTyr in a loop region downstream from the coordinated His residues), and a water molecule (4). Most members of this family share common domain structures such as the pre-and proenzyme sequences located immediately N-terminal to the protease domain. Several members contain one or two copies of epidermal growth factor (EGF)-like domains and complement-like domains (Clr, Cls) near the C terminus (2). The shuffling of different domains in relation to the catalytic protease domain creates a variety of proteins with different structures and functions.Originally isolated and characterized as a developmentally regulated gene in sea urchin embryos (5, 6), the BP10 protein has remained uncharacterized. It shares sequence similarity with other members of the astacin family of enzymes (astacin itself being a crayfish digestive enzyme (4, ...
The SpFoxB gene is transiently expressed first in the mesoderm, then in the endoderm and oral ectoderm during sea urchin gastrulation. Perturbations of a number of proteins involved in endomesoderm specification have been shown to alter the mRNA levels of SpFoxB, but the cis-regulatory elements required for expression of SpFoxB have not been examined. In order to investigate this, we have screened the SpFoxB gene for sequences that can drive its expression. Both positive and negative cis-regulatory elements were found to be present. An enhancer was found that contains four GATA sites and four YY1 sites clustered within 210 base pairs (bp), as well as three lef/tcf binding sites. Electrophoretic mobility shifts indicate that the lef/tcf sites bind a complex of proteins that include beta-catenin in early cleavage, but not during subsequent stages of development. The GATA and YY1 sites bind nuclear proteins prior to SpFoxB transcription, and this binding diminishes coincident with cessation of transcription. Deletion of the GATA/YY1 sites causes a significant decrease in transcription. The DNA binding site of the SpFoxB protein has been determined, and Fox binding sites are found within the 5' UTR of SpFoxB.
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