Distinct delta and jagged genes control sequential segregation of pancreatic cell types from precursor pools in zebrafish.

The different cell types of the vertebrate pancreas arise asynchronously during organogenesis. Beta-cells producing insulin, alpha-cells producing glucagon, and exocrine cells secreting digestive enzymes differentiate sequentially from a common primordium. Notch signaling has been shown to be a major mechanism controlling these cell-fate choices. So far, the pleiotropy of Delta and Jagged/Serrate genes has hindered the evaluation of the roles of specific Notch ligands, as the phenotypes of knock-out mice are lethal before complete pancreas differentiation. Analyses of gene expression and experimental manipulations of zebrafish embryos allowed us to determine individual contributions of Notch ligands to pancreas development. We have found that temporally distinct phases of both endocrine and exocrine cell type specification are controlled by different delta and jagged genes. Specifically, deltaA knock-down embryos lack alpha cells, similarly to mib (Delta ubiquitin ligase) mutants and embryos treated with DAPT, a gamma secretase inhibitor able to block Notch signaling. Conversely, jagged1b morphants develop an excess of alpha-cells. Moreover, the pancreas of jagged2 knock-down embryos has a decreased ratio of exocrine-to-endocrine compartments. Finally, overexpression of Notch1a-intracellular-domain in the whole pancreas primordium or specifically in beta-cells helped us to refine a model of pancreas differentiation in which cells exit the precursor state at defined stages to form the pancreatic cell lineages, and, by a feedback mediated by different Notch ligands, limit the number of other cells that can leave the precursor state.

Regulatory regions in the promoter and third intron of the growth hormone gene in rainbow trout, Oncorhynchus mykiss walbaum.

The mechanisms involved in the transcriptional regulation of the rainbow trout (Oncorhynchus mykiss) growth hormone (tGH) gene have been investigated. Transient transfection assays, using deletion mutants of the tGH promoter, demonstrated that the -226/+24 5'-flanking region, bearing three binding sites for the pituitary-specific transcription factor GHF1/Pit1 and a cAMP-response element, is necessary and sufficient to confer strong tissue-specific and cAMP-stimulated expression to a luciferase reporter gene. This region is also upregulated by the synthetic glucocorticoid dexamethasone (DEX), the combined effects of cAMP, and DEX being synergistic. Footprinting and gel shift assays revealed that GHF1 binds to a recognition element in the third intron of the tGH gene, suggesting that GHF1 can affect the expression of this gene by interacting with response elements in the transcription unit. These results may be exploited to design tGH gene constructs for the production of autotransgenic fish, in which the expression of the isospecific transgene driven by a constitutive proximal promoter is specifically targeted to the pituitary and physiologically controlled.

Early appearance of pancreatic hormone-expressing cells in the zebrafish embryo.

Adult pancreatic islets comprise four cell types, alpha, beta, delta and PP, expressing glucagon, insulin, somatostatin and pancreatic-polypeptide, respectively, arising from cell lineages whose relationships during endocrine pancreas differentiation are still uncertain [Edlund, 1998. Diabetes 47, 1817-1823]. As zebrafish (Danio rerio) represents an attractive vertebrate model to study mutants affecting pancreatic organogenesis [Pack et al., 1996. Development 123, 321-328], we have investigated the expression patterns of islet hormones in zebrafish embryos, from the 16-somite (17 h) to 48-h stages, by whole-mount in situ hybridization and immunofluorescence. Results showed that in the zebrafish pancreatic primordium (a) insulin is the first hormone gene to be expressed, and (b) somatostatin colocalizes with insulin while glucagon-expressing cells, since their appearance, are distinct from insulin- or insulin/somatostatin-expressing cells. Notably, both somatostatin and glucagon, but not insulin, are first expressed in extrapancreatic regions.

Pit-1 mediates cell-specific and cAMP-induced transcription of the tilapia GH gene.

Expression of the tilapia growth hormone (tiGH) gene is pituitary-specific and controlled by intracellular cAMP levels. DNaseI protection experiments allowed us to identify four Pit-1 binding sites in the tiGH - 465/ + 19 region. Deletion and mutagenesis analysis revealed that the - 131/+ 19 region, containing two Pit-1 sites, or four copies of the most proximal site tiGHF1 fused to the heterologous Tk promoter, confer high level expression in rat pituitary cells and direct transcription in non-pituitary cells only after expression of rat Pit-1. We show that a tilapia pituitary factor specifically binds to site tiGHF1 and obtained a partial cDNA sequence coding for tilapia Pit-1. The cAMP stimulation is mediated by the proximal (- 131/- 31) promoter region. It is Pit-1-dependent and requires the tiGHF1 site. In addition, four copies of this site confer cAMP inducibility to the Tk promoter in GC cells.

Structure and functional analysis of a tilapia (Oreochromis mossambicus) growth hormone gene: activation and repression by pituitary transcription factor Pit-1.

A gene encoding the Tilapia mossambica (Oreochromis mossambicus) growth hormone (tiGH) was isolated and sequenced. The gene spans 5.6 kb, including 3.7 kb of 5' and 0.2 kb of 3' flanking sequences and a 1.7-kb transcription unit comprised of six exons and five introns. The gene and the 5' flanking region contain several potential binding sites for Pit-1, a key transcription activator of mammalian GH genes. One of these (-57/-42) is highly conserved in fish GH genes. It activates transcription in pituitary cells and binds Pit-1. Transfection of luciferase reporter plasmids containing either the -3602/+19 tiGH sequence or one of its 5' deletion mutants (-2863/, -1292/, and -463/+19) resulted in strong activity in Pit-1-producing rat pituitary GC cells. A dose-dependent activation of the tiGH promoter was achieved in nonpituitary fish EPC and monkey COS cells cotransfected with a rat Pit-1 expression vector, demonstrating the crucial role played by Pit-1 as an activator of the tiGH gene. Fusion of the tiGH promoter with the beta-galactosidase gene led to transient expression specifically in the nervous system of microinjected zebrafish embryos. The activity of the tiGH promoter in GC and EPC cells was strongly repressed by extending its 3' end from +19 to +40, a sequence in which a Pit-1-binding site was identified using gel retardation assays. Point mutations of the site that suppressed Pit-1 binding in vitro restored full tiGH promoter activity. Thus, a Pit-1-binding site located in the 5' untranslated region mediates Pit-1-dependent repression of the tiGH gene.

The bacteriophage T7 binary system activates transient transgene expression in zebrafish (Danio rerio) embryos.

The bacteriophage T7 binary expression system is widely used in vitro for high level selective expression of cloned genes but its application to in vivo models has not yet been investigated. In the present work, we show that coinjection into fertilized zebrafish eggs of pE1T7R, an expression plasmid bearing the T7 RNA polymerase gene driven by the cytomegalovirus (CMV) promoter, together with reporter vectors containing the Escherichia coli lacZ gene driven by the T7 promoter, resulted in the efficient expression of the reporter gene in 24-h mosaic transgenic embryos. Conversely, embryos receiving an unrelated CMV-expression plasmid, instead of pE1T7R, lacked significant reporter gene activity, indicating the strict requirement of T7 polymerase to activate the T7 promoter in these embryos. The present study demonstrates the possibility of applying efficiently the bacteriophage T7 binary system in vivo to a vertebrate model.

Functional characterization of the trout insulin promoter: implications for fish as a favorable model of pancreas development.

The complex anatomy of the mammalian pancreas, in which the endocrine cells are grouped in islets dispersed among the predominant exocrine component, has hampered study of the molecular events governing the development of pancreatic cell lineages. To investigate whether fish may provide relevant, complementary models of pancreas development, we characterized the trout insulin (tINS) promoter and its molecular interactions with PDX1, a key transcriptional and developmental factor of the mammalian pancreas. Transfection of a luciferase reporter plasmid containing the 280 bp 5'-flanking region of the tINS gene resulted in strong activity in mammalian pancreatic beta cells but not in CHO or pituitary cells. Footprinting assays and cotransfection experiments indicated that mammalian PDX1 binds to and activates the tINS promoter. By microinjecting plasmids to fertilized zebrafish eggs, we showed that the expression of mouse PDX1 is capable of activating the co-injected tINS promoter plasmid in most cell types of the 24-h zebrafish embryo. The conserved role of PDX1 in vertebrate insulin gene regulation opens the possibility to exploit fish models in the study of pancreas development.

Mechanisms of transcriptional activation of the promoter of the rainbow trout prolactin gene by GHF1/Pit1 and glucocorticoid.

The transcription factor GHF1/Pit1, required for the expression of the prolactin (PRL) and other pituitary-specific genes, is highly conserved from fish to mammals but the mechanisms by which it activates transcription are poorly understood. The activity of the promoter (-627/+15 region) of the rainbow trout PRL (tPRL) gene fused to the luciferase reporter gene was studied using GHF1-expressing rat pituitary GC cells. Nuclear extracts of GC cells produced five GHF1-specific footprints in the tPRL promoter, with the position of the two most proximal ones being highly conserved in trout and mammalian GHF1-regulated genes. Deletional and mutational analyses of the tPRL promoter showed that the most proximal GHF1 site alone is sufficient to confer sub-maximal GHF1-dependent transcriptional activity and that a glucocorticoid response element-like motif mediates dexamethasone stimulation. It is suggested that GHF1 molecules bound to different sites of the tPRL promoter cannot interact simultaneously with the transcriptional apparatus. Moreover, GHF1 and the ligand-bound glucocorticoid receptor tethered to their cognate elements in the promoter could cooperate to enhance transcription by interacting simultaneously with different members of the basal transcriptional complex.

The prolactin of European sea bass (Dicentrarchus labrax L.): cloning of cDNA and efficient expression in Escherichia coli.

The cDNA encoding sea bass (Dicentrarchus labrax) prolactin (sbPRL) was obtained by reverse transcription-polymerase chain reaction (RT/PCR) from pituitary RNA with degenerate primers designed on the basis of the cDNAs of the two PRLs (tPRL188 and tPRL177) from the tilapia, Oreochromis niloticus. The sbPRL cDNA encodes a preprotein of 212 amino acids composed of a putative signal peptide of 24 residues and a mature protein of 188 amino acids that is the homologue of tiPRL188. The cDNA coding for the mature protein was cloned into the pAX4a+ expression vector and expressed efficiently in Escherichia coli as a beta-galactosidase-fusion protein. To split the fusion protein, a sequence encoding the hexapeptide, (Asn-Gly)3, that contains three Asn-Gly hydroxylamine-cleavable bonds, had been previously introduced by PCR upstream of the sbPRL cDNA. N-terminal sequencing confirmed that the cleaved product corresponded to sbPRL. An antiserum raised against the recombinant hormone detected by immunoblotting a single band in sea bass pituitaries and two bands in tilapia pituitaries, suggesting the occurrence of a single PRL form in sea bass.

The transcriptional regulation of the growth hormone gene is conserved in vertebrate evolution.

Growth hormone (GH) gene expression in mammals is regulated by the interaction of the transcription factor Pit-1 with two binding sites within the proximal promoter. Four sequences, homologous to the mammalian Pit-1 motif occur in the rainbow trout (Oncorhynchus mykiss) GHII (rtGH) gene promoter, two of which partly overlap. The three regions containing these putative Pit-1 binding sequences were protected from deoxyribonuclease I digestion by nuclear extracts of GC cells, a rat pituitary tumor cell line producing Pit-1. In gel shift assays, nuclear proteins from GC cells and from trout pituitaries were found to interact specifically with one of these protected sites. Transfection experiments showed that the rtGH promoter is transcriptionally active in GC cells, the response being strongly enhanced in the presence of a cAMP analogue. The results demonstrate that rat Pit-1 binds to and activates the rtGH promoter, indicating that the basic mechanisms regulating GH gene transcription have been conserved between fish and mammals.

Cloning and sequencing of European sea bass (Dicentrarchus labrax L.) growth hormone cDNA using polymerase chain reaction and degenerate oligonucleotides.

To clone and sequence the cDNA of the growth hormone of European sea bass (Dicentrarchus labrax L.) (sbGH), total pituitary RNA was reverse transcribed and amplified using polymerase chain reaction (PCR). Degenerate oligonucleotides, designed by comparing available GH cDNA sequences from related teleost species, were used as primers to amplify the 5' end and the core region of sbGH cDNA, while the 3' end was amplified according to the Rapid Amplification of cDNA ends (RACE) method. SbGH cDNA contains an open reading frame encoding a preprotein of 204 amino acids. The deduced amino acid sequence shows a putative signal peptide of 17 amino acids, suggesting that the mature hormone consists of 187 amino acids. Sequence comparison indicates a high degree of conservation of GH cDNAs within the Percoidei infraorder. Our procedure based on degenerate oligonucleotides and PCR provides a straightforward approach to clone GH cDNAs from other related bony fishes.

Sertoli and Leydig cell numbers and gonadotropin receptors in rat testis from birth to puberty.

In testes of rats from 2 to 60 days of age, we examined the number of Sertoli cells (SC) and Leydig cells (LC) as well as the binding of radioiodinated gonadotropins to frozen sections and homogenates. The number of SC per testis increased only during the first 2 postnatal weeks, whereas that of LC was stable up to days 7-10 and increased thereafter. The uptake of 125I-labelled human follicle-stimulating hormone (125I-FSH) to frozen sections was confined to sex cords or seminiferous tubules, while that of 125I-labelled human choriogonadotropin (125I-hCG) matched the distribution of LC in the interstitium. High affinity receptors for FSH and hCG were found in homogenates at all stages studied. The number of FSH receptors per testis increased steadily, whereas that of hCG receptors was low until days 7-10 and rose afterwards. Thus, SC in rat testis appear to proliferate in the presence of fetal LC during the first 2 postnatal weeks and to differentiate concomitantly with the emergence of the adult LC generation after day 10. The complement of FSH receptors in SC remains constant as they proliferate and increases after day 21 as they differentiate. The hCG receptor number is relatively fixed in each LC generation, being higher in adult compared to fetal LC.

Measuring moment-to-moment pilot workload using synchronous presentations of secondary tasks in a motion-based trainer.

A simulation was conducted to determine whether the sensitivity of secondary task measures of pilot workload could be improved by synchronizing their presentation to the occurrence of specific events or pilot actions. This synchronous method of presentation was compared to the more typical asynchronous method, where secondary task presentations are independent of pilot's flight-related activities. Twelve pilots flew low- and high-difficulty scenarios in a motion-base trainer with and without concurrent secondary tasks (e.g., choice reaction time, time production). The difficulty of each scenario was manipulated by the addition of 21 flight-related tasks superimposed on a standard approach and landing sequence. Secondary task performance did reflect workload differences between scenarios and among flight segments within scenarios, replicating the results of an earlier study in which the secondary tasks were presented asynchronously. In addition, the choice reaction time secondary task was also sensitive to the workload of specific activities within flight segments. Workload ratings were virtually identical between this and the earlier study.

Changes in the organization of the extracellular matrix in ovarian follicles during the preovulatory phase and atresia. An immunofluorescence study.

The distribution of laminin, type IV collagen and fibronectin was studied by immunofluorescence in rat, pig and cow ovarian follicles. The results obtained in the three species investigated were similar. In all the follicles, laminin and type IV collagen were identically localized in the basal lamina (BL) separating the granulosa and the theca layers. In addition, these two proteins were also distributed in the wall of blood vessels of the thecae and ovarian stroma. The staining showed that the BL of primordial and growing follicles was regular and continuous, but underwent striking modifications during ovulation and atresia. In fact, in preovulatory follicles the BL appeared thinner and discontinuous, whereas it was much thickened and ruptured in atretic follicles. Fibronectin was localized mainly in inner granulosa cells of small and medium-sized growing follicles, and as a broad and irregular layer around the cavity of the degenerated follicles. The results show that each stage of follicular growth and involution is associated with a precise and peculiar pattern of distribution of laminin, type IV collagen and fibronectin. The possibility that these proteins play a role in the local control of ovarian follicular dynamics is advanced.

[Action of trimethyl 3,3-N-hexene-5-lactam on the mechanical properties of the longitudinal fibers of the rat colon. An in vitro study]. / Action du triméthyl-3,3-N-hexène-5-lactame (T.H.L.) sur les propriétés mécaniques des fibres longitudinales du colon de rat. Etude "in vitro".

The effects of trimethyl 3,3-N-hexene-5-lactam (T. H. L.) on the mechanical properties of longitudinal muscle strips of the distal rat colon were investigated through stretching, electrical stimulation and addition of pharmacologic agents. T. H. L. abolished the contraction induced by electrical stimulation and decreased amplitude of contractions induced by carbamoylcholine and serotonin. It further reduced the relaxation induced by adrenaline.

A solid-phase receptor binding assay for 125I-hCG.

A solid-phase radioligand-receptor assay (RRA) to measure the binding of 125I-labelled human chorionic gonadotropin (125I-hCG) to target cell membranes has been developed. The binding of 125I-hCG to membranes immobilized on the wells of microtitration plates reached a maximum at about 3 hours at 37 degrees C, was saturable, displayed a high affinity (Ka = 2.4 X 10(9) M-1) and was specifically inhibited by unlabelled hCG. In comparison with RRAs carried out with membranes in suspension, the solid-phase RRA is significantly simpler and much faster to perform as it avoids centrifugation or filtration procedures. The solid-phase RRA was adapted profitably to process large numbers of samples at the same time. It proved particularly useful as a screening assay to detect anti-hCG monoclonal antibodies with high inhibitory activity for binding of 125I-hCG to its receptors.

Measuring pilot workload in a motion base trainer. A comparison of four techniques.

Various techniques have been developed to predict and measure pilot workload. This simulation was conducted in order to compare four widely used methods: a visual two-and four-choice reaction time task, time production, retrospective multi-dimensional subjective ratings and in-flight verbal workload estimates. Two scenarios with different levels of difficulty determined by preliminary research were designed to test these techniques. The insertion of the secondary tasks did not significantly affect flight performance. All four techniques were able to distinguish between the overall levels of scenario complexity. In addition, the three secondary tasks and workload ratings obtained in-flight were generally able to distinguish among levels of difficulty for different segments within the scenarios.