199 results on '"Martial JA"'
Search Results
2. Ezrin interacts with the SARS coronavirus Spike protein and restrains infection at the entry stage.
- Author
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Jean Kaoru Millet, François Kien, Chung-Yan Cheung, Yu-Lam Siu, Wing-Lim Chan, Huiying Li, Hiu-Lan Leung, Martial Jaume, Roberto Bruzzone, Joseph S Malik Peiris, Ralf Marius Altmeyer, and Béatrice Nal
- Subjects
Medicine ,Science - Abstract
BackgroundEntry of Severe Acute Respiratory Syndrome coronavirus (SARS-CoV) and its envelope fusion with host cell membrane are controlled by a series of complex molecular mechanisms, largely dependent on the viral envelope glycoprotein Spike (S). There are still many unknowns on the implication of cellular factors that regulate the entry process.Methodology/principal findingsWe performed a yeast two-hybrid screen using as bait the carboxy-terminal endodomain of S, which faces the cytosol during and after opening of the fusion pore at early stages of the virus life cycle. Here we show that the ezrin membrane-actin linker interacts with S endodomain through the F1 lobe of its FERM domain and that both the eight carboxy-terminal amino-acids and a membrane-proximal cysteine cluster of S endodomain are important for this interaction in vitro. Interestingly, we found that ezrin is present at the site of entry of S-pseudotyped lentiviral particles in Vero E6 cells. Targeting ezrin function by small interfering RNA increased S-mediated entry of pseudotyped particles in epithelial cells. Furthermore, deletion of the eight carboxy-terminal amino acids of S enhanced S-pseudotyped particles infection. Expression of the ezrin dominant negative FERM domain enhanced cell susceptibility to infection by SARS-CoV and S-pseudotyped particles and potentiated S-dependent membrane fusion.Conclusions/significanceEzrin interacts with SARS-CoV S endodomain and limits virus entry and fusion. Our data present a novel mechanism involving a cellular factor in the regulation of S-dependent early events of infection.
- Published
- 2012
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3. Chloroquine clinical failures in P. falciparum malaria are associated with mutant Pfmdr-1, not Pfcrt in Madagascar.
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Valérie Andriantsoanirina, Arsène Ratsimbasoa, Christiane Bouchier, Magali Tichit, Martial Jahevitra, Stéphane Rabearimanana, Rogelin Raherinjafy, Odile Mercereau-Puijalon, Rémy Durand, and Didier Ménard
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Medicine ,Science - Abstract
Molecular studies have demonstrated that mutations in the Plasmodium falciparum chloroquine resistance transporter gene (Pfcrt) play a major role in chloroquine resistance, while mutations in P. falciparum multidrug resistance gene (Pfmdr-1) act as modulator. In Madagascar, the high rate of chloroquine treatment failure (44%) appears disconnected from the overall level of in vitro CQ susceptibility (prevalence of CQ-resistant parasites 60% of isolates), but did not explore their association with P. falciparum chloroquine resistance. To document the association of Pfmdr-1 alleles with chloroquine resistance in Madagascar, 249 P. falciparum samples collected from patients enrolled in a chloroquine in vivo efficacy study were genotyped in Pfcrt/Pfmdr-1 genes as well as the estimation of the Pfmdr-1 copy number. Except 2 isolates, all samples displayed a wild-type Pfcrt allele without Pfmdr-1 amplification. Chloroquine treatment failures were significantly associated with Pfmdr-1 86Y mutant codon (OR = 4.6). The cumulative incidence of recurrence of patients carrying the Pfmdr-1 86Y mutation at day 0 (21 days) was shorter than patients carrying Pfmdr-1 86N wild type codon (28 days). In an independent set of 90 selected isolates, in vitro susceptibility to chloroquine was not associated with Pfmdr-1 polymorphisms. Analysis of two microsatellites flanking Pfmdr-1 allele showed that mutations occurred on multiple genetic backgrounds. In Madagascar, Pfmdr-1 polymorphism is associated with late chloroquine clinical failures and unrelated with in vitro susceptibility or Pfcrt genotype. These results highlight the limits of the current in vitro tests routinely used to monitor CQ drug resistance in this unique context. Gaining insight about the mechanisms that regulate polymorphism in Pfmdr1 remains important, particularly regarding the evolution and spread of Pfmdr-1 alleles in P. falciparum populations under changing drug pressure which may have important consequences in terms of antimalarial use management.
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- 2010
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4. Dihydrofolate Reductase I164L Mutation in Plasmodium falciparum, Madagascar
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Didier Ménard, Valérie Andriantsoanirina, Martial Jahevitra, Céline Barnadas, Magali Tichit, Christiane Bouchier, and Carol Hopkins Sibley
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Plasmodium falciparum ,sulfadoxine-pyrimethamine ,drug resistance ,dihydrofolate reductase ,dhfr ,I164L ,Medicine ,Infectious and parasitic diseases ,RC109-216 - Published
- 2008
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5. The unexpected structure of the designed protein Octarellin V.1 forms a challenge for protein structure prediction tools.
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Figueroa M, Sleutel M, Vandevenne M, Parvizi G, Attout S, Jacquin O, Vandenameele J, Fischer AW, Damblon C, Goormaghtigh E, Valerio-Lepiniec M, Urvoas A, Durand D, Pardon E, Steyaert J, Minard P, Maes D, Meiler J, Matagne A, Martial JA, and Van de Weerdt C
- Subjects
- Crystallography, X-Ray, Humans, Protein Folding, Protein Structure, Tertiary, Computer Simulation standards, Directed Molecular Evolution methods, Proteins chemistry, Recombinant Proteins chemistry
- Abstract
Despite impressive successes in protein design, designing a well-folded protein of more 100 amino acids de novo remains a formidable challenge. Exploiting the promising biophysical features of the artificial protein Octarellin V, we improved this protein by directed evolution, thus creating a more stable and soluble protein: Octarellin V.1. Next, we obtained crystals of Octarellin V.1 in complex with crystallization chaperons and determined the tertiary structure. The experimental structure of Octarellin V.1 differs from its in silico design: the (αβα) sandwich architecture bears some resemblance to a Rossman-like fold instead of the intended TIM-barrel fold. This surprising result gave us a unique and attractive opportunity to test the state of the art in protein structure prediction, using this artificial protein free of any natural selection. We tested 13 automated webservers for protein structure prediction and found none of them to predict the actual structure. More than 50% of them predicted a TIM-barrel fold, i.e. the structure we set out to design more than 10years ago. In addition, local software runs that are human operated can sample a structure similar to the experimental one but fail in selecting it, suggesting that the scoring and ranking functions should be improved. We propose that artificial proteins could be used as tools to test the accuracy of protein structure prediction algorithms, because their lack of evolutionary pressure and unique sequences features., (Copyright © 2016 Elsevier Inc. All rights reserved.)
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- 2016
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6. The interaction of uPAR with VEGFR2 promotes VEGF-induced angiogenesis.
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Herkenne S, Paques C, Nivelles O, Lion M, Bajou K, Pollenus T, Fontaine M, Carmeliet P, Martial JA, Nguyen NQ, and Struman I
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- Animals, Endocytosis, Human Umbilical Vein Endothelial Cells, Humans, Integrin beta1 metabolism, Low Density Lipoprotein Receptor-Related Protein-1 metabolism, Mice, Protein Binding, Signal Transduction, Neovascularization, Physiologic physiology, Receptors, Urokinase Plasminogen Activator metabolism, Vascular Endothelial Growth Factor A physiology, Vascular Endothelial Growth Factor Receptor-2 metabolism
- Abstract
In endothelial cells, binding of vascular endothelial growth factor (VEGF) to the receptor VEGFR2 activates multiple signaling pathways that trigger processes such as proliferation, survival, and migration that are necessary for angiogenesis. VEGF-bound VEGFR2 becomes internalized, which is a key step in the proangiogenic signal. We showed that the urokinase plasminogen activator receptor (uPAR) interacted with VEGFR2 and described the mechanism by which this interaction mediated VEGF signaling and promoted angiogenesis. Knockdown of uPAR in human umbilical vein endothelial cells (HUVECs) impaired VEGFR2 signaling, and uPAR deficiency in mice prevented VEGF-induced angiogenesis. Upon exposure of HUVECs to VEGF, uPAR recruited the low-density lipoprotein receptor-related protein 1 (LRP-1) to VEGFR2, which induced VEGFR2 internalization. Thus, the uPAR-VEGFR2 interaction is crucial for VEGF signaling in endothelial cells., (Copyright © 2015, American Association for the Advancement of Science.)
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- 2015
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7. Corrigendum: PAI-1 mediates the antiangiogenic and profibrinolytic effects of 16K prolactin.
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Bajou K, Herkenne S, Thijssen VL, D'Amico S, Nguyen NQ, Bouché A, Tabruyn S, Srahna M, Carabin JY, Nivelles O, Paques C, Cornelissen I, Lion M, Noel A, Gils A, Vinckier S, Declerck PJ, Griffioen AW, Dewerchin M, Martial JA, Carmeliet P, and Struman I
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- 2015
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8. Endothelial exosomes contribute to the antitumor response during breast cancer neoadjuvant chemotherapy via microRNA transfer.
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Bovy N, Blomme B, Frères P, Dederen S, Nivelles O, Lion M, Carnet O, Martial JA, Noël A, Thiry M, Jérusalem G, Josse C, Bours V, Tabruyn SP, and Struman I
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- Breast Neoplasms genetics, Breast Neoplasms pathology, Cell Line, Tumor, Chemotherapy, Adjuvant, Endothelial Cells metabolism, Endothelial Cells pathology, Female, Gene Expression Regulation, Neoplastic, HCT116 Cells, Human Umbilical Vein Endothelial Cells, Humans, MicroRNAs administration & dosage, MicroRNAs genetics, Neoadjuvant Therapy, Breast Neoplasms drug therapy, Breast Neoplasms metabolism, Exosomes metabolism, MicroRNAs metabolism
- Abstract
The interaction between tumor cells and their microenvironment is an essential aspect of tumor development. Therefore, understanding how this microenvironment communicates with tumor cells is crucial for the development of new anti-cancer therapies. MicroRNAs (miRNAs) are small non-coding RNAs that inhibit gene expression. They are secreted into the extracellular medium in vesicles called exosomes, which allow communication between cells via the transfer of their cargo. Consequently, we hypothesized that circulating endothelial miRNAs could be transferred to tumor cells and modify their phenotype. Using exogenous miRNA, we demonstrated that endothelial cells can transfer miRNA to tumor cells via exosomes. Using miRNA profiling, we identified miR-503, which exhibited downregulated levels in exosomes released from endothelial cells cultured under tumoral conditions. The modulation of miR-503 in breast cancer cells altered their proliferative and invasive capacities. We then identified two targets of miR-503, CCND2 and CCND3. Moreover, we measured increased plasmatic miR-503 in breast cancer patients after neoadjuvant chemotherapy, which could be partly due to increased miRNA secretion by endothelial cells. Taken together, our data are the first to reveal the involvement of the endothelium in the modulation of tumor development via the secretion of circulating miR-503 in response to chemotherapy treatment.
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- 2015
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9. PAI-1 mediates the antiangiogenic and profibrinolytic effects of 16K prolactin.
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Bajou K, Herkenne S, Thijssen VL, D'Amico S, Nguyen NQ, Bouché A, Tabruyn S, Srahna M, Carabin JY, Nivelles O, Paques C, Cornelissen I, Lion M, Noel A, Gils A, Vinckier S, Declerck PJ, Griffioen AW, Dewerchin M, Martial JA, Carmeliet P, and Struman I
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- Animals, Cell Division, Cells, Cultured, Humans, Mice, Mice, Knockout, Neoplasms blood supply, Neoplasms pathology, Peptide Fragments chemistry, Peptide Fragments physiology, Prolactin chemistry, Fibrinolysis, Neovascularization, Pathologic, Plasminogen Activator Inhibitor 1 physiology, Prolactin physiology
- Abstract
The N-terminal fragment of prolactin (16K PRL) inhibits tumor growth by impairing angiogenesis, but the underlying mechanisms are unknown. Here, we found that 16K PRL binds the fibrinolytic inhibitor plasminogen activator inhibitor-1 (PAI-1), which is known to contextually promote tumor angiogenesis and growth. Loss of PAI-1 abrogated the antitumoral and antiangiogenic effects of 16K PRL. PAI-1 bound the ternary complex PAI-1-urokinase-type plasminogen activator (uPA)-uPA receptor (uPAR), thereby exerting antiangiogenic effects. By inhibiting the antifibrinolytic activity of PAI-1, 16K PRL also protected mice against thromboembolism and promoted arterial clot lysis. Thus, by signaling through the PAI-1-uPA-uPAR complex, 16K PRL impairs tumor vascularization and growth and, by inhibiting the antifibrinolytic activity of PAI-1, promotes thrombolysis.
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- 2014
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10. Fgf receptors Fgfr1a and Fgfr2 control the function of pharyngeal endoderm in late cranial cartilage development.
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Larbuisson A, Dalcq J, Martial JA, and Muller M
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- Animals, Body Patterning genetics, Chondrogenesis, Endoderm, Gene Expression Regulation, Developmental, Pharyngeal Muscles growth & development, Receptor, Fibroblast Growth Factor, Type 1 metabolism, Receptor, Fibroblast Growth Factor, Type 2 metabolism, Skull growth & development, Zebrafish, Cartilage growth & development, Cell Differentiation genetics, Receptor, Fibroblast Growth Factor, Type 1 genetics, Receptor, Fibroblast Growth Factor, Type 2 genetics
- Abstract
Cranial cartilage derives mainly from cranial neural crest cells and its formation requires fibroblast growth factor (Fgf) signaling for early differentiation and survival of developing chondrocytes as well as patterning of the endodermal pouches. Here, we investigate the role of Fgf receptors in chondrocyte maturation at later stages, beyond 24 hpf. Using inducible expression of a dominant-negative Fgf receptor, we show that Fgf signaling is required around 30 hpf for correct cartilage formation. The receptor genes fgfr1a and fgr2 are expressed in pharyngeal endodermal pouches after 24 hpf or 26 hpf, respectively. Depletion of any of these two receptors by microinjection of antisense morpholinos results in severe defects in cartilage formation at 4 dpf and a decrease in expression of the late chondrocyte markers barx1 and runx2b. Although endodermal pouches are correctly formed and patterned, receptor knock down leads to decreased expression of runx3, egr1 and sox9b in this tissue, while expression of fsta, coding for a secreted BMP/Tgfß inhibitor, is clearly increased. Rescue experiments revealed that each Fgfr1a or Fgfr2 receptor is able to compensate for the loss of the other. Thus, we show that minimal amounts of Fgfr1a or Fgfr2 are required to initiate a regulatory cascade in pharyngeal endoderm reducing expression of fsta, thereby allowing correct BMP signaling to the maturing chondrocytes of the head cartilage., (Copyright © 2013 International Society of Differentiation. Published by Elsevier B.V. All rights reserved.)
- Published
- 2013
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11. MiR-205 is downregulated in hereditary hemorrhagic telangiectasia and impairs TGF-beta signaling pathways in endothelial cells.
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Tabruyn SP, Hansen S, Ojeda-Fernández ML, Bovy N, Zarrabeitia R, Recio-Poveda L, Bernabéu C, Martial JA, Botella LM, and Struman I
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- Cell Division drug effects, Cell Movement drug effects, Cells, Cultured, Down-Regulation, Gene Expression Regulation physiology, Gene Knockdown Techniques, Human Umbilical Vein Endothelial Cells, Humans, MicroRNAs antagonists & inhibitors, MicroRNAs biosynthesis, MicroRNAs blood, MicroRNAs genetics, Neovascularization, Pathologic blood, Neovascularization, Pathologic physiopathology, Oligonucleotides, Antisense pharmacology, Phenotype, ROC Curve, Receptors, Transforming Growth Factor beta physiology, Signal Transduction genetics, Smad1 Protein biosynthesis, Smad1 Protein genetics, Smad4 Protein biosynthesis, Smad4 Protein genetics, Telangiectasia, Hereditary Hemorrhagic blood, Telangiectasia, Hereditary Hemorrhagic diagnosis, Telangiectasia, Hereditary Hemorrhagic physiopathology, Transforming Growth Factor beta pharmacology, Endothelial Cells metabolism, MicroRNAs physiology, Neovascularization, Pathologic genetics, Signal Transduction physiology, Telangiectasia, Hereditary Hemorrhagic genetics, Transcriptome, Transforming Growth Factor beta physiology
- Abstract
Hereditary hemorrhagic telangiectasia (HHT) is an autosomal dominant disorder characterized by arteriovenous malformations and hemorrhages. This vascular disease results mainly from mutations in 2 genes involved in the TGF-β pathway (ENG and ALK1) that are exclusively expressed by endothelial cells. The present study identified miR-27a and miR-205 as two circulating miRNAs differentially expressed in HHT patients. The plasma levels of miR-27a are elevated while those of miR-205 are reduced in both HHT1 and HHT2 patients compared to healthy controls. The role of miR-205 in endothelial cells was further investigated. Our data indicates that miR-205 expression displaces the TGF-β balance towards the anti-angiogenic side by targeting Smad1 and Smad4. In line, overexpression of miR-205 in endothelial cells reduces proliferation, migration and tube formation while its inhibition shows opposite effects. This study not only suggests that detection of circulating miRNA (miR-27a and miR-205) could help for the screening of HHT patients but also provides a functional link between the deregulated expression of miR-205 and the HHT phenotype.
- Published
- 2013
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12. Octarellin VI: using rosetta to design a putative artificial (β/α)8 protein.
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Figueroa M, Oliveira N, Lejeune A, Kaufmann KW, Dorr BM, Matagne A, Martial JA, Meiler J, and Van de Weerdt C
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- Amino Acid Sequence, Circular Dichroism, Escherichia coli, Molecular Dynamics Simulation, Molecular Sequence Data, Particle Size, Protein Denaturation, Protein Refolding, Protein Stability, Protein Structure, Secondary, Protein Structure, Tertiary, Recombinant Proteins biosynthesis, Solubility, Thermodynamics, Protein Engineering methods, Recombinant Proteins chemistry, Software
- Abstract
The computational protein design protocol Rosetta has been applied successfully to a wide variety of protein engineering problems. Here the aim was to test its ability to design de novo a protein adopting the TIM-barrel fold, whose formation requires about twice as many residues as in the largest proteins successfully designed de novo to date. The designed protein, Octarellin VI, contains 216 residues. Its amino acid composition is similar to that of natural TIM-barrel proteins. When produced and purified, it showed a far-UV circular dichroism spectrum characteristic of folded proteins, with α-helical and β-sheet secondary structure. Its stable tertiary structure was confirmed by both tryptophan fluorescence and circular dichroism in the near UV. It proved heat stable up to 70°C. Dynamic light scattering experiments revealed a unique population of particles averaging 4 nm in diameter, in good agreement with our model. Although these data suggest the successful creation of an artificial α/β protein of more than 200 amino acids, Octarellin VI shows an apparent noncooperative chemical unfolding and low solubility.
- Published
- 2013
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13. MicroRNA-146a is a therapeutic target and biomarker for peripartum cardiomyopathy.
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Halkein J, Tabruyn SP, Ricke-Hoch M, Haghikia A, Nguyen NQ, Scherr M, Castermans K, Malvaux L, Lambert V, Thiry M, Sliwa K, Noel A, Martial JA, Hilfiker-Kleiner D, and Struman I
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- Animals, Biomarkers blood, Endothelial Cells cytology, Female, Human Umbilical Vein Endothelial Cells metabolism, Humans, Mice, Mice, Inbred C57BL, MicroRNAs genetics, Neovascularization, Pathologic, Peripartum Period, Pregnancy, Pregnancy Complications, Cardiovascular metabolism, Rats, STAT3 Transcription Factor metabolism, Signal Transduction, Cardiomyopathies blood, Cardiomyopathies genetics, MicroRNAs blood, Pregnancy Complications, Cardiovascular blood, Prolactin metabolism
- Abstract
Peripartum cardiomyopathy (PPCM) is a life-threatening pregnancy-associated cardiomyopathy in previously healthy women. Although PPCM is driven in part by the 16-kDa N-terminal prolactin fragment (16K PRL), the underlying molecular mechanisms are poorly understood. We found that 16K PRL induced microRNA-146a (miR-146a) expression in ECs, which attenuated angiogenesis through downregulation of NRAS. 16K PRL stimulated the release of miR-146a-loaded exosomes from ECs. The exosomes were absorbed by cardiomyocytes, increasing miR-146a levels, which resulted in a subsequent decrease in metabolic activity and decreased expression of Erbb4, Notch1, and Irak1. Mice with cardiomyocyte-restricted Stat3 knockout (CKO mice) exhibited a PPCM-like phenotype and displayed increased cardiac miR-146a expression with coincident downregulation of Erbb4, Nras, Notch1, and Irak1. Blocking miR-146a with locked nucleic acids or antago-miRs attenuated PPCM in CKO mice without interrupting full-length prolactin signaling, as indicated by normal nursing activities. Finally, miR-146a was elevated in the plasma and hearts of PPCM patients, but not in patients with dilated cardiomyopathy. These results demonstrate that miR-146a is a downstream-mediator of 16K PRL that could potentially serve as a biomarker and therapeutic target for PPCM.
- Published
- 2013
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14. A panel of biological tests reveals developmental effects of pharmaceutical pollutants on late stage zebrafish embryos.
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Pruvot B, Quiroz Y, Voncken A, Jeanray N, Piot A, Martial JA, and Muller M
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- Animals, Behavior, Animal drug effects, Caffeine toxicity, Carbamazepine toxicity, Gene Expression Regulation, Developmental drug effects, Heart Rate drug effects, Lithium Chloride toxicity, Motor Activity drug effects, Pentobarbital toxicity, Theophylline toxicity, Toxicity Tests, Valproic Acid toxicity, Zebrafish physiology, Embryo, Nonmammalian drug effects, Psychotropic Drugs toxicity, Water Pollutants, Chemical toxicity, Zebrafish embryology
- Abstract
Standard toxicological assays using the zebrafish model system evaluate lethality and teratogenicity upon exposure during the first 2 days after fertilization. We tested the biological effects of several widely used drugs on zebrafish by acute treatment for 24 h starting at late embryonic stages, between 48 and 72 h post-fertilization. For 4 out of 6 compounds, we observed a higher sensitivity of late stage zebrafish embryos for general toxicity (lethality) compared to younger embryos. Morphological defects such as edema, body curvature, delayed growth, decreased heart rate and locomotion were observed for each of the compounds tested, often at sublethal concentrations. Gene expression studies on a set of four selected genes revealed a specific regulatory pattern for the different compounds tested. Our results allow us to compare various toxicological endpoints and may contribute to the design of a rational high throughput approach using the zebrafish model., (Copyright © 2012 Elsevier Inc. All rights reserved.)
- Published
- 2012
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15. Zebrafish sox9b is crucial for hepatopancreatic duct development and pancreatic endocrine cell regeneration.
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Manfroid I, Ghaye A, Naye F, Detry N, Palm S, Pan L, Ma TP, Huang W, Rovira M, Martial JA, Parsons MJ, Moens CB, Voz ML, and Peers B
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- Animals, Fibroblast Growth Factors physiology, Hepatopancreas physiology, Pancreas cytology, Pancreas physiology, Receptors, Notch physiology, Regeneration, Signal Transduction, Zebrafish physiology, Hepatopancreas embryology, Islets of Langerhans physiology, SOX9 Transcription Factor physiology, Zebrafish embryology, Zebrafish Proteins physiology
- Abstract
Recent zebrafish studies have shown that the late appearing pancreatic endocrine cells are derived from pancreatic ducts but the regulatory factors involved are still largely unknown. Here, we show that the zebrafish sox9b gene is expressed in pancreatic ducts where it labels the pancreatic Notch-responsive cells previously shown to be progenitors. Inactivation of sox9b disturbs duct formation and impairs regeneration of beta cells from these ducts in larvae. sox9b expression in the midtrunk endoderm appears at the junction of the hepatic and ventral pancreatic buds and, by the end of embryogenesis, labels the hepatopancreatic ductal system as well as the intrapancreatic and intrahepatic ducts. Ductal morphogenesis and differentiation are specifically disrupted in sox9b mutants, with the dysmorphic hepatopancreatic ducts containing misdifferentiated hepatocyte-like and pancreatic-like cells. We also show that maintenance of sox9b expression in the extrapancreatic and intrapancreatic ducts requires FGF and Notch activity, respectively, both pathways known to prevent excessive endocrine differentiation in these ducts. Furthermore, beta cell recovery after specific ablation is severely compromised in sox9b mutant larvae. Our data position sox9b as a key player in the generation of secondary endocrine cells deriving from pancreatic ducts in zebrafish., (Copyright © 2012 Elsevier Inc. All rights reserved.)
- Published
- 2012
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16. The HMG-box transcription factor Sox4b is required for pituitary expression of gata2a and specification of thyrotrope and gonadotrope cells in zebrafish.
- Author
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Quiroz Y, Lopez M, Mavropoulos A, Motte P, Martial JA, Hammerschmidt M, and Muller M
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- Analysis of Variance, Animals, Follicle Stimulating Hormone, beta Subunit genetics, Follicle Stimulating Hormone, beta Subunit metabolism, GATA2 Transcription Factor genetics, Gene Expression Regulation, Developmental, Gene Knockdown Techniques, Glycoprotein Hormones, alpha Subunit genetics, Glycoprotein Hormones, alpha Subunit metabolism, Gonadotrophs metabolism, HMGB Proteins genetics, HMGB Proteins metabolism, Luteinizing Hormone, beta Subunit genetics, Luteinizing Hormone, beta Subunit metabolism, Morpholinos genetics, Mucolipidoses, Organogenesis, Pituitary Gland, Anterior cytology, Pituitary Gland, Anterior embryology, Thyrotrophs metabolism, Thyrotropin, beta Subunit genetics, Thyrotropin, beta Subunit metabolism, Transcription, Genetic, Zebrafish embryology, Zebrafish genetics, Zebrafish Proteins genetics, GATA2 Transcription Factor metabolism, Gonadotrophs physiology, HMGB Proteins physiology, Pituitary Gland, Anterior metabolism, Thyrotrophs physiology, Zebrafish metabolism, Zebrafish Proteins metabolism, Zebrafish Proteins physiology
- Abstract
The pituitary is a complex gland comprising different cell types each secreting specific hormones. The extensive network of signaling molecules and transcription factors required for determination and terminal differentiation of specific cell types is still not fully understood. The SRY-like HMG-box (SOX) transcription factor Sox4 plays important roles in many developmental processes and has two homologs in zebrafish, Sox4a and Sox4b. We show that the sox4b gene is expressed in the pituitary anlagen starting at 24 h after fertilization (hpf) and later in the entire head region including the pituitary. At 48 hpf, sox4b mRNA colocalizes with that for TSH (tshβ), glycoprotein subunit α (gsuα), and the Zn finger transcription factor Gata2a. Loss of Sox4b function, using morpholino knockdown or expression of a dominant-negative Sox4 mutant, leads to a drastic decrease in tshβ and gsuα expression and reduced levels of gh, whereas other anterior pituitary gland markers including prl, slβ, pomc, and lim3 are not affected. Sox4b is also required for expression of gata2a in the pituitary. Knockdown of gata2a leads to decreased tshβ and gsuα expression at 48 hpf, similar to sox4b morphants. Injection of gata2a mRNA into sox4b morphants rescued tshβ and gsuα expression in thyrotrope cells. Finally, sox4b or gata2a knockdown causes a significant decrease of gonadotropin expression (lhβ and fshβ) at 4 d after fertilization. In summary, our results indicate that Sox4b is expressed in zebrafish during pituitary development and plays a crucial role in the differentiation of thyrotrope and gonadotrope cells through induction of gata2a expression in the developing pituitary.
- Published
- 2012
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17. A peptide mimicking the C-terminal part of the reactive center loop induces the transition to the latent form of plasminogen activator inhibitor type-1.
- Author
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D'Amico S, Martial JA, and Struman I
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- Models, Molecular, Molecular Sequence Data, Peptides genetics, Plasminogen Activator Inhibitor 1 genetics, Protein Denaturation, Tissue Plasminogen Activator chemistry, Tissue Plasminogen Activator genetics, Tissue Plasminogen Activator metabolism, Urokinase-Type Plasminogen Activator chemistry, Urokinase-Type Plasminogen Activator genetics, Urokinase-Type Plasminogen Activator metabolism, Catalytic Domain, Peptides chemistry, Peptides metabolism, Plasminogen Activator Inhibitor 1 chemistry, Plasminogen Activator Inhibitor 1 metabolism, Protein Structure, Secondary
- Abstract
Plasminogen activator inhibitor-1 (PAI-1) is the primary inhibitor of plasminogen activators (uPA and tPA) and thus plays a central role in fibrinolysis. The spontaneous insertion of its reactive centre loop (RCL) into β-sheet A is responsible for its irreversible conversion into the inactive latent form. In this study, we used two peptides mimicking residues P14-P9 and P8-P3 of the RCL so as to understand this dynamic process. We show that both peptides inhibit the formation of PAI-1/uPA and PAI-1/tPA complexes via two different mechanisms. Targeting the N-terminal part of the loop induces the cleavage of PAI-1 by the proteases uPA/tPA while targeting its C-terminal part greatly favors the irreversible formation of latent PAI-1., (Copyright © 2012 Federation of European Biochemical Societies. Published by Elsevier B.V. All rights reserved.)
- Published
- 2012
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18. Fast homozygosity mapping and identification of a zebrafish ENU-induced mutation by whole-genome sequencing.
- Author
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Voz ML, Coppieters W, Manfroid I, Baudhuin A, Von Berg V, Charlier C, Meyer D, Driever W, Martial JA, and Peers B
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- Algorithms, Animals, Base Sequence, Codon, Nonsense, Female, Male, Molecular Sequence Data, Pancreas, Exocrine, Polymorphism, Single Nucleotide drug effects, Transcription Factors genetics, Zebrafish Proteins genetics, Alkylating Agents toxicity, Chromosome Mapping methods, DNA Mutational Analysis methods, Ethylnitrosourea toxicity, Homozygote, Zebrafish genetics
- Abstract
Forward genetics using zebrafish is a powerful tool for studying vertebrate development through large-scale mutagenesis. Nonetheless, the identification of the molecular lesion is still laborious and involves time-consuming genetic mapping. Here, we show that high-throughput sequencing of the whole zebrafish genome can directly locate the interval carrying the causative mutation and at the same time pinpoint the molecular lesion. The feasibility of this approach was validated by sequencing the m1045 mutant line that displays a severe hypoplasia of the exocrine pancreas. We generated 13 Gb of sequence, equivalent to an eightfold genomic coverage, from a pool of 50 mutant embryos obtained from a map-cross between the AB mutant carrier and the WIK polymorphic strain. The chromosomal region carrying the causal mutation was localized based on its unique property to display high levels of homozygosity among sequence reads as it derives exclusively from the initial AB mutated allele. We developed an algorithm identifying such a region by calculating a homozygosity score along all chromosomes. This highlighted an 8-Mb window on chromosome 5 with a score close to 1 in the m1045 mutants. The sequence analysis of all genes within this interval revealed a nonsense mutation in the snapc4 gene. Knockdown experiments confirmed the assertion that snapc4 is the gene whose mutation leads to exocrine pancreas hypoplasia. In conclusion, this study constitutes a proof-of-concept that whole-genome sequencing is a fast and effective alternative to the classical positional cloning strategies in zebrafish.
- Published
- 2012
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19. RUNX3, EGR1 and SOX9B form a regulatory cascade required to modulate BMP-signaling during cranial cartilage development in zebrafish.
- Author
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Dalcq J, Pasque V, Ghaye A, Larbuisson A, Motte P, Martial JA, and Muller M
- Subjects
- Alcian Blue pharmacology, Animals, Cartilage metabolism, Cell Differentiation, Endoderm metabolism, Epithelium metabolism, Female, Follistatin metabolism, Male, Neural Crest cytology, Oligonucleotides metabolism, Pyrazoles metabolism, Pyrimidines metabolism, Signal Transduction, Skull embryology, Skull metabolism, Time Factors, Zebrafish, Bone Morphogenetic Proteins metabolism, Core Binding Factor Alpha 3 Subunit metabolism, Early Growth Response Protein 1 metabolism, Gene Expression Regulation, Developmental, SOX9 Transcription Factor metabolism, Zebrafish Proteins metabolism
- Abstract
The cartilaginous elements forming the pharyngeal arches of the zebrafish derive from cranial neural crest cells. Their proper differentiation and patterning are regulated by reciprocal interactions between neural crest cells and surrounding endodermal, ectodermal and mesodermal tissues. In this study, we show that the endodermal factors Runx3 and Sox9b form a regulatory cascade with Egr1 resulting in transcriptional repression of the fsta gene, encoding a BMP antagonist, in pharyngeal endoderm. Using a transgenic line expressing a dominant negative BMP receptor or a specific BMP inhibitor (dorsomorphin), we show that BMP signaling is indeed required around 30 hpf in the neural crest cells to allow cell differentiation and proper pharyngeal cartilage formation. Runx3, Egr1, Sox9b and BMP signaling are required for expression of runx2b, one of the key regulator of cranial cartilage maturation and bone formation. Finally, we show that egr1 depletion leads to increased expression of fsta and inhibition of BMP signaling in the pharyngeal region. In conclusion, we show that the successive induction of the transcription factors Runx3, Egr1 and Sox9b constitutes a regulatory cascade that controls expression of Follistatin A in pharyngeal endoderm, the latter modulating BMP signaling in developing cranial cartilage in zebrafish.
- Published
- 2012
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20. The angiostatic protein 16K human prolactin significantly prevents tumor-induced lymphangiogenesis by affecting lymphatic endothelial cells.
- Author
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Kinet V, Castermans K, Herkenne S, Maillard C, Blacher S, Lion M, Noël A, Martial JA, and Struman I
- Subjects
- Angiostatic Proteins therapeutic use, Animals, Apoptosis drug effects, Cells, Cultured, Endothelial Cells pathology, Female, Humans, Lymph Nodes pathology, Lymphatic Vessels drug effects, Lymphatic Vessels pathology, Mice, Neovascularization, Pathologic drug therapy, Peptide Fragments therapeutic use, Prolactin therapeutic use, Angiostatic Proteins pharmacology, Cell Proliferation drug effects, Endothelial Cells drug effects, Lymph Nodes drug effects, Lymphangiogenesis drug effects, Peptide Fragments pharmacology, Prolactin pharmacology
- Abstract
The 16-kDa angiostatic N-terminal fragment of human prolactin (16K hPRL) has been reported to be a new potent anticancer compound. This protein has already proven its efficiency in several mouse tumor models in which it prevented tumor-induced angiogenesis and delayed tumor growth. In addition to angiogenesis, tumors also stimulate the formation of lymphatic vessels, which contribute to tumor cell dissemination and metastasis. However, the role of 16K hPRL in tumor-induced lymphangiogenesis has never been investigated. We establish in vitro that 16K hPRL induces apoptosis and inhibits proliferation, migration, and tube formation of human dermal lymphatic microvascular endothelial cells. In addition, in a B16F10 melanoma mouse model, we found a decreased number of lymphatic vessels in the primary tumor and in the sentinel lymph nodes after 16K hPRL treatment. This decrease is accompanied by a significant diminished expression of lymphangiogenic markers in primary tumors and sentinel lymph nodes as determined by quantitative RT-PCR. These results suggest, for the first time, that 16K hPRL is a lymphangiostatic as well as an angiostatic agent with antitumor properties.
- Published
- 2011
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21. MicroRNA-21 exhibits antiangiogenic function by targeting RhoB expression in endothelial cells.
- Author
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Sabatel C, Malvaux L, Bovy N, Deroanne C, Lambert V, Gonzalez ML, Colige A, Rakic JM, Noël A, Martial JA, and Struman I
- Subjects
- Animals, Base Sequence, Cattle, Choroidal Neovascularization enzymology, Choroidal Neovascularization genetics, Dogs, Human Umbilical Vein Endothelial Cells enzymology, Humans, Mice, Rats, Gene Expression Regulation, Enzymologic genetics, Human Umbilical Vein Endothelial Cells metabolism, MicroRNAs genetics, MicroRNAs metabolism, Neovascularization, Pathologic enzymology, Neovascularization, Pathologic genetics, rhoB GTP-Binding Protein genetics
- Abstract
Background: MicroRNAs (miRNAs) are endogenously expressed small non-coding RNAs that regulate gene expression at post-transcriptional level. The recent discovery of the involvement of these RNAs in the control of angiogenesis renders them very attractive in the development of new approaches for restoring the angiogenic balance. Whereas miRNA-21 has been demonstrated to be highly expressed in endothelial cells, the potential function of this miRNA in angiogenesis has never been investigated., Methodology/principal Findings: We first observed in endothelial cells a negative regulation of miR-21 expression by serum and bFGF, two pro-angiogenic factors. Then using in vitro angiogenic assays, we observed that miR-21 acts as a negative modulator of angiogenesis. miR-21 overexpression reduced endothelial cell proliferation, migration and the ability of these cells to form tubes whereas miR-21 inhibition using a LNA-anti-miR led to opposite effects. Expression of miR-21 in endothelial cells also led to a reduction in the organization of actin into stress fibers, which may explain the decrease in cell migration. Further mechanistic studies showed that miR-21 targets RhoB, as revealed by a decrease in RhoB expression and activity in miR-21 overexpressing cells. RhoB silencing impairs endothelial cell migration and tubulogenesis, thus providing a possible mechanism for miR-21 to inhibit angiogenesis. Finally, the therapeutic potential of miR-21 as an angiogenesis inhibitor was demonstrated in vivo in a mouse model of choroidal neovascularization., Conclusions/significance: Our results identify miR-21 as a new angiogenesis inhibitor and suggest that inhibition of cell migration and tubulogenesis is mediated through repression of RhoB.
- Published
- 2011
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22. The antiangiogenic 16K prolactin impairs functional tumor neovascularization by inhibiting vessel maturation.
- Author
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Nguyen NQ, Castermans K, Berndt S, Herkenne S, Tabruyn SP, Blacher S, Lion M, Noel A, Martial JA, and Struman I
- Subjects
- Angiogenesis Inhibitors therapeutic use, Animals, Antineoplastic Agents pharmacology, Blood Vessels drug effects, Blood Vessels pathology, Coculture Techniques, Endothelial Cells, Mice, Peptide Fragments pharmacology, Peptide Fragments therapeutic use, Pericytes, Prolactin therapeutic use, Signal Transduction drug effects, Angiogenesis Inhibitors pharmacology, Blood Vessels growth & development, Neoplasms blood supply, Neovascularization, Pathologic drug therapy, Prolactin pharmacology
- Abstract
Background: Angiogenesis, the formation of new blood vessels from existing vasculature, plays an essential role in tumor growth, invasion, and metastasis. 16K hPRL, the antiangiogenic 16-kDa N-terminal fragment of human prolactin was shown to prevent tumor growth and metastasis by modifying tumor vessel morphology., Methodology/principal Findings: Here we investigated the effect of 16K hPRL on tumor vessel maturation and on the related signaling pathways. We show that 16K hPRL treatment leads, in a murine B16-F10 tumor model, to a dysfunctional tumor vasculature with reduced pericyte coverage, and disruption of the PDGF-B/PDGFR-B, Ang/Tie2, and Delta/Notch pathways. In an aortic ring assay, 16K hPRL impairs endothelial cell and pericyte outgrowth from the vascular ring. In addition, 16K hPRL prevents pericyte migration to endothelial cells. This event was independent of a direct inhibitory effect of 16K hPRL on pericyte viability, proliferation, or migration. In endothelial cell-pericyte cocultures, we found 16K hPRL to disturb Notch signaling., Conclusions/significance: Taken together, our data show that 16K hPRL impairs functional tumor neovascularization by inhibiting vessel maturation and for the first time that an endogenous antiangiogenic agent disturbs Notch signaling. These findings provide new insights into the mechanisms of 16K hPRL action and highlight its potential for use in anticancer therapy.
- Published
- 2011
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23. Sprouty1, a new target of the angiostatic agent 16K prolactin, negatively regulates angiogenesis.
- Author
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Sabatel C, Cornet AM, Tabruyn SP, Malvaux L, Castermans K, Martial JA, and Struman I
- Subjects
- Adaptor Proteins, Signal Transducing, Animals, Blotting, Western, Cattle, Cell Adhesion drug effects, Cell Adhesion genetics, Cell Movement drug effects, Cell Movement genetics, Cell Proliferation drug effects, Cells, Cultured, Female, HCT116 Cells, Humans, Membrane Proteins genetics, Mice, Mice, Nude, Neovascularization, Pathologic genetics, Peptide Fragments pharmacology, Phosphoproteins genetics, Prolactin pharmacology, RNA, Small Interfering, Reverse Transcriptase Polymerase Chain Reaction, Xenograft Model Antitumor Assays, Gene Expression Regulation, Neoplastic, Membrane Proteins metabolism, Neovascularization, Pathologic metabolism, Peptide Fragments metabolism, Phosphoproteins metabolism, Prolactin metabolism
- Abstract
Background: Disorganized angiogenesis is associated with several pathologies, including cancer. The identification of new genes that control tumor neovascularization can provide novel insights for future anti-cancer therapies. Sprouty1 (SPRY1), an inhibitor of the MAPK pathway, might be one of these new genes. We identified SPRY1 by comparing the transcriptomes of untreated endothelial cells with those of endothelial cells treated by the angiostatic agent 16 K prolactin (16 K hPRL). In the present study, we aimed to explore the potential function of SPRY1 in angiogenesis., Results: We confirmed 16 K hPRL induced up-regulation of SPRY1 in primary endothelial cells. In addition, we demonstrated the positive SPRY1 regulation in a chimeric mouse model of human colon carcinoma in which 16 K hPRL treatment was shown to delay tumor growth. Expression profiling by qRT-PCR with species-specific primers revealed that induction of SPRY1 expression by 16 K hPRL occurs only in the (murine) endothelial compartment and not in the (human) tumor compartment. The regulation of SPRY1 expression was NF-κB dependent. Partial SPRY1 knockdown by RNA interference protected endothelial cells from apoptosis as well as increased endothelial cell proliferation, migration, capillary network formation, and adhesion to extracellular matrix proteins. SPRY1 knockdown was also shown to affect the expression of cyclinD1 and p21 both involved in cell-cycle regulation. These findings are discussed in relation to the role of SPRY1 as an inhibitor of ERK/MAPK signaling and to a possible explanation of its effect on cell proliferation., Conclusions: Taken together, these results suggest that SPRY1 is an endogenous angiogenesis inhibitor.
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- 2010
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24. The Pax6b homeodomain is dispensable for pancreatic endocrine cell differentiation in zebrafish.
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Verbruggen V, Ek O, Georlette D, Delporte F, Von Berg V, Detry N, Biemar F, Coutinho P, Martial JA, Voz ML, Manfroid I, and Peers B
- Subjects
- Animals, Endocrine Cells cytology, Eye Proteins genetics, Glucagon biosynthesis, Glucagon genetics, Homeodomain Proteins genetics, Mutation, PAX6 Transcription Factor, Paired Box Transcription Factors genetics, Pancreas cytology, RNA Splicing physiology, Repressor Proteins genetics, Zebrafish genetics, Zebrafish Proteins genetics, Cell Differentiation physiology, Endocrine Cells metabolism, Eye Proteins metabolism, Homeodomain Proteins metabolism, Paired Box Transcription Factors metabolism, Pancreas embryology, Repressor Proteins metabolism, Zebrafish embryology, Zebrafish Proteins metabolism
- Abstract
Pax6 is a well conserved transcription factor that contains two DNA-binding domains, a paired domain and a homeodomain, and plays a key role in the development of eye, brain, and pancreas in vertebrates. The recent identification of the zebrafish sunrise mutant, harboring a mutation in the pax6b homeobox and presenting eye abnormalities but no obvious pancreatic defects, raised a question about the role of pax6b in zebrafish pancreas. We show here that pax6b does play an essential role in pancreatic endocrine cell differentiation, as revealed by the phenotype of a novel zebrafish pax6b null mutant and of embryos injected with pax6b morpholinos. Pax6b-depleted embryos have almost no beta cells, a strongly reduced number of delta cells, and a significant increase of epsilon cells. Through the use of various morpholinos targeting intron-exon junctions, pax6b RNA splicing was perturbed at several sites, leading either to retention of intronic sequences or to deletion of exonic sequences in the pax6b transcript. By this strategy, we show that deletion of the Pax6b homeodomain in zebrafish embryos does not disturb pancreas development, whereas lens formation is strongly affected. These data thus provide the explanation for the lack of pancreatic defects in the sunrise pax6b mutants. In addition, partial reduction of Pax6b function in zebrafish embryos performed by injection of small amounts of pax6b morpholinos caused a clear rise in alpha cell number and in glucagon expression, emphasizing the importance of the fine tuning of the Pax6b level to its biological activity.
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- 2010
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25. Nkx6.1 and nkx6.2 regulate alpha- and beta-cell formation in zebrafish by acting on pancreatic endocrine progenitor cells.
- Author
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Binot AC, Manfroid I, Flasse L, Winandy M, Motte P, Martial JA, Peers B, and Voz ML
- Subjects
- Animals, Embryo, Nonmammalian cytology, Embryo, Nonmammalian embryology, Embryo, Nonmammalian metabolism, Homeodomain Proteins genetics, In Situ Hybridization, Islets of Langerhans cytology, Microinjections, Oligonucleotides, Antisense pharmacology, Transcription Factors genetics, Zebrafish embryology, Zebrafish genetics, Zebrafish Proteins genetics, Homeodomain Proteins metabolism, Islets of Langerhans physiology, Stem Cells cytology, Transcription Factors metabolism, Zebrafish metabolism, Zebrafish Proteins metabolism
- Abstract
In mice, the Nkx6 genes are crucial to alpha- and beta-cell differentiation, but the molecular mechanisms by which they regulate pancreatic subtype specification remain elusive. Here it is shown that in zebrafish, nkx6.1 and nkx6.2 are co-expressed at early stages in the first pancreatic endocrine progenitors, but that their expression domains gradually segregate into different layers, nkx6.1 being expressed ventrally with respect to the forming islet while nkx6.2 is expressed mainly in beta-cells. Knockdown of nkx6.2 or nkx6.1 expression leads to nearly complete loss of alpha-cells but has no effect on beta-, delta-, or epsilon-cells. In contrast, nkx6.1/nkx6.2 double knockdown leads additionally to a drastic reduction of beta-cells. Synergy between the effects of nkx6.1 and nkx6.2 knockdown on both beta- and alpha-cell differentiation suggests that nkx6.1 and nkx6.2 have the same biological activity, the required total nkx6 threshold being higher for alpha-cell than for beta-cell differentiation. Finally, we demonstrate that the nkx6 act on the establishment of the pancreatic endocrine progenitor pool whose size is correlated with the total nkx6 expression level. On the basis of our data, we propose a model in which nkx6.1 and nkx6.2, by allowing the establishment of the endocrine progenitor pool, control alpha- and beta-cell differentiation., (Copyright (c) 2010 Elsevier Inc. All rights reserved.)
- Published
- 2010
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26. Antiangiogenic liposomal gene therapy with 16K human prolactin efficiently reduces tumor growth.
- Author
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Kinet V, Nguyen NQ, Sabatel C, Blacher S, Noël A, Martial JA, and Struman I
- Subjects
- Angiogenesis Inhibitors administration & dosage, Animals, Cations, Cell Line, Cholesterol, DNA, Recombinant administration & dosage, Drug Screening Assays, Antitumor, Fatty Acids, Monounsaturated, Female, Humans, Kidney, Lipids, Liposomes, Melanoma, Experimental blood supply, Mice, Mice, Inbred C57BL, Neovascularization, Pathologic pathology, Prolactin biosynthesis, Prolactin genetics, Quaternary Ammonium Compounds, Recombinant Fusion Proteins genetics, Recombinant Fusion Proteins physiology, Transfection methods, Angiogenesis Inhibitors therapeutic use, DNA, Recombinant therapeutic use, Genetic Therapy, Melanoma, Experimental drug therapy, Neovascularization, Pathologic drug therapy, Prolactin therapeutic use
- Abstract
Human 16K PRL (16K hPRL) is a potent inhibitor of angiogenesis both in vitro and in vivo. It has been shown to prevent tumor growth in three xenograft mouse models. Here we have used a gene transfer method based on cationic liposomes to produce 16K hPRL and demonstrate that 16K hPRL inhibits tumor growth in a subcutaneous B16F10 mouse melanoma model. Computer-assisted image analysis shows that 16K hPRL treatment results in the reduction of tumor vessel length and width, leading to a 57% reduction in average vessel size. We thus show, for the first time, that administration of the 16K hPRL gene complexed to cationic liposomes is effective to maintain antiangiogenic activities of 16K hPRL level., (2009 Elsevier Ireland Ltd.)
- Published
- 2009
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27. NF-kappaB activation in endothelial cells is critical for the activity of angiostatic agents.
- Author
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Tabruyn SP, Mémet S, Avé P, Verhaeghe C, Mayo KH, Struman I, Martial JA, and Griffioen AW
- Subjects
- Animals, Base Sequence, DNA Primers, Electrophoretic Mobility Shift Assay, Endothelium, Vascular cytology, Flow Cytometry, Humans, Mice, Mice, Inbred C57BL, Neoplasms blood supply, Reverse Transcriptase Polymerase Chain Reaction, Angiogenesis Inhibitors pharmacology, Endothelium, Vascular metabolism, NF-kappa B metabolism
- Abstract
In tumor cells, the transcription factor NF-kappaB has been described to be antiapoptotic and proproliferative and involved in the production of angiogenic factors such as vascular endothelial growth factor. From these data, a protumorigenic role of NF-kappaB has emerged. Here, we examined in endothelial cells whether NF-kappaB signaling pathway is involved in mediating the angiostatic properties of angiogenesis inhibitors. The current report describes that biochemically unrelated agents with direct angiostatic effect induced NF-kappaB activation in endothelial cells. Our data showed that endostatin, anginex, angiostatin, and the 16-kDa N-terminal fragment of human prolactin induced NF-kappaB activation in endothelial cells in both cultured human endothelial cells and in vivo in a mouse tumor model. It was also found that NF-kappaB activity was required for the angiostatic activity, because inhibition of NF-kappaB in endothelial cells impaired the ability of angiostatic agents to block sprouting of endothelial cells and to overcome endothelial cell anergy. Therefore, activation of NF-kappaB in endothelial cells can result in an unexpected antitumor outcome. Based on these data, the current approach of systemic treatment with NF-kappaB inhibitors may therefore be revisited because NF-kappaB activation specifically targeted to endothelial cells might represent an efficient strategy for the treatment of cancer.
- Published
- 2009
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28. Plasminogen activator inhibitor-1 protects endothelial cells from FasL-mediated apoptosis.
- Author
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Bajou K, Peng H, Laug WE, Maillard C, Noel A, Foidart JM, Martial JA, and DeClerck YA
- Subjects
- Animals, Cell Line, Tumor, Cell Movement, Cell Proliferation, Cells, Cultured, Endothelial Cells immunology, Endothelial Cells pathology, Fibrinolysin metabolism, Humans, Mice, Mice, Inbred C57BL, Mice, Knockout, Neovascularization, Pathologic metabolism, Neuroblastoma blood supply, Neuroblastoma metabolism, Neuroblastoma pathology, Peptide Fragments metabolism, Plasminogen Activator Inhibitor 1 genetics, RNA Interference, RNA, Small Interfering, Receptors, Cell Surface metabolism, Receptors, Urokinase Plasminogen Activator, Serpin E2, Serpins deficiency, Serpins genetics, Time Factors, Urokinase-Type Plasminogen Activator metabolism, fas Receptor metabolism, Apoptosis, Endothelial Cells metabolism, Fas Ligand Protein metabolism, Plasminogen Activator Inhibitor 1 metabolism, Serpins metabolism
- Abstract
Plasminogen activator inhibitor-1 (PAI-1) paradoxically enhances tumor progression and angiogenesis; however, the mechanism supporting this role is not known. Here we provide evidence that PAI-1 is essential to protect endothelial cells (ECs) from FasL-mediated apoptosis. In the absence of host-derived PAI-1, human neuroblastoma cells implanted in PAI-1-deficient mice form smaller and poorly vascularized tumors containing an increased number of apoptotic ECs. We observed that knockdown of PAI-1 in ECs enhances cell-associated plasmin activity and increases spontaneous apoptosis in vitro. We further demonstrate that plasmin cleaves FasL at Arg144-Lys145, releasing a soluble proapoptotic FasL fragment from the surface of ECs. The data provide a mechanism explaining the proangiogenic activity of PAI-1.
- Published
- 2008
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29. Expression of zebrafish pax6b in pancreas is regulated by two enhancers containing highly conserved cis-elements bound by PDX1, PBX and PREP factors.
- Author
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Delporte FM, Pasque V, Devos N, Manfroid I, Voz ML, Motte P, Biemar F, Martial JA, and Peers B
- Subjects
- Animals, Animals, Genetically Modified, Base Sequence, Conserved Sequence, DNA-Binding Proteins chemistry, DNA-Binding Proteins metabolism, Gene Expression Regulation, Developmental, Green Fluorescent Proteins genetics, Green Fluorescent Proteins metabolism, Homeodomain Proteins chemistry, Homeodomain Proteins metabolism, Molecular Sequence Data, Multiprotein Complexes, PAX6 Transcription Factor, Pancreas embryology, Promoter Regions, Genetic, RNA, Messenger genetics, RNA, Messenger metabolism, Recombinant Fusion Proteins genetics, Recombinant Fusion Proteins metabolism, Retina embryology, Retina metabolism, Sequence Homology, Nucleic Acid, Telencephalon embryology, Telencephalon metabolism, Trans-Activators chemistry, Trans-Activators metabolism, Transcription Factors chemistry, Transcription Factors metabolism, Zebrafish embryology, Zebrafish metabolism, Zebrafish Proteins chemistry, Zebrafish Proteins metabolism, Enhancer Elements, Genetic, Eye Proteins genetics, Homeodomain Proteins genetics, Paired Box Transcription Factors genetics, Pancreas metabolism, Repressor Proteins genetics, Zebrafish genetics, Zebrafish Proteins genetics
- Abstract
Background: PAX6 is a transcription factor playing a crucial role in the development of the eye and in the differentiation of the pancreatic endocrine cells as well as of enteroendocrine cells. Studies on the mouse Pax6 gene have shown that sequences upstream from the P0 promoter are required for expression in the lens and the pancreas; but there remain discrepancies regarding the precise location of the pancreatic regulatory elements., Results: Due to genome duplication in the evolution of ray-finned fishes, zebrafish has two pax6 genes, pax6a and pax6b. While both zebrafish pax6 genes are expressed in the developing eye and nervous system, only pax6b is expressed in the endocrine cells of the pancreas. To investigate the cause of this differential expression, we used a combination of in silico, in vivo and in vitro approaches. We show that the pax6b P0 promoter targets expression to endocrine pancreatic cells and also to enteroendocrine cells, retinal neurons and the telencephalon of transgenic zebrafish. Deletion analyses indicate that strong pancreatic expression of the pax6b gene relies on the combined action of two conserved regulatory enhancers, called regions A and C. By means of gel shift assays, we detected binding of the homeoproteins PDX1, PBX and PREP to several cis-elements of these regions. In constrast, regions A and C of the zebrafish pax6a gene are not active in the pancreas, this difference being attributable to sequence divergences within two cis-elements binding the pancreatic homeoprotein PDX1., Conclusion: Our data indicate a conserved role of enhancers A and C in the pancreatic expression of pax6b and emphasize the importance of the homeoproteins PBX and PREP cooperating with PDX1, in activating pax6b expression in endocrine pancreatic cells. This study also provides a striking example of how adaptative evolution of gene regulatory sequences upon gene duplication progressively leads to subfunctionalization of the paralogous gene pair.
- Published
- 2008
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30. Zebrafish Sox7 and Sox18 function together to control arterial-venous identity.
- Author
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Pendeville H, Winandy M, Manfroid I, Nivelles O, Motte P, Pasque V, Peers B, Struman I, Martial JA, and Voz ML
- Subjects
- Animals, Base Sequence, Basic Helix-Loop-Helix Transcription Factors metabolism, Cloning, Molecular, Cluster Analysis, DNA Primers genetics, DNA-Binding Proteins genetics, In Situ Hybridization, Mesoderm metabolism, Molecular Sequence Data, SOXF Transcription Factors, Sequence Analysis, DNA, Zebrafish Proteins genetics, Blood Vessels embryology, DNA-Binding Proteins metabolism, Gene Expression Regulation, Developmental, Phenotype, Signal Transduction physiology, Zebrafish embryology, Zebrafish Proteins metabolism
- Abstract
Sox7 and Sox18 are members of the F-subgroup of Sox transcription factors family and are mostly expressed in endothelial compartments. In humans, dominant mutations in Sox18 are the underlying cause of the severe hypotrichosis-lymphedema-telangiectasia disorder characterized by vascular defects. However little is known about which vasculogenic processes Sox7 and Sox18 regulate in vivo. We cloned the orthologs of Sox7 and Sox18 in zebrafish, analysed their expression pattern and performed functional analyses. Both genes are expressed in the lateral plate mesoderm during somitogenesis. At later stages, Sox18 is expressed in all axial vessels whereas Sox7 expression is mainly restricted to the dorsal aorta. Knockdown of Sox7 or Sox18 alone failed to reveal any phenotype. In contrast, blocking the two genes simultaneously led to embryos displaying dysmorphogenesis of the proximal aorta and arteriovenous shunts, all of which can account for the lack of circulation observed in the trunk and tail. Gene expression analyses performed with general endothelial markers on double morphants revealed that Sox7 and Sox18 are dispensable for the initial specification and positioning of the major trunk vessels. However, morphants display ectopic expression of the venous Flt4 marker in the dorsal aorta and a concomitant reduction of the artery-specific markers EphrinB2a and Gridlock. The striking similarities between the phenotype of Sox7/Sox18 morphants and Gridlock mutants strongly suggest that Sox7 and Sox18 control arterial-venous identity by regulating Gridlock expression.
- Published
- 2008
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31. Inhibition of tumor growth and metastasis establishment by adenovirus-mediated gene transfer delivery of the antiangiogenic factor 16K hPRL.
- Author
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Nguyen NQ, Cornet A, Blacher S, Tabruyn SP, Foidart JM, Noël A, Martial JA, and Struman I
- Subjects
- Angiogenesis Inhibitors administration & dosage, Angiogenesis Inhibitors genetics, Animals, Female, Immunohistochemistry, Mice, Mice, Inbred C57BL, Prolactin administration & dosage, Prolactin genetics, Adenoviridae genetics, Angiogenesis Inhibitors pharmacology, Cell Division genetics, Gene Transfer Techniques, Neoplasm Metastasis, Prolactin pharmacology
- Abstract
Tumor metastases, the most fearsome aspect of cancer, are generally resistant to conventional therapies. Angiogenesis is a crucial aspect of tumor growth and metastatic dissemination. Antiangiogenic therapy, therefore, holds potential as an attractive strategy for inhibiting metastasis development. Human 16K PRL (16K hPRL), a potent inhibitor of angiogenesis, has been demonstrated to prevent tumor growth in two xenograft mouse models, but whether it also affects tumor metastasis is unknown. In this study we will investigate the ability of 16K hPRL to prevent the establishment of metastasis. We demonstrate that 16K hPRL administered via adenovirus-mediated gene transfer, inhibits tumor growth by 86% in a subcutaneous (SC) B16-F10 mouse melanoma model. Computer-assisted image analysis shows that 16K hPRL treatment results in a reduction of tumor-vessel length and width, leading to a 57% reduction of average vessel size. In a pre-established tumor model, moreover, 16K hPRL can significantly delay tumor development. Finally, for the first time, we provide evidence that 16K hPRL considerably reduces the establishment of B16-F10 metastasis in an experimental lung metastasis model. Both the number and size of metastases are reduced by 50% in 16K hPRL-treated mice. These results highlight a potential role for 16K hPRL in anticancer therapy for both primary tumors and metastases.
- Published
- 2007
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32. Reciprocal endoderm-mesoderm interactions mediated by fgf24 and fgf10 govern pancreas development.
- Author
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Manfroid I, Delporte F, Baudhuin A, Motte P, Neumann CJ, Voz ML, Martial JA, and Peers B
- Subjects
- Animals, Animals, Genetically Modified, Cell Communication physiology, Cell Differentiation, Embryo, Nonmammalian, Endoderm metabolism, Fibroblast Growth Factor 10, Fibroblast Growth Factors genetics, Gene Expression Regulation, Developmental, Homeodomain Proteins genetics, Homeodomain Proteins metabolism, LIM-Homeodomain Proteins, Mesoderm metabolism, Models, Biological, Organ Specificity, Pancreas metabolism, Signal Transduction genetics, Transcription Factors, Zebrafish embryology, Zebrafish Proteins genetics, Zebrafish Proteins metabolism, Endoderm physiology, Fibroblast Growth Factors physiology, Mesoderm physiology, Pancreas embryology, Zebrafish Proteins physiology
- Abstract
In amniotes, the pancreatic mesenchyme plays a crucial role in pancreatic epithelium growth, notably through the secretion of fibroblast growth factors. However, the factors involved in the formation of the pancreatic mesenchyme are still largely unknown. In this study, we characterize, in zebrafish embryos, the pancreatic lateral plate mesoderm, which is located adjacent to the ventral pancreatic bud and is essential for its specification and growth. We firstly show that the endoderm, by expressing the fgf24 gene at early stages, triggers the patterning of the pancreatic lateral plate mesoderm. Based on the expression of isl1, fgf10 and meis genes, this tissue is analogous to the murine pancreatic mesenchyme. Secondly, Fgf10 acts redundantly with Fgf24 in the pancreatic lateral plate mesoderm and they are both required to specify the ventral pancreas. Our results unveil sequential signaling between the endoderm and mesoderm that is critical for the specification and growth of the ventral pancreas, and explain why the zebrafish ventral pancreatic bud generates the whole exocrine tissue.
- Published
- 2007
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33. The angiostatic 16K human prolactin overcomes endothelial cell anergy and promotes leukocyte infiltration via nuclear factor-kappaB activation.
- Author
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Tabruyn SP, Sabatel C, Nguyen NQ, Verhaeghe C, Castermans K, Malvaux L, Griffioen AW, Martial JA, and Struman I
- Subjects
- Animals, Cell Adhesion, Clonal Anergy genetics, Endothelium, Vascular immunology, Humans, Leukocytes drug effects, Leukocytes immunology, Melanoma, Experimental genetics, Melanoma, Experimental immunology, Melanoma, Experimental pathology, Mice, NF-kappa B genetics, Oligonucleotide Array Sequence Analysis, Skin Neoplasms genetics, Skin Neoplasms immunology, Skin Neoplasms pathology, Angiostatic Proteins pharmacology, Clonal Anergy drug effects, Endothelium, Vascular drug effects, Gene Expression drug effects, NF-kappa B physiology, Peptide Fragments pharmacology, Prolactin pharmacology
- Abstract
The 16-kDa N-terminal fragment of human prolactin (16K hPRL) is a potent angiostatic factor that inhibits tumor growth in mouse models. Using microarray experiments, we have dissected how the endothelial-cell genome responds to 16K hPRL treatment. We found 216 genes that show regulation by 16K hPRL, of which a large proportion turned out to be associated with the process of immunity. 16K hPRL induces expression of various chemokines and endothelial adhesion molecules. These expressions, under the control of nuclear factor-kappaB, result in an enhanced leukocyte-endothelial cell interaction. Furthermore, analysis of B16-F10 tumor tissues reveals a higher expression of adhesion molecules (intercellular adhesion molecule 1, vascular cell adhesion molecule 1, or E-selectin) in endothelial cells and a significantly higher number of infiltrated leukocytes within the tumor treated with 16K hPRL compared with the untreated ones. In conclusion, this study describes a new antitumor mechanism of 16K hPRL. Because cellular immunity against tumor cells is a crucial step in therapy, the discovery that treatment with 16K hPRL overcomes tumor-induced anergy may become important for therapeutic perspectives.
- Published
- 2007
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34. Prolactin/growth hormone-derived antiangiogenic peptides highlight a potential role of tilted peptides in angiogenesis.
- Author
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Nguyen NQ, Tabruyn SP, Lins L, Lion M, Cornet AM, Lair F, Rentier-Delrue F, Brasseur R, Martial JA, and Struman I
- Subjects
- Alzheimer Disease, Amino Acid Sequence, Amyloid beta-Peptides chemistry, Animals, Apoptosis physiology, Cattle, Cell Proliferation, Chick Embryo, Endothelial Cells cytology, Gene Products, env chemistry, Humans, Hydrophobic and Hydrophilic Interactions, Liposomes metabolism, Membrane Fusion physiology, Molecular Sequence Data, Molecular Weight, Mutant Proteins metabolism, Rats, Recombinant Proteins biosynthesis, Retroviridae Proteins, Oncogenic chemistry, Viral Fusion Proteins chemistry, Angiogenesis Inhibitors chemistry, Growth Hormone chemistry, Neovascularization, Physiologic physiology, Peptide Fragments chemistry, Prolactin chemistry
- Abstract
Angiogenesis is a crucial step in many pathologies, including tumor growth and metastasis. Here, we show that tilted peptides exert antiangiogenic activity. Tilted (or oblique-oriented) peptides are short peptides known to destabilize membranes and lipid cores and characterized by an asymmetric distribution of hydrophobic residues along the axis when helical. We have previously shown that 16-kDa fragments of the human prolactin/growth hormone (PRL/GH) family members are potent angiogenesis inhibitors. Here, we demonstrate that all these fragments possess a 14-aa sequence having the characteristics of a tilted peptide. The tilted peptides of human prolactin and human growth hormone induce endothelial cell apoptosis, inhibit endothelial cell proliferation, and inhibit capillary formation both in vitro and in vivo. These antiangiogenic effects are abolished when the peptides' hydrophobicity gradient is altered by mutation. We further demonstrate that the well known tilted peptides of simian immunodeficiency virus gp32 and Alzheimer's beta-amyloid peptide are also angiogenesis inhibitors. Taken together, these results point to a potential new role for tilted peptides in regulating angiogenesis.
- Published
- 2006
- Full Text
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35. Expression of the somatolactin beta gene during zebrafish embryonic development.
- Author
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Lopez M, Nica G, Motte P, Martial JA, Hammerschmidt M, and Muller M
- Subjects
- Animals, Base Sequence, DNA, Complementary genetics, Gene Expression Regulation, Developmental, Growth Hormone genetics, In Situ Hybridization, Fluorescence, Mutation, Pituitary Gland embryology, Pituitary Gland metabolism, Prolactin genetics, RNA, Messenger genetics, RNA, Messenger metabolism, Fish Proteins genetics, Glycoproteins genetics, Pituitary Hormones genetics, Zebrafish embryology, Zebrafish genetics
- Abstract
Somatolactin (Sl) is a pituitary hormone closely related to prolactin (Prl) and growth hormone that was until now only found in various fish species. We isolated the cDNA coding for zebrafish Slbeta and we identified the gene encoding this hormone. We also obtained a 1kb genomic fragment corresponding to the slbeta upstream promoter region. Furthermore, the slbeta expression pattern was examined during zebrafish embryogenesis using whole-mount in situ hybridization. Slbeta mRNA is first detected in a single cell at the anterior border of the neural plate starting at 23h post fertilization (hpf). Slbeta-expressing cells also express the transcription factor pit1 and are located close to prl-expressing cells. Using combined fluorescent in situ hybridization, we show that slbeta- and prl-expressing cells are clearly distinct at 29 hpf. Starting at 30 hpf, the number of slbeta positive cells increases and their location becomes more clearly distinct from lactotrope cells, in a more posterior position. At later stages (48 hpf), slbeta expression was observed posterior to growth hormone expression, again in a distinct cell type. We show that zebrafish mutants aal, as well as mutants in the pit1 gene, are deficient in slbeta expression. In conclusion, slbeta expression defines a new, additional cell type in zebrafish pituitary that depends on pit1 and aal for its differentiation.
- Published
- 2006
- Full Text
- View/download PDF
36. sox4b is a key player of pancreatic alpha cell differentiation in zebrafish.
- Author
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Mavropoulos A, Devos N, Biemar F, Zecchin E, Argenton F, Edlund H, Motte P, Martial JA, and Peers B
- Subjects
- Amino Acid Sequence, Animals, Base Sequence, Cell Differentiation, DNA genetics, Gene Expression Regulation, Developmental, Glucagon metabolism, High Mobility Group Proteins genetics, Humans, In Situ Hybridization, Fluorescence, Islets of Langerhans embryology, Molecular Sequence Data, Phylogeny, RNA, Antisense administration & dosage, RNA, Antisense genetics, Sequence Homology, Amino Acid, Signal Transduction, Trans-Activators genetics, Zebrafish genetics, Zebrafish Proteins genetics, High Mobility Group Proteins physiology, Islets of Langerhans cytology, Islets of Langerhans physiology, Trans-Activators physiology, Zebrafish embryology, Zebrafish physiology, Zebrafish Proteins physiology
- Abstract
Pancreas development relies on a network of transcription factors belonging mainly to the Homeodomain and basic Helix-Loop-Helix families. We show in this study that, in zebrafish, sox4, a member of the SRY-like HMG-box (SOX) family, is required for proper endocrine cell differentiation. We found that two genes orthologous to mammalian Sox4 are present in zebrafish and that only one of them, sox4b, is strongly expressed in the pancreatic anlage. Transcripts of sox4b were detected in mid-trunk endoderm from the 5-somite stage, well before the onset of expression of the early pancreatic gene pdx-1. Furthermore, by fluorescent double in situ hybridization, we found that expression of sox4b is mostly restricted to precursors of the endocrine compartment. This expression is not maintained in differentiated cells although transient expression can be detected in alpha cells and some beta cells. That sox4b-expressing cells belong to the endocrine lineage is further illustrated by their absence from the pancreata of slow-muscle-omitted mutant embryos, which specifically lack all early endocrine markers while retaining expression of exocrine markers. The involvement of sox4b in cell differentiation is suggested firstly by its up-regulation in mind bomb mutant embryos displaying accelerated pancreatic cell differentiation. In addition, sox4b knock-down leads to a drastic reduction in glucagon expression, while other pancreatic markers including insulin, somatostatin, and trypsin are not significantly affected. This disruption of alpha cell differentiation is due to down-regulation of the homeobox arx gene specifically in the pancreas. Taken together, these data demonstrate that, in zebrafish, sox4b is expressed transiently during endocrine cell differentiation and plays a crucial role in the generation of alpha endocrine cells.
- Published
- 2005
- Full Text
- View/download PDF
37. Solution structure of human prolactin.
- Author
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Teilum K, Hoch JC, Goffin V, Kinet S, Martial JA, and Kragelund BB
- Subjects
- Amino Acid Sequence, Animals, Binding Sites, Human Growth Hormone chemistry, Human Growth Hormone genetics, Human Growth Hormone metabolism, Humans, In Vitro Techniques, Models, Molecular, Molecular Sequence Data, Nuclear Magnetic Resonance, Biomolecular, Placental Lactogen chemistry, Placental Lactogen genetics, Prolactin genetics, Prolactin metabolism, Protein Conformation, Receptors, Prolactin genetics, Receptors, Prolactin metabolism, Recombinant Proteins chemistry, Recombinant Proteins genetics, Recombinant Proteins metabolism, Sequence Homology, Amino Acid, Sheep, Solutions, Prolactin chemistry
- Abstract
We report the solution structure of human prolactin determined by NMR spectroscopy. Our result is a significant improvement over a previous structure in terms of number and distribution of distance restraints, regularity of secondary structure, and potential energy. More significantly, the structure is sufficiently different that it leads to different conclusions regarding the mechanism of receptor activation and initiation of signal transduction. Here, we compare the structure of unbound prolactin to structures of both the homologue ovine placental lactogen and growth hormone. The structures of unbound and receptor bound prolactin/placental lactogen are similar and no noteworthy structural changes occur upon receptor binding. The observation of enhanced binding at the second receptor site when the first site is occupied has been widely interpreted to indicate conformational change induced by binding the first receptor. However, our results indicate that this enhanced binding at the second site could be due to receptor-receptor interactions or some other free energy sources rather than conformational change in the hormone. Titration of human prolactin with the extracellular domain of the human prolactin receptor was followed by NMR, gel filtration and electrophoresis. Both binary and ternary hormone-receptor complexes are clearly detectable by gel filtration and electrophoresis. The binary complex is not observable by NMR, possibly due to a dynamic equilibrium in intermediate exchange within the complex. The ternary complex of one hormone molecule bound to two receptor molecules is on the contrary readily detectable by NMR. This is in stark contrast to the widely held view that the ternary prolactin-receptor complex is only transiently formed. Thus, our results lead to improved understanding of the prolactin-prolactin receptor interaction.
- Published
- 2005
- Full Text
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38. The antiangiogenic factor, 16-kDa human prolactin, induces endothelial cell cycle arrest by acting at both the G0-G1 and the G2-M phases.
- Author
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Tabruyn SP, Nguyen NQ, Cornet AM, Martial JA, and Struman I
- Subjects
- Animals, Cattle, Cell Cycle Proteins genetics, Cells, Cultured, Cyclin B genetics, Cyclin B metabolism, Cyclin B1, Cyclin D1 genetics, Cyclin D1 metabolism, Cyclin E genetics, Cyclin E metabolism, Cyclin-Dependent Kinase Inhibitor p21, Cyclin-Dependent Kinase Inhibitor p27, DNA Replication drug effects, Endothelial Cells metabolism, G1 Phase drug effects, Gene Expression Regulation, Humans, Interphase genetics, Mitogen-Activated Protein Kinase Kinases metabolism, Mitosis drug effects, RNA, Messenger analysis, RNA, Messenger metabolism, Resting Phase, Cell Cycle drug effects, S Phase drug effects, Tumor Suppressor Proteins genetics, Tumor Suppressor Proteins metabolism, Angiogenesis Inhibitors pharmacology, Cell Cycle Proteins metabolism, Endothelial Cells drug effects, Interphase drug effects, Peptide Fragments pharmacology, Prolactin pharmacology
- Abstract
The 16-kDa N-terminal fragment of human prolactin (16K hPRL) is a potent antiangiogenic factor that has been shown to prevent tumor growth in a xenograph mouse model. In this paper we first demonstrate that 16K hPRL inhibits serum-induced DNA synthesis in adult bovine aortic endothelial cells. This inhibition is associated with cell cycle arrest at both the G(0)-G(1) and the G(2)-M phase. Western blot analysis revealed that 16K hPRL strongly decreases levels of cyclin D1 and cyclin B1, but not cyclin E. The effect on cyclin D1 is at least partially transcriptional, because treatment with 16K hPRL both reduces the cyclin D1 mRNA level and down-regulates cyclin D1 promoter activity. This regulation may be due to inhibition of the MAPK pathway, but it is independent of the glycogen synthase kinase-3beta pathway. Lastly, 16K hPRL induces the expression of negative cell cycle regulators, the cyclin-dependent kinase inhibitors p21(cip1) and p27(kip1). In summary, 16K hPRL inhibits serum-induced proliferation of endothelial cells through combined effects on positive and negative regulators of cell cycle progression.
- Published
- 2005
- Full Text
- View/download PDF
39. Enhancement of steroid receptor-mediated transcription for the development of highly responsive bioassays.
- Author
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Willemsen P, Scippo ML, Maghuin-Rogister G, Martial JA, and Muller M
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- Animals, Cattle, Cells, Cultured, Humans, Receptors, Steroid isolation & purification, Sensitivity and Specificity, Biological Assay methods, Glucocorticoids analysis, Progesterone analysis, Receptors, Androgen analysis, Receptors, Steroid analysis, Receptors, Steroid metabolism
- Abstract
We have previously generated several transformed human mammary cell lines for the detection of steroid receptor-mediated activities and used these cell lines to detect and characterize steroid hormone (ant)agonistic compounds. In this report, we describe the specific optimization procedures used to enhance receptor-mediated transcription through the human glucocorticoid, progesterone and androgen receptors, respectively. Sodium arsenite-induced chemical stress leads to a substantial and specific increase in the glucocorticoid receptor-mediated transcription, resulting in maximal stimulations of more than 2000-fold by the agonist dexamethasone. Similarly, a combined treatment with forskolin (an activator of adenylate cyclase) and trichostatin A (an inhibitor of histone deacetylases) leads to a synergistic enhancement of progesterone or androgen stimulation, resulting in a maximal induction of more than 200-fold or about 100-fold, respectively. The enhanced responses to specific steroids are mediated by the corresponding nuclear receptor. We show that by using these enhanced transcriptional stimulation protocols, it is possible to detect lower amounts of steroid hormones without substantially affecting the relative biological activities of various agonists. Finally, the application of these enhanced reporter cell assays to real biological samples from meat-producing animals is evaluated, and some validation parameters are presented.
- Published
- 2005
- Full Text
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40. EGF stimulates Pit-1 independent transcription of the human prolactin pituitary promoter in human breast cancer SK-BR-3 cells through its proximal AP-1 response element.
- Author
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Manfroid I, Van de Weerdt C, Baudhuin A, Martial JA, and Muller M
- Subjects
- Breast Neoplasms genetics, DNA-Binding Proteins genetics, Humans, JNK Mitogen-Activated Protein Kinases metabolism, MAP Kinase Kinase 4, Mitogen-Activated Protein Kinase Kinases metabolism, Phosphatidylinositol 3-Kinases metabolism, Prolactin metabolism, Proto-Oncogene Proteins c-fos metabolism, Proto-Oncogene Proteins c-jun metabolism, RNA, Messenger genetics, RNA, Messenger metabolism, Receptor, ErbB-2 metabolism, Regulatory Sequences, Nucleic Acid physiology, Signal Transduction, Transcription Factor AP-1 genetics, Transcription Factor AP-1 metabolism, Transcription Factor Pit-1, Transcription Factors genetics, Transcriptional Activation, Tumor Cells, Cultured, Breast Neoplasms metabolism, DNA-Binding Proteins deficiency, Epidermal Growth Factor pharmacology, Pituitary Gland physiology, Prolactin genetics, Promoter Regions, Genetic genetics, Transcription Factors deficiency, Transcription, Genetic
- Abstract
Normal and neoplastic human mammary gland cells are targets for the proliferative action of prolactin. These cells also synthesize prolactin, thereby inducing an autocrine/paracrine proliferative loop. We present the first extensive analysis of the transcriptional regulation of the human prolactin gene (hPRL) in human mammary tumor cells, SK-BR-3. We show that the pituitary promoter is functional in these cells in the absence of the pituitary-specific factor Pit-1. Expression of exogenous Pit-1 or epidermal growth factor (EGF) treatment stimulates the transfected hPRL pituitary promoter and the endogenous hPRL expression. EGF stimulation is mediated by increased synthesis of c-fos and c-jun, resulting in AP-1 binding to the proximal hPRL pituitary promoter. This regulation involves the EGF receptor, possibly ErbB2 that is highly expressed in SK-BR-3 cells, and a PI3K/JNK pathway. The stimulation of hPRL gene transcription by EGF in mammary cells may include hPRL in a complex regulatory network controlling growth of human mammary cells.
- Published
- 2005
- Full Text
- View/download PDF
41. Cathepsin D processes human prolactin into multiple 16K-like N-terminal fragments: study of their antiangiogenic properties and physiological relevance.
- Author
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Piwnica D, Touraine P, Struman I, Tabruyn S, Bolbach G, Clapp C, Martial JA, Kelly PA, and Goffin V
- Subjects
- Amino Acid Sequence, Angiogenesis Inhibitors pharmacology, Animals, Breast cytology, Breast physiology, Cathepsin B metabolism, Cattle, Endothelium, Vascular drug effects, Endothelium, Vascular physiology, Humans, Models, Molecular, Molecular Sequence Data, Prolactin chemistry, Prolactin pharmacology, Protein Conformation, Protein Processing, Post-Translational, Rats, Sequence Alignment, Sequence Homology, Amino Acid, Umbilical Veins, Angiogenesis Inhibitors chemistry, Cathepsin D metabolism, Peptide Fragments chemistry, Peptide Fragments pharmacology, Prolactin metabolism
- Abstract
16K prolactin (PRL) is the name given to the 16-kDa N-terminal fragment obtained by proteolysis of rat PRL by tissue extracts or cell lysates, in which cathepsin D was identified as the candidate protease. Based on its antiangiogenic activity, 16K PRL is potentially a physiological inhibitor of tumor growth. Full-length human PRL (hPRL) was reported to be resistant to cathepsin D, suggesting that antiangiogenic 16K PRL may be physiologically irrelevant in humans. In this study, we show that hPRL can be cleaved by cathepsin D or mammary cell extracts under the same conditions as described earlier for rat PRL, although with lower efficiency. In contrast to the rat hormone, hPRL proteolysis generates three 16K-like fragments, which were identified by N-terminal sequencing and mass spectrometry as corresponding to amino acids 1-132 (15 kDa), 1-147 (16.5 kDa), and 1-150 (17 kDa). Biochemical and mutagenetic studies showed that the species-specific digestion pattern is due to subtle differences in primary and tertiary structures of rat and human hormones. The antiangiogenic activity of N-terminal hPRL fragments was assessed by the inhibition of growth factor-induced thymidine uptake and MAPK activation in bovine umbilical endothelial cells. Finally, an N-terminal hPRL fragment comigrating with the proteolytic 17-kDa fragment was identified in human pituitary adenomas, suggesting that the physiological relevance of antiangiogenic N-terminal hPRL fragments needs to be reevaluated in humans.
- Published
- 2004
- Full Text
- View/download PDF
42. Molecular targeting of antiangiogenic factor 16K hPRL inhibits oxygen-induced retinopathy in mice.
- Author
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Pan H, Nguyen NQ, Yoshida H, Bentzien F, Shaw LC, Rentier-Delrue F, Martial JA, Weiner R, Struman I, and Grant MB
- Subjects
- Adenoviridae genetics, Angiogenesis Inhibitors genetics, Animals, Apoptosis drug effects, Blotting, Western, Endostatins pharmacology, Endothelium, Vascular drug effects, Endothelium, Vascular metabolism, Endothelium, Vascular pathology, Escherichia coli metabolism, Female, Genetic Vectors, Humans, Mice, Mice, Inbred C57BL, Peptide Fragments genetics, Pregnancy, Prolactin genetics, Recombinant Proteins genetics, Recombinant Proteins therapeutic use, Retinal Neovascularization etiology, Retinal Neovascularization pathology, Angiogenesis Inhibitors therapeutic use, Oxygen toxicity, Peptide Fragments therapeutic use, Prolactin therapeutic use, Retina drug effects, Retinal Neovascularization prevention & control
- Abstract
Purpose: To examine the ability and mechanism of the 16 kDa N-terminal fragment of human prolactin (16K hPRL) in the inhibition of abnormal retinal neovascularization., Methods: The 16K hPRL-encoding sequence was inserted into an adenoviral vector (16K-Ad). Western blot analysis verified the expression of 16K hPRL and inhibition of proliferation, confirming functional activity of the 16K hPRL in virus-infected adult bovine aortic endothelial (ABAE) cells. 16K hPRL inhibited retinal neovascularization in a mouse model of oxygen-induced retinopathy. The ability of recombinant 16K hPRL expressed in E. coli (r16K hPRL) was compared to that of endostatin in inducing apoptosis of cultured human retinal endothelial cells (HREC)., Results: 16K was expressed in virus-infected ABAE cells and resulted in a dose-dependent inhibition of cell proliferation. Eyes injected with 16K-Ad showed a reduction in preretinal neovascularization of 82.3 +/- 9.3% (P < 0.00001) when compared to uninjected controls. r16K hPRL was 100 times more potent than endostatin in inducing apoptosis in HRECs., Conclusions: Intravitreal administration of 16K hPRL inhibited neovascularization in the mouse model of oxygen-induced retinopathy. 16K hPRL stimulated apoptosis in HRECs and inhibited cell proliferation in ABAE cells. These results suggested a potential therapeutic role for 16K hPRL in the treatment of proliferative retinopathies.
- Published
- 2004
- Full Text
- View/download PDF
43. Use of reporter cell lines for detection of endocrine-disrupter activity.
- Author
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Willemsen P, Scippo ML, Kausel G, Figueroa J, Maghuin-Rogister G, Martial JA, and Muller M
- Subjects
- Cell Line, Tumor, Humans, Luciferases genetics, Receptors, Glucocorticoid genetics, Endocrine Glands drug effects, Genes, Reporter
- Abstract
We have studied stable transformed human mammary cell lines with highly inducible steroid receptor-mediated luciferase reporter gene expression. Cells responding specifically to glucocorticoids, progestagens, androgens, or estrogens are described and characterized. The use of this high-throughput, cell-based assay for analysis of steroid (ant)agonists is reported. Systematic characterization of endocrine-disrupting activity on human receptors and in a human-cell system is interpreted for a selection of xenobiotics. We show that the phytoestrogens apigenin and genistin have progestagenic and androgenic activity, respectively. Finally, application of cell-based assays to the analysis of environmental samples is discussed.
- Published
- 2004
- Full Text
- View/download PDF
44. Development of pure prolactin receptor antagonists.
- Author
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Bernichtein S, Kayser C, Dillner K, Moulin S, Kopchick JJ, Martial JA, Norstedt G, Isaksson O, Kelly PA, and Goffin V
- Subjects
- Amino Acid Motifs, Animals, Binding, Competitive, Biological Assay, Cell Division, Cell Line, DNA-Binding Proteins metabolism, Dose-Response Relationship, Drug, Enzyme-Linked Immunosorbent Assay, Escherichia coli metabolism, Hormones metabolism, Humans, Inhibitory Concentration 50, Liver enzymology, MAP Kinase Signaling System, Male, Mice, Mice, Inbred BALB C, Mice, Transgenic, Mutagenesis, Site-Directed, Plasmids, Precipitin Tests, Prolactin pharmacology, Promoter Regions, Genetic, Prostate metabolism, Protein Binding, Protein Structure, Tertiary, Radioimmunoassay, Rats, Receptors, Prolactin chemistry, Recombinant Proteins metabolism, STAT5 Transcription Factor, Signal Transduction, Trans-Activators metabolism, Transcription, Genetic, Milk Proteins, Prolactin chemistry, Receptors, Prolactin antagonists & inhibitors
- Abstract
Prolactin (PRL) promotes tumor growth in various experimental models and leads to prostate hyperplasia and mammary neoplasia in PRL transgenic mice. Increasing experimental evidence argues for the involvement of autocrine PRL in this process. PRL receptor antagonists have been developed to counteract these undesired proliferative actions of PRL. However, all forms of PRL receptor antagonists obtained to date exhibit partial agonism, preventing their therapeutic use as full antagonists. In the present study, we describe the development of new human PRL antagonists devoid of agonistic properties and therefore able to act as pure antagonists. This was demonstrated using several in vitro bioassays, including highly sensitive assays able to detect extremely low levels of receptor activation. These new compounds also act as pure antagonists in vivo, as assessed by analyzing their ability to competitively inhibit PRL-triggered signaling cascades in various target tissues (liver, mammary gland, and prostate). Finally, by using transgenic mice expressing PRL specifically in the prostate, which exhibit constitutively activated signaling cascades paralleling hyperplasia, we show that these new PRL analogs are able to completely revert PRL-activated events. These second generation human PRL antagonists are good candidates to be used as inhibitors of growth-promoting actions of PRL.
- Published
- 2003
- Full Text
- View/download PDF
45. The antiangiogenic factor 16K human prolactin induces caspase-dependent apoptosis by a mechanism that requires activation of nuclear factor-kappaB.
- Author
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Tabruyn SP, Sorlet CM, Rentier-Delrue F, Bours V, Weiner RI, Martial JA, and Struman I
- Subjects
- Caspases metabolism, Endothelium, Vascular metabolism, Humans, I-kappa B Proteins genetics, I-kappa B Proteins metabolism, Mutation, NF-KappaB Inhibitor alpha, NF-kappa B antagonists & inhibitors, Apoptosis physiology, NF-kappa B metabolism, Peptides metabolism, Prolactin metabolism
- Abstract
We have previously shown that the 16-kDa N-terminal fragment of human prolactin (16K hPRL) has antiangiogenic properties, including the ability to induce apoptosis in vascular endothelial cells. Here, we examined whether the nuclear factor-kappaB (NF-kappaB) signaling pathway was involved in mediating the apoptotic action of 16K hPRL in bovine adrenal cortex capillary endothelial cells. In a dose-dependent manner, treatment with 16K hPRL induced inhibitor kappaB-alpha degradation permitting translocation of NF-kappaB to the nucleus and reporter gene activation. Inhibition of NF-kappaB activation by overexpression of a nondegradable inhibitor kappaB-alpha mutant or treatment with NF-kappaB inhibitors blocked 16K hPRL-induced apoptosis. Treatment with 16K hPRL activated the initiator caspases-8 and -9 and the effector caspase-3, all of which were essential for stimulation of DNA fragmentation. This activation of the caspase cascade by 16K hPRL was also NF-kappaB dependent. These findings support the conclusion that NF-kappaB signaling plays a central role in 16K hPRL-induced apoptosis in vascular endothelial cells.
- Published
- 2003
- Full Text
- View/download PDF
46. De novo backbone and sequence design of an idealized alpha/beta-barrel protein: evidence of stable tertiary structure.
- Author
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Offredi F, Dubail F, Kischel P, Sarinski K, Stern AS, Van de Weerdt C, Hoch JC, Prosperi C, François JM, Mayo SL, and Martial JA
- Subjects
- Amino Acid Sequence, Circular Dichroism, Escherichia coli genetics, Models, Molecular, Molecular Sequence Data, Nuclear Magnetic Resonance, Biomolecular, Oligodeoxyribonucleotides chemical synthesis, Oligodeoxyribonucleotides genetics, Protein Biosynthesis, Protein Denaturation, Protein Structure, Secondary, Protein Structure, Tertiary, Proteins genetics, Scattering, Radiation, Spectrometry, Fluorescence, Spectrophotometry, Ultraviolet, Structure-Activity Relationship, Temperature, Thermodynamics, Protein Engineering methods, Proteins chemistry
- Abstract
We have designed, synthesized, and characterized a 216 amino acid residue sequence encoding a putative idealized alpha/beta-barrel protein. The design was elaborated in two steps. First, the idealized backbone was defined with geometric parameters representing our target fold: a central eight parallel-stranded beta-sheet surrounded by eight parallel alpha-helices, connected together with short structural turns on both sides of the barrel. An automated sequence selection algorithm, based on the dead-end elimination theorem, was used to find the optimal amino acid sequence fitting the target structure. A synthetic gene coding for the designed sequence was constructed and the recombinant artificial protein was expressed in bacteria, purified and characterized. Far-UV CD spectra with prominent bands at 222nm and 208nm revealed the presence of alpha-helix secondary structures (50%) in fairly good agreement with the model. A pronounced absorption band in the near-UV CD region, arising from immobilized aromatic side-chains, showed that the artificial protein is folded in solution. Chemical unfolding monitored by tryptophan fluorescence revealed a conformational stability (DeltaG(H2O)) of 35kJ/mol. Thermal unfolding monitored by near-UV CD revealed a cooperative transition with an apparent T(m) of 65 degrees C. Moreover, the artificial protein did not exhibit any affinity for the hydrophobic fluorescent probe 1-anilinonaphthalene-8-sulfonic acid (ANS), providing additional evidence that the artificial barrel is not in the molten globule state, contrary to previously designed artificial alpha/beta-barrels. Finally, 1H NMR spectra of the folded and unfolded proteins provided evidence for specific interactions in the folded protein. Taken together, the results indicate that the de novo designed alpha/beta-barrel protein adopts a stable three-dimensional structure in solution. These encouraging results show that de novo design of an idealized protein structure of more than 200 amino acid residues is now possible, from construction of a particular backbone conformation to determination of an amino acid sequence with an automated sequence selection algorithm.
- Published
- 2003
- Full Text
- View/download PDF
47. Transcription of the human prolactin gene in mammary cells.
- Author
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Baudhuin A, Manfroid I, Van De Weerdt C, Martial JA, and Muller M
- Subjects
- Cell Line, Female, Genes, Reporter, Humans, Luciferases genetics, Promoter Regions, Genetic, RNA, Messenger genetics, Transfection, Breast metabolism, Prolactin genetics, Transcription, Genetic
- Abstract
Expression of human prolactin in the mammary gland, one of the main target organs of this hormone, leads to the formation of an autocrine-paracrine proliferative loop in this tissue. Involvement of prolactin in normal and neoplastic mammary development triggered the interest in transcriptional regulation of the human prolactin gene in mammary cells. Analysis of this regulation, and comparison to that in the pituitary, will contribute to a better understanding of mammary gland development and tumor formation. Here we present the first extensive analysis of the transcriptional regulation of the human prolactin gene in human mammary tumor cells.
- Published
- 2002
- Full Text
- View/download PDF
48. Expression of the zinc finger Egr1 gene during zebrafish embryonic development.
- Author
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Close R, Toro S, Martial JA, and Muller M
- Subjects
- Animals, Brain embryology, Brain metabolism, Central Nervous System embryology, DNA, Complementary metabolism, In Situ Hybridization, RNA, Messenger metabolism, Retina embryology, Reverse Transcriptase Polymerase Chain Reaction, Time Factors, Zebrafish, Zinc Fingers, DNA-Binding Proteins biosynthesis, DNA-Binding Proteins genetics, Gene Expression Regulation, Developmental, Transcription Factors biosynthesis, Transcription Factors genetics
- Abstract
Egr1 is a highly conserved zinc finger protein which plays important roles in many aspects of vertebrate development and in the adult. The cDNA coding for zebrafish Egr1 was obtained and its expression pattern was examined during zebrafish embryogenesis using whole-mount in situ hybridization. Egr1 mRNA is first detected in adaxial cells in the presomitic mesoderm between 11 and 20 h post-fertilization (hpf), spanning the 4-24 somite stages. Later, Egr1 expression is observed only in specific brain areas, starting at 21 hpf and subsequently increasing in distinct domains of the central nervous system, e.g. in the telencephalon, diencephalon and hypothalamus. Between 24 and 48 hpf, Egr1 is expressed in specific domains of the hypothalamus, mesencephalon, tegmentum, pharynx, retina, otic vesicle and heart.
- Published
- 2002
- Full Text
- View/download PDF
49. Differential expression of two somatostatin genes during zebrafish embryonic development.
- Author
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Devos N, Deflorian G, Biemar F, Bortolussi M, Martial JA, Peers B, and Argenton F
- Subjects
- Amino Acid Sequence, Animals, Axin Protein, Base Sequence, Brain embryology, Brain metabolism, Central Nervous System embryology, DNA, Complementary, Gene Expression Profiling, Humans, Molecular Sequence Data, Pancreas embryology, Phylogeny, Protein Precursors classification, Proteins genetics, Sequence Homology, Amino Acid, Somatostatin classification, Zebrafish embryology, Zebrafish Proteins, Central Nervous System metabolism, Gene Expression, Pancreas metabolism, Protein Precursors genetics, Repressor Proteins, Somatostatin genetics, Zebrafish genetics
- Abstract
We have identified the cDNAs of two new zebrafish preprosomatostatins, PPSS1 and PPSS3, in addition to the previously cloned PPSS2 (Argenton et al., 1999). PPSS1 is the orthologue of mammalian PPSSs, with a conserved C-terminal SS-14 sequence, PPSS2 is a divergent SS precursor and PPSS3 is a cortistatin-like prohormone. Using whole-mount in situ hybridisation, we have analysed the expression of PPSS1 and PPSS2 in zebrafish embryos up to 5 days post fertilisation. PPSS1 was expressed in the developing pancreas and central nervous system (CNS), whereas PPSS2 expression was exclusively pancreatic. In the CNS, PPSS1 was detected in several areas, in particular in the vagal motor nucleus and in cells that pioneer the tract of the postoptic commissure. PPSS1 was also expressed transiently in the telencephalon and spinal motor neurons. In all areas but the telencephalon PPSS1 was coexpressed with islet-1.
- Published
- 2002
- Full Text
- View/download PDF
50. A transformed fish cell line expressing a green fluorescent protein-luciferase fusion gene responding to cellular stress.
- Author
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Molina A, Carpeaux R, Martial JA, and Muller M
- Subjects
- Animals, Cell Line, Transformed drug effects, Dose-Response Relationship, Drug, Flow Cytometry, Genes, Reporter, Green Fluorescent Proteins, HSP70 Heat-Shock Proteins genetics, HSP70 Heat-Shock Proteins metabolism, Luciferases genetics, Luminescent Proteins genetics, Recombinant Fusion Proteins genetics, Tilapia, Xenobiotics toxicity, Cell Line, Transformed metabolism, Indicators and Reagents metabolism, Luciferases metabolism, Luminescent Proteins metabolism, Recombinant Fusion Proteins metabolism
- Abstract
We obtained a stable transformed fish (EPC) cell line containing a reporter gene under the control of the tilapia HSP70 promoter. Expression of the reporter gene, coding for a green fluorescent protein (GFP)-luciferase fusion protein, was assessed by measuring the luciferase enzymatic activity by luminometry and the GFP expression by fluorescence microscopy and flow cytometry. The clone was characterized for its capacity to respond to heat shock treatment. The results show high induction after 1 h at 37 degrees C of treatment, up to 500-fold. In addition, its convenience to detect a large range of cellular stressors was evaluated. We observed high induction when Cd2+, Zn2+, Hg2+ or Cu2+ was added, but not Pb2+. In addition, activation of the reporter gene was observed in the presence of other compounds such as acetyl chloride, tetrachlorophenol, chloroacetamide and sodium arsenite. In conclusion, this cell line can be used as a rapid, cheap and easy biological test to determine cellular stress induced by environmental pollutants, alone or in conjunction with other, more specific assays.
- Published
- 2002
- Full Text
- View/download PDF
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