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2. A New Method including the Quantification of Circulating Mirnas Allows the Efficient Identification of Nash Patients at Risk who should be Treated

Author

Sanyal, A., primary, Cordonnier, G., additional, Brozek, J., additional, Roudot, A., additional, Deledicque, S., additional, Barbazanges, M., additional, Praca, E., additional, Sudrik, F.B., additional, Megnien, S., additional, Hanf, R., additional, Staels, B., additional, Bedossa, P., additional, Ratziu, V., additional, Hum, D., additional, and Darteil, R., additional

Published
2016
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7. 2P-0529 A novel family of compounds with beneficial effects in mouse models of dyslipidemia and ischemic stroke

Author

Millatt, L., primary, Bertrand, K., additional, Darteil, R., additional, Verwaerde, P., additional, Hum, D.W., additional, Provost, N., additional, Poulain, P., additional, Majd, Z., additional, Helleboid, S., additional, Delhomel, J.-F., additional, Bordet, R., additional, Fruchart, J., additional, Staels, B., additional, and Fruchart, J.-C., additional

Published
2003
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10. Viruses traverse the human proteome through peptide interfaces that can be biomimetically leveraged for drug discovery.

Author

Meyniel-Schicklin L, Amaudrut J, Mallinjoud P, Guillier F, Mangeot PE, Lines L, Aublin-Gex A, Scholtes C, Punginelli C, Joly S, Vasseur F, Manet E, Gruffat H, Henry T, Halitim F, Paparin JL, Machin P, Darteil R, Sampson D, Mikaelian I, Lane L, Navratil V, Golinelli-Cohen MP, Terzi F, André P, Lotteau V, Vonderscher J, Meldrum EC, and de Chassey B

Subjects
Animals, Mice, Humans, Proteome, Peptides pharmacology, Drug Discovery, Influenza, Human, Viruses
Abstract

We present a drug design strategy based on structural knowledge of protein-protein interfaces selected through virus-host coevolution and translated into highly potential small molecules. This approach is grounded on Vinland, the most comprehensive atlas of virus-human protein-protein interactions with annotation of interacting domains. From this inspiration, we identified small viral protein domains responsible for interaction with human proteins. These peptides form a library of new chemical entities used to screen for replication modulators of several pathogens. As a proof of concept, a peptide from a KSHV protein, identified as an inhibitor of influenza virus replication, was translated into a small molecule series with low nanomolar antiviral activity. By targeting the NEET proteins, these molecules turn out to be of therapeutic interest in a nonalcoholic steatohepatitis mouse model with kidney lesions. This study provides a biomimetic framework to design original chemistries targeting cellular proteins, with indications going far beyond infectious diseases., Competing Interests: Competing interests statement:L.M.-S., P. Mallinjoud, R.D., J.V., and B.d.C. are working for ENYO Pharma. L. Lines, J.-L.P., S.J., D.S., and E.C.M. were working for ENYO Pharma. F.H., P. Machin, and I.M. were consultants for ENYO Pharma. J.V. is the CEO of ENYO Pharma. P.A. and V.L. are scientific advisors for ENYO Pharma. F.G. is working for Inventiva. J.A. was working for Inventiva.

Published
2024
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11. Hepatic and renal improvements with FXR agonist vonafexor in individuals with suspected fibrotic NASH.

Author

Ratziu V, Harrison SA, Loustaud-Ratti V, Bureau C, Lawitz E, Abdelmalek M, Alkhouri N, Francque S, Girma H, Darteil R, Couchoux H, Wolf M, Sanyal A, Vonderscher J, and Scalfaro P

Subjects
Humans, Liver pathology, Liver Cirrhosis complications, Body Weight, Kidney, Double-Blind Method, Treatment Outcome, Non-alcoholic Fatty Liver Disease complications
Abstract

Background & Aims: The LIVIFY trial investigated the safety, tolerability, and efficacy of vonafexor, a second-generation, non-bile acid farnesoid X receptor agonist in patients with suspected fibrotic non-alcoholic steatohepatitis (NASH)., Methods: This double-blind phase IIa study was conducted in two parts. Patients were randomised (1:1:1:1) to receive placebo, vonafexor 100 mg twice daily (VONA-100BID), vonafexor 200 mg once daily (VONA-200QD), or 400 mg vonafexor QD (VONA-400QD) in Part A (safety run-in, pharmacokinetics/pharmacodynamics) or placebo, vonafexor 100 mg QD (VONA-100QD), or VONA-200QD (1:1:1) in Part B. The primary efficacy endpoint was a reduction in liver fat content (LFC) by MRI-proton density fat fraction, while secondary endpoints included reduced corrected T1 values and liver enzymes, from baseline to Week 12., Results: One hundred and twenty patients were randomised (Part A, n = 24; Part B, n = 96). In Part B, there was a significant reduction in least-square mean (SE) absolute change in LFC from baseline to Week 12 for VONA-100QD (-6.3% [0.9]) and VONA-200QD (-5.4% [0.9]), vs. placebo (-2.3% [0.9], p = 0.002 and 0.012, respectively). A >30% relative LFC reduction was achieved by 50.0% and 39.3% of patients in the VONA-100QD and VONA-200QD arms, respectively, but only in 12.5% in the placebo arm. Reductions in body weight, liver enzymes, and corrected T1 were also observed with vonafexor. Creatinine-based glomerular filtration rate improved in the active arms but not the placebo arm. Mild to moderate generalised pruritus was reported in 6.3%, 9.7%, and 18.2% of participants in the placebo, VONA-100QD, and VONA-200QD arms, respectively., Conclusions: In patients with suspected fibrotic NASH, vonafexor was safe and induced potent liver fat reduction, improvement in liver enzymes, weight loss, and a possible renal benefit., Clinical Trial Number (eudract): 2018-003119-22., Gov Identifier: NCT03812029., Impact and Implications: Non-alcoholic steatohepatitis (NASH) has become a leading cause of chronic liver disease worldwide. Affected patients are also at higher risk of developing chronic kidney disease. There are no approved therapies and only few options to treat this population. The phase IIa LIVIFY trial results show that single daily administration of oral vonafexor, an FXR agonist, leads in the short term to a reduction in liver fat, liver enzymes, fibrosis biomarkers, body weight and abdominal circumference, and a possible improvement in kidney function, while possible mild moderate pruritus (a peripheral FXR class effect) and an LDL-cholesterol increase are manageable with lower doses and statins. These results support exploration in longer and larger trials, with the aim of addressing the unmet medical need in NASH., (Copyright © 2022 The Authors. Published by Elsevier B.V. All rights reserved.)

Published
2023
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12. Farnesoid X receptor agonist for the treatment of chronic hepatitis B: A safety study.

Author

Erken R, Andre P, Roy E, Kootstra N, Barzic N, Girma H, Laveille C, Radreau-Pierini P, Darteil R, Vonderscher J, Scalfaro P, Tangkijvanich P, Flisiak R, and Reesink H

Subjects
Antiviral Agents adverse effects, DNA, Viral, Hepatitis B Surface Antigens, Hepatitis B e Antigens, Hepatitis B virus genetics, Humans, Hepatitis B, Chronic drug therapy, Pharmaceutical Preparations
Abstract

The nuclear farnesoid X receptor (FXR) regulates bile acid homeostasis and is a drug target for metabolic liver diseases. FXR also plays an important role in hepatitis B virus (HBV) DNA transcription. In vitro and in mice, FXR agonist treatment leads to inhibition of viral replication and a decline in viral proteins, pregenomic RNA (pgRNA) and HBV DNA levels. We aimed to translate this to a clinical use by primarily evaluating the safety and secondary the anti-viral effect of Vonafexor, a FXR agonist, in chronic hepatitis B (CHB) patients. In total, 73 CHB patients were enrolled in a two-part Phase Ib double-blind, placebo-controlled trial. Patients were randomized to receive oral Vonafexor (100, 200 and 400 mg once daily, or 200 mg twice daily), placebo, or entecavir (Part A, n = 48) or to receive Vonafexor (300 mg once daily or 150 mg twice daily), or placebo, combined with pegylated-interferon-α2a (Part B, n = 25) for 29 days. Patients were followed up for 35 days. Enrolled CHB patients were mostly HBeAg-negative. Vonafexor was overall well tolerated and safe. The most frequent adverse events were moderate gastrointestinal events. Pruritus was more frequent with twice-daily compared with once-daily regimens (56%-67% vs. 16%, respectively, p < 0.05). Vonafexor monotherapy of 400 mg once daily decreased HBsAg concentrations (-0.1 log 10  IU/mL, p < 0.05), and Vonafexor/pegylated-IFN-α2a combination therapy decreased HBcrAg and pgRNA. In conclusion, Vonafexor was safe with a decline in HBV markers observed in CHB patients suggesting a potential anti-viral effect the therapeutic potential of which has to be evaluated in larger trials., (© 2021 The Authors. Journal of Viral Hepatitis published by John Wiley & Sons Ltd.)

Published
2021
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13. A blood-based biomarker panel (NIS4) for non-invasive diagnosis of non-alcoholic steatohepatitis and liver fibrosis: a prospective derivation and global validation study.

Author

Harrison SA, Ratziu V, Boursier J, Francque S, Bedossa P, Majd Z, Cordonnier G, Sudrik FB, Darteil R, Liebe R, Magnanensi J, Hajji Y, Brozek J, Roudot A, Staels B, Hum DW, Megnien SJ, Hosmane S, Dam N, Chaumat P, Hanf R, Anstee QM, and Sanyal AJ

Subjects
Area Under Curve, Biomarkers blood, Biopsy methods, Clinical Chemistry Tests methods, Clinical Chemistry Tests standards, Clinical Decision Rules, Disease Progression, Elasticity Imaging Techniques methods, Humans, Patient Acuity, Predictive Value of Tests, Risk Assessment methods, Chitinase-3-Like Protein 1 analysis, Glycated Hemoglobin analysis, Liver metabolism, Liver pathology, Liver Cirrhosis blood, Liver Cirrhosis diagnosis, MicroRNAs analysis, Non-alcoholic Fatty Liver Disease blood, Non-alcoholic Fatty Liver Disease diagnosis, alpha-Macroglobulins analysis
Abstract

Background: Non-invasive tests that can identify patients with non-alcoholic steatohepatitis (NASH) at higher risk of disease progression are lacking. We report the development and validation of a blood-based diagnostic test to non-invasively rule in and rule out at-risk NASH (defined as non-alcoholic fatty liver disease [NAFLD] activity score [NAS] ≥4 and fibrosis stage ≥2)., Methods: In this prospective derivation and global validation study, blood samples, clinical data, and liver biopsy results from three independent cohorts with suspected NAFLD were used to develop and validate a non-invasive blood-based diagnostic test, called NIS4. Derivation was done in the discovery cohort, which comprised 239 prospectively recruited patients with biopsy-confirmed NASH (NAFLD NAS ≥3; fibrosis stage 0-3) from the international GOLDEN-505 phase 2b clinical trial. A complete matrix based on 23 variables selected for univariate association with the presence of at-risk NASH and avoiding high multi-collinearity was used to derive the model in a bootstrap-based process that minimised the Akaike information criterion. The overall diagnostic performance of NIS4 was externally validated in two independent cohorts: RESOLVE-IT diag and Angers. The RESOLVE-IT diag cohort comprised the first 475 patients screened for potential inclusion into the RESOLVE-IT phase 3 clinical trial. Angers was a retrospective cohort of 227 prospectively recruited patients with suspected NAFLD and clinical risk factors for NASH or fibrosis stage 2 or more according to abnormal elastography results or abnormal liver biochemistry. Both external validation cohorts were independently analysed and were combined into a pooled validation cohort (n=702) to assess clinical performance of NIS4 and other non-invasive tests., Findings: The derived NIS4 algorithm comprised four independent NASH-associated biomarkers (miR-34a-5p, alpha-2 macroglobulin, YKL-40, and glycated haemoglobin; area under the receiver operating characteristics curve [AUROC] 0·80, 95% CI 0·73-0·85), and did not require adjustment for age, sex, body-mass index (BMI), or aminotransferase concentrations. Clinical cutoffs were established within the discovery cohort to optimise both rule out and rule in clinical performance while minimising indeterminate results. NIS4 was validated in the RESOLVE-IT diag cohort (AUROC 0·83, 95% CI 0·79-0·86) and the Angers cohort (0·76, 0·69-0·82). In the pooled validation cohort, patients with a NIS4 value less than 0·36 were classified as not having at-risk NASH (ruled out) with 81·5% (95% CI 76·9-85·3) sensitivity, 63·0% (57·8-68·0) specificity, and a negative predictive value of 77·9% (72·5-82·4), whereas those with a NIS4 value of more than 0·63 were classified as having at-risk NASH (ruled in) with 87·1% (83·1-90·3) specificity, 50·7% (45·3-56·1) sensitivity, and a positive predictive value of 79·2% (73·1-84·2). The diagnostic performance of NIS4 within the external validation cohorts was not influenced by age, sex, BMI, or aminotransferase concentrations., Interpretation: NIS4 is a novel blood-based diagnostic that provides an effective way to non-invasively rule in or rule out at-risk NASH in patients with metabolic risk factors and suspected disease. Use of NIS4 in clinical trials or in the clinic has the potential to greatly reduce unnecessary liver biopsies in patients with lower risk of disease progression., Funding: Genfit., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published
2020
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14. PPARα is involved in the multitargeted effects of a pretreatment with atorvastatin in experimental stroke.

Author

Ouk T, Potey C, Laprais M, Gautier S, Hanf R, Darteil R, Staels B, Duriez P, and Bordet R

Subjects
Animals, Atorvastatin, Cerebral Cortex drug effects, Cerebral Cortex metabolism, Cerebral Cortex pathology, Disease Models, Animal, Gene Expression drug effects, Heptanoic Acids administration & dosage, Intercellular Adhesion Molecule-1 genetics, Intercellular Adhesion Molecule-1 metabolism, Interleukin-6 blood, Lipids blood, Mice, Inbred C57BL, Mice, Knockout, Neuroprotective Agents administration & dosage, Nitric Oxide Synthase Type II genetics, Nitric Oxide Synthase Type II metabolism, PPAR alpha genetics, Pyrroles administration & dosage, Stroke immunology, Stroke metabolism, Stroke pathology, Vascular Cell Adhesion Molecule-1 genetics, Vascular Cell Adhesion Molecule-1 metabolism, Heptanoic Acids therapeutic use, Neuroprotective Agents therapeutic use, PPAR alpha metabolism, Pyrroles therapeutic use, Stroke prevention & control
Abstract

There is now substantial data in the literature showing that statins can protect against cerebral ischemia. This neuroprotective potency is related to their pleiotropic effects that modulate various pathways implicated in the pathophysiology of stroke. It has been demonstrated that statins exert anti-inflammatory and vasculoprotective effects, thus contributing to a reduction in infarct size. The underlying mechanisms are still incompletely known. As a cross-talk between statins and the nuclear receptor PPARα has been described, we hypothesized that this cross-talk is necessary to neuroprotection in stroke. We studied the effects of a 14-day preventive atorvastatin treatment (10 mg/kg/day) on C57Bl6 wild-type and PPARα-KO mice submitted to experimental stroke. PPARα was involved in the atorvastatin-induced neuroprotective effect, as confirmed by the measurement of infarct volumes. We also evidenced that the anti-inflammatory action of atorvastatin is mediated, at least partly, by PPARα. The decrease in IL-6 plasmatic levels was PPARα dependent. The cerebral expression of the adhesion molecules ICAM-1 and vascular cell adhesion molecule was reduced by the atorvastatin treatment, and this effect was PPARα dependent in the cortex but not in the striatum of treated animals. Atorvastatin also diminished the cerebral expression of iNOS in the cortex, but had no effect in the striatum of treated mice, whatever the PPARα status. At the vascular level, we found that the atorvastatin-related endothelial nitric oxide synthase upregulation was regulated by PPARα in the aorta, while there was no effect in the brain. We demonstrate here that PPARα is a key mediator of the multitargeted neuroprotective effects of statins in stroke., (© 2013 The Authors Fundamental and Clinical Pharmacology © 2013 Société Française de Pharmacologie et de Thérapeutique.)

Published
2014
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15. Phosphorylation of farnesoid X receptor by protein kinase C promotes its transcriptional activity.

Author

Gineste R, Sirvent A, Paumelle R, Helleboid S, Aquilina A, Darteil R, Hum DW, Fruchart JC, and Staels B

Subjects
Amino Acid Sequence, Amino Acid Substitution, Base Sequence, Binding Sites genetics, Calcium metabolism, Cell Line, DNA genetics, DNA metabolism, DNA-Binding Proteins agonists, DNA-Binding Proteins chemistry, DNA-Binding Proteins genetics, Heat-Shock Proteins metabolism, Humans, Ligands, Molecular Sequence Data, Mutagenesis, Site-Directed, Peroxisome Proliferator-Activated Receptor Gamma Coactivator 1-alpha, Phosphorylation, Protein Kinase C-alpha antagonists & inhibitors, Protein Kinase Inhibitors pharmacology, Protein Structure, Tertiary, Receptors, Cytoplasmic and Nuclear agonists, Receptors, Cytoplasmic and Nuclear chemistry, Receptors, Cytoplasmic and Nuclear genetics, Recombinant Proteins chemistry, Recombinant Proteins genetics, Recombinant Proteins metabolism, Signal Transduction, Tetradecanoylphorbol Acetate pharmacology, Transcription Factors agonists, Transcription Factors chemistry, Transcription Factors genetics, Transcriptional Activation drug effects, DNA-Binding Proteins metabolism, Protein Kinase C-alpha metabolism, Receptors, Cytoplasmic and Nuclear metabolism, Transcription Factors metabolism
Abstract

The farnesoid X receptor (FXR, NR1H4) belongs to the nuclear receptor superfamily and is activated by bile acids such as chenodeoxycholic acid, or synthetic ligands such as GW4064. FXR is implicated in the regulation of bile acid, lipid, and carbohydrate metabolism. Posttranslational modifications regulating its activity have not been investigated yet. Here, we demonstrate that calcium-dependent protein kinase C (PKC) inhibition impairs ligand-mediated regulation of FXR target genes. Moreover, in a transactivation assay, we show that FXR transcriptional activity is modulated by PKC. Furthermore, phorbol 12-myristate 13-acetate , a PKC activator, induces the phosphorylation of endogenous FXR in HepG2 cells and PKCalpha phosphorylates in vitro FXR in its DNA-binding domain on S135 and S154. Mutation of S135 and S154 to alanine residues reduces in cell FXR phosphorylation. In contrast to wild-type FXR, mutant FXRS135AS154A displays an impaired PKCalpha-induced transactivation and a decreased ligand-dependent FXR transactivation. Finally, phosphorylation of FXR by PKC promotes the recruitment of peroxisomal proliferator-activated receptor gamma coactivator 1alpha. In conclusion, these findings show that the phosphorylation of FXR induced by PKCalpha directly modulates the ability of agonists to activate FXR.

Published
2008
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16. The farnesoid X receptor induces fetuin-B gene expression in human hepatocytes.

Author

Murakami T, Walczak R, Caron S, Duhem C, Vidal V, Darteil R, and Staels B

Subjects
Alternative Splicing, Amino Acid Sequence, Animals, Base Sequence, Cell Line, Tumor, DNA-Binding Proteins agonists, Fetuin-B, Gene Expression Profiling, Humans, Mice, Molecular Sequence Data, Promoter Regions, Genetic, Receptors, Cytoplasmic and Nuclear agonists, Transcription Factors agonists, DNA-Binding Proteins physiology, Hepatocytes metabolism, Receptors, Cytoplasmic and Nuclear physiology, Transcription Factors physiology, Up-Regulation physiology, alpha-Fetoproteins biosynthesis, alpha-Fetoproteins genetics
Abstract

FXR (farnesoid X receptor), a nuclear receptor activated by BAs (bile acids), is a key factor in the regulation of BA, lipid and carbohydrate metabolism. The recent development of synthetic FXR agonists and knockout mouse models has accelerated the discovery of FXR target genes. In the present study, we identify human fetuin-B as a novel FXR target gene. Treatment with FXR agonists increased fetuin-B expression in human primary hepatocytes and in the human hepatoma HepG2 cell line. In contrast, fetuin-B expression was not responsive to FXR agonist treatment in murine primary hepatocytes. Fetuin-B induction by FXR agonist was abolished upon FXR knockdown by siRNA (small interfering RNA). In addition to the previously described P1 promoter, we show that the human fetuin-B gene is also transcribed from an alternative promoter, termed P2. Transcription via the P2 promoter was induced by FXR agonist treatment, whereas P1 promoter activity was not sensitive to FXR agonist treatment. Two putative FXR-response elements [IR-1 (inverted repeat-1)] were identified in the region -1.6 kb upstream of the predicted P2 transcriptional start site. Both motifs bound FXR-RXR (retinoid X receptor) complexes in vitro and were activated by FXR in transient transfection reporter assays. Mutations in the IR-1 sites abolished FXR-RXR binding and activation. Taken together, these results identify human fetuin-B as a new FXR target gene in human hepatocytes.

Published
2007
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17. The farnesoid X receptor induces very low density lipoprotein receptor gene expression.

Author

Sirvent A, Claudel T, Martin G, Brozek J, Kosykh V, Darteil R, Hum DW, Fruchart JC, and Staels B

Subjects
Animals, Bile Acids and Salts pharmacology, Cell Line, Tumor, Chenodeoxycholic Acid pharmacology, DNA-Binding Proteins agonists, DNA-Binding Proteins deficiency, DNA-Binding Proteins genetics, Hepatocytes metabolism, Humans, Isoxazoles pharmacology, Liver metabolism, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, RNA, Small Interfering pharmacology, Receptors, Cytoplasmic and Nuclear, Receptors, LDL genetics, Time Factors, Transcription Factors agonists, Transcription Factors deficiency, Transcription Factors genetics, Transcription, Genetic drug effects, Transcription, Genetic physiology, Transfection, Up-Regulation drug effects, DNA-Binding Proteins physiology, Receptors, LDL biosynthesis, Transcription Factors physiology
Abstract

The farnesoid X receptor (FXR) is a nuclear receptor activated by bile acids (BAs). In response to ligand-binding, FXR regulates many genes involved in BA, lipid, and lipoprotein metabolism. To identify new FXR target genes, microarray technology was used to profile total RNA extracted from HepG2 cells treated with the natural FXR agonist chenodeoxycholic acid (CDCA). Interestingly, a significant increase of transcript level of the very low density lipoprotein receptor (VLDLR) was observed. Our data, resulting from selective FXR activation, FXR RNA silencing and FXR-deficient mice, clearly demonstrate that BAs up-regulate VLDLR transcript levels via a FXR-dependent mechanism in vitro in human and in vivo in mouse liver cells.

Published
2004
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18. Stringent rosiglitazone-dependent gene switch in muscle cells without effect on myogenic differentiation.

Author

Tascou S, Sorensen TK, Glénat V, Wang M, Lakich MM, Darteil R, Vigne E, and Thuillier V

Subjects
Amino Acid Substitution, Animals, Cell Differentiation, Cell Line, DNA-Binding Proteins metabolism, Genes, Reporter genetics, Genetic Vectors genetics, Luciferases analysis, Luciferases genetics, Mice, Muscle Fibers, Skeletal cytology, Mutation, Myoblasts metabolism, Promoter Regions, Genetic, Protein Binding, Receptors, Glucocorticoid genetics, Response Elements, Rosiglitazone, Transfection, Gene Expression Regulation, Muscle Fibers, Skeletal metabolism, Thiazolidinediones pharmacology
Abstract

We have developed a gene switch based on the human transcription factor peroxisome proliferator-activated receptor gamma (PPARgamma) and its activation by rosiglitazone. However, ectopic expression of PPARgamma has been demonstrated to convert myogenic cells into adipocyte-like cells and, more generally, may interfere with the physiology of the target tissue. Consequently we modified the DNA-binding specificity of PPARgamma, resulting in a transcription factor that we named PPAR*. We demonstrated by histological and molecular assessment of cell phenotype that the overexpression of PPAR* did not alter the myogenic differentiation program of G8 myoblasts. We showed that PPAR* does not transactivate promoters containing PPARgamma-responsive elements but transactivates promoters containing PPAR*-responsive elements that are at least 80% identical to a 20-bp consensus. We improved the rosiglitazone-dependent gene switch by tuning PPAR* expression with a scaffold/matrix attachment region and by expressing both PPAR* and the reporter gene under the control of PPAR*-responsive elements. Treatment of cultured murine muscle cells (myotubes) with rosiglitazone induced reporter gene expression from assay background up to the level attained by a CMV I/E promoter-enhancer. These results indicate the potential of the PPAR* gene switch for use in gene therapy applications.

Published
2004
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19. Efficient gene regulation by PPAR gamma and thiazolidinediones in skeletal muscle and heart.

Author

Darteil R, Wang M, Latta-Mahieu M, Caron A, Mahfoudi A, Staels B, and Thuillier V

Subjects
Animals, Female, Genes, Reporter, Heart drug effects, Humans, Kinetics, Luciferases genetics, Male, Mice, Mice, Inbred C57BL, Mice, SCID, Muscle, Skeletal drug effects, Muscle, Skeletal metabolism, Myocardium metabolism, Rats, Rats, Sprague-Dawley, Receptors, Cytoplasmic and Nuclear agonists, Rosiglitazone, Transcription Factors agonists, Gene Expression Regulation drug effects, Receptors, Cytoplasmic and Nuclear metabolism, Thiazoles pharmacology, Thiazolidinediones, Transcription Factors metabolism
Abstract

We have developed a new gene regulation system for gene therapy. This system consists of two expression cassettes; one expresses the human peroxisome proliferator-activated receptor gamma(PPAR gamma), and the other expresses the therapeutic gene under the control of multiple peroxisome proliferator-activated receptor (PPAR) response elements (PPREs) linked to a basal promoter. Using direct injection of plasmid DNA into skeletal muscle or myocardium of rodents and oral administration of clinically approved PPAR gamma activators, we demonstrate that reporter gene expression can be induced more than 25-fold. We show that oral administration of PPAR gamma activator at intervals separated by several months results in repeated pulses of high-level reporter gene expression. We also document a PPAR gamma activator dose-response effect on reporter gene expression. This is the first report of a gene regulation system that makes use of a human transcription factor and that may be safer than chimeric transcription factors for human gene therapy.

Published
2002
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20. High-level protein secretion into blood circulation after electric pulse-mediated gene transfer into skeletal muscle.

Author

Bettan M, Emmanuel F, Darteil R, Caillaud JM, Soubrier F, Delaere P, Branelec D, Mahfoudi A, Duverger N, and Scherman D

Subjects
Alkaline Phosphatase blood, Alkaline Phosphatase genetics, Animals, Factor IX genetics, Female, Humans, Mice, Mice, Inbred C57BL, Mice, Nude, Mice, SCID, Muscle, Skeletal enzymology, Muscle, Skeletal metabolism, Alkaline Phosphatase metabolism, Electroporation methods, Factor IX metabolism, Gene Transfer Techniques
Abstract

Numerous diseases are linked to the absence or insufficient concentration of a specific plasma protein. Gene transfer is an appealing strategy for correction of such diseases. We report high and sustained plasma secretion of human secreted alkaline phosphatase and of human Factor IX by skeletal muscle of mice. This was obtained by delivering square-wave unipolar electric pulses of low field strength (200 V/cm) and long duration (20 ms) to skeletal muscle previously injected with plasmid DNA encoding for the secreted protein. This intramuscular electrotransfer method allows 30- to 150-fold increase in reporter protein secretion, compared to simple plasmid DNA injection. This increase allows one to obtain values of up to 2200 ng/ml of a reporter circulating protein. Moreover, this high level of secretion remains stable for several months.

Published
2000
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22. Herpesvirus of turkey recombinant viruses expressing infectious bursal disease virus (IBDV) VP2 immunogen induce protection against an IBDV virulent challenge in chickens.

Author

Darteil R, Bublot M, Laplace E, Bouquet JF, Audonnet JC, and Rivière M

Subjects
Animals, Base Sequence, Birnaviridae Infections immunology, Chick Embryo, Chickens, Herpesviridae immunology, Infectious bursal disease virus pathogenicity, Infectious bursal disease virus physiology, Marek Disease immunology, Marek Disease prevention & control, Molecular Sequence Data, Promoter Regions, Genetic, Transfection, Turkey, Viral Structural Proteins immunology, Virulence, Virus Replication, Birnaviridae Infections prevention & control, Herpesviridae genetics, Infectious bursal disease virus genetics, Vaccines, Synthetic therapeutic use, Viral Structural Proteins genetics
Abstract

Two recombinant herpesviruses of turkey (HVT) expressing the VP2 protein of infectious bursal disease virus (IBDV or Gumboro disease virus) have been constructed: vHVT001 and vHVT002. The VP2 open reading frame was inserted at the locus of the small subunit of ribonucleotide reductase gene (HSV-1 UL40 homolog) without any exogenous promoter in vHVT001 and at the locus of gl gene (HSV-1 US7 homolog) under the control of the human cytomegalovirus immediate-early promoter in vHVT002. The isolation of these recombinant viruses indicated that the deleted genes were not required for replication of HVT in chicken embryo fibroblasts. Efficacy of these recombinant viruses against IBDV strain 52/70 and Marek's disease virus (MDV strain RB1B) virulent challenges was evaluated in chickens vaccinated at 1 day of age. In the IBDV challenge, a good protection against mortality and bursal gross lesion was observed in vHVT002-vaccinated chickens: 100% with 10(5) PFU dose and 60% with 10(4) PFU dose; in contrast, only a weak level of protection was achieved after vaccination with vHVT001. Protection levels against MDV challenge obtained with vHVT001 and vHVT002 were low (around 10%) compared to that induced by the parental HVT (84%). In spite of the low protection level against MDV, this is the first report which describes induction of full protection against IBDV with a single inoculation of a recombinant virus.

Published
1995
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