2014
- MapZ marks the division sites and positions FtsZ rings in Streptococcus pneumoniae
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Fleurie, A; Lesterlin, C; Manuse, S; Zhao, C; Cluze, C; Lavergne, JP; Franz-Wachtel, M; Macek, B; Combet, C; Kuru, E; Van Nieuwenhze, MS; Bruns, YV; Sherratt, D; Grangeasse, C
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NATURE
- Acknowledged platforms: PSF, PLATIM
Abstract :
In every living organism, cell division requires accurate identification of the division site and placement of the division machinery. In bacteria, this process is traditionally considered to begin with the polymerization of the highly conserved tubulin-like protein FtsZinto a ring that locates precisely at mid-cell(1). Over the past decades, several systems have been reported to regulate the spatiotemporal assembly and placement of the FtsZ ring(2-5). However, the human pathogen Streptococcus pneumoniae, in common with many other organisms, is devoid of these canonical systems and the mechanisms of positioning the division machinery remain unknown(4,6). Here we characterize a novel factor that locates at the division site before FtsZ and guides septum positioning in pneumococcus. Mid-cell-anchored protein Z (MapZ) forms ring structures at the cell equator and moves apart as the cell elongates, therefore behaving as a permanent beacon of division sites. MapZ then positions the FtsZ ring through direct protein-protein interactions. MapZ-mediated control differs from previously described systems mostly on the basis of negative regulation of FtsZ assembly. Furthermore, MapZ is an endogenous target of the Ser/Thr kinase StkP, which was recently shown to have a central role in cytokinesis and morphogenesis of S. pneumoniae(7-9). We show that both phosphorylated and non-phosphorylated forms of MapZ are required for proper Z-ring formation and dynamics. Altogether, this work uncovers a new mechanism for bacterial cell division that is regulated by phosphorylation and illustrates that nature has evolved a diversity of cell division mechanisms adapted to the different bacterial clades.
DEC 11 2014
DOI : 10.1038/nature13966
Pubmed : 25470041
- Loss-of-Function Mutations in WDR73 Are Responsible for Microcephaly and Steroid-Resistant Nephrotic Syndrome: Galloway-Mowat Syndrome
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Colin, E; Cong, EH; Mollet, G; Guichet, A; Gribouval, O; Arrondel, C; Boyer, O; Daniel, L; Gubler, MC; Ekinci, Z; Tsimaratos, M; Chabrol, B; Boddaert, N; Verloes, A; Chevrollier, A; Gueguen, N; Desquiret-Dumas, V; Ferre, M; Procaccio, V; Richard, L; Funalot, B; Moncla, A; Bonneau, D; Antignac, C
AMERICAN JOURNAL OF HUMAN GENETICS
- Acknowledged platform: Vectorology
Abstract :
Galloway-Mowat syndrome is a rare autosomal-recessive condition characterized by nephrotic syndrome associated with microcephaly and neurological impairment. Through a combination of autozygosity mapping and whole-exome sequencing, we identified WDR73 as a gene in which mutations cause Galloway-Mowat syndrome in two unrelated families. WDR73 encodes a WD40-repeat-containing protein of unknown function. Here, we show that WDR73 was present in the brain and kidney and was located diffusely in the cytoplasm during interphase but relocalized to spindle poles and astral microtubules during mitosis. Fibroblasts from one affected child and WDR73-depleted podocytes displayed abnormal nuclear morphology, low cell viability and alterations of the microtubule network. These data suggest that WDR73 plays a crucial role in the maintenance of cell architecture and cell survival. Altogether, WDR73 mutations cause Galloway-Mowat syndrome in a particular subset of individuals presenting with late-onset nephrotic syndrome, postnatal microcephaly, severe intellectual disability and homogenous brain MRI features. WDR73 is another example of a gene involved in a disease affecting both the kidney glomerulus and the CNS.
DEC 4 2014
DOI : 10.1016/j.ajhg.2014.10.011
Pubmed : 25466283
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IFITM proteins are incorporated onto HIV-1 virion particles and negatively imprint their infectivity
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Tartour, K; Appourchaux, R; Gaillard, J; Nguyen, XN; Durand, S; Turpin, J; Beaumont, E; Roch, E; Berger, G; Mahieux, R; Brand, D; Roingeard, P; Cimarelli, A
RETROVIROLOGY
- Acknowledged platform: AGC
Abstract :
Background: Interferon induced transmembrane proteins 1, 2 and 3 (IFITMs) belong to a family of highly related antiviral factors that have been shown to interfere with a large spectrum of viruses including Filoviruses, Coronaviruses, Influenza virus, Dengue virus and HIV-1. In all these cases, the reported mechanism of antiviral inhibition indicates that the pool of IFITM proteins present in target cells blocks incoming viral particles in endosomal vesicles where they are subsequently degraded. Results: In this study, we describe an additional mechanism through which IFITMs block HIV-1. In virus-producing cells, IFITMs coalesce with forming virions and are incorporated into viral particles. Expression of IFITMs during virion assembly leads to the production of virion particles of decreased infectivity that are mostly affected during entry in target cells. This mechanism of inhibition is exerted against different retroviruses and does not seem to be dependent on the type of Envelope present on retroviral particles. Conclusions: The results described here identify a novel mechanism through which IFITMs affect HIV-1 infectivity during the late phases of the viral life cycle. Put in the context of data obtained by other laboratories, these results indicate that IFITMs can target HIV at two distinct moments of its life cycle, in target cells as well as in virus-producing cells. These results raise the possibility that IFITMs could similarly affect distinct steps of the life cycle of a number of other viruses.
nov-25 2014
DOI : 10.1186/s12977-014-0103-y
Pubmed : 25422070
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The staphylococcal toxins gamma-haemolysin AB and CB differentially target phagocytes by employing specific chemokine receptors
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Spaan, AN; Vrieling, M; Wallet, P; Badiou, C; Reyes-Robles, T; Ohneck, EA; Benito, Y; de Haas, CJC; Day, CJ; Jennings, MP; Lina, G; Vandenesch, F; van Kessel, KPM; Torres, VJ; van Strijp, JAG; Henry, T
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NATURE COMMUNICATIONS
- Acknowledged platforms: PBES, Cytometry, ImmOs
Abstract :
Evasion of the host phagocyte response by Staphylococcus aureus is crucial to successful infection with the pathogen. gamma-haemolysin AB and CB (HlgAB, HlgCB) are bicomponent pore-forming toxins present in almost all human S. aureus isolates. Cellular tropism and contribution of the toxins to S. aureus pathophysiology are poorly understood. Here we identify the chemokine receptors CXCR1, CXCR2 and CCR2 as targets for HlgAB, and the complement receptors C5aR and C5L2 as targets for HlgCB. The receptor expression patterns allow the toxins to efficiently and differentially target phagocytic cells. Murine neutrophils are resistant to HlgAB and HlgCB. CCR2 is the sole murine receptor orthologue compatible with gamma-haemolysin. In a murine peritonitis model, HlgAB contributes to S. aureus bacteremia in a CCR2-dependent manner. HlgAB-mediated targeting of CCR2(+) cells highlights the involvement of inflammatory macrophages during S. aureus infection. Functional quantification identifies HlgAB and HlgCB as major secreted staphylococcal leukocidins.
Nov 2014
DOI : 10.1038/ncomms6438
Pubmed : 25384670
- Epstein-Barr Virus Late Gene Transcription Depends on the Assembly of a Virus-Specific Preinitiation Complex
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Aubry, V; Mure, F; Mariame, B; Deschamps, T; Wyrwicz, LS; Manet, E; Gruffat, H
JOURNAL OF VIROLOGY
- Acknowledged platforms: AGC, Cytometry, PLATIM
Abstract :
During their productive cycle, herpesviruses exhibit a strictly regulated temporal cascade of gene expression that has three general stages: immediate early (IE), early (E), and late (L). Promoter complexity differs strikingly between IE/E genes and L genes. IE and E promoters contain cis-regulating sequences upstream of a TATA box, whereas L promoters comprise a unique cis element. In the case of the gammaherpesviruses, this element is usually a TATT motif found in the position where the consensus TATA box of eukaryotic promoters is typically found. Epstein-Barr virus (EBV) encodes a protein, called BcRF1, which has structural homology with the TATA-binding protein and interacts specifically with the TATT box. However, although necessary for the expression of the L genes, BcRF1 is not sufficient, suggesting that other viral proteins are also required. Here, we present the identification and characterization of a viral protein complex necessary and sufficient for the expression of the late viral genes. This viral complex is composed of five different proteins in addition to BcRF1 and interacts with cellular RNA polymerase II. During the viral productive cycle, this complex, which we call the vPIC (for viral preinitiation complex), works in concert with the viral DNA replication machinery to activate expression of the late viral genes. The EBV vPIC components have homologs in beta- and gammaherpesviruses but not in alphaherpesviruses. Our results not only reveal that beta- and gammaherpesviruses encode their own transcription preinitiation complex responsible for the expression of the late viral genes but also indicate the close evolutionary history of these viruses. IMPORTANCE Control of late gene transcription in DNA viruses is a major unsolved question in virology. In eukaryotes, the first step in transcriptional activation is the formation of a permissive chromatin, which allows assembly of the preinitiation complex (PIC) at the core promoter. Fixation of the TATA box-binding protein (TBP) is a key rate-limiting step in this process. This study provides evidence that EBV encodes a complex composed of six proteins necessary for the expression of the late viral genes. This complex is formed around a viral TBP-like protein and interacts with cellular RNA polymerase II, suggesting that it is directly involved in the assembly of a virus-specific PIC (vPIC).
NOV 2014
DOI : 10.1128/JVI.02139-14
Pubmed : 25165108
- Estrogen-related receptor a decreases RHOA stability to induce orientated cell migration
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Sailland, J; Tribollet, V; Forcet, C; Billon, C; Barenton, B; Carnesecchi, J; Bachmann, A; Gauthier, KC; Yu, S; Giguere, V; Chan, FL; Vanacker, JM
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PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
- Acknowledged platforms: PBES, PLATIM
Abstract :
Several physiopathological processes require orientated cellular migration. This phenomenon highly depends on members of the RHO family of GTPases. Both excessive and deficient RHO activity impair directional migration. A tight control is thus exerted on these proteins through the regulation of their activation and of their stability. Here we show that the estrogen-related receptor a (ERRa) directly activates the expression of TNFAIP1, the product of which [BTB/POZ domain-containing adapter for Cullin3-mediated RhoA degradation 2 (BACURD2)] regulates RHOA protein turnover. Inactivation of the receptor leads to enhanced RHOA stability and activation. This results in cell disorientation, increased actin network, and inability to form a lamellipodium at the migration edge. As a consequence, directional migration, but not cell motility per se, is impaired in the absence of the receptor, under pathological as well as physiological conditions. Altogether, our results show that the control exerted by ERRa on RHOA stability is required for directional migration.
OCT 21 2014
DOI : 10.1073/pnas.1402094111
Pubmed : 25288732
- ABCG2, a novel antigen to sort luminal progenitors of BRCA1(-) breast cancer cells
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Leccia, F; Del Vecchio, L; Mariotti, E; Di Noto, R; Morel, AP; Puisieux, A; Salvatore, F; Ansieau, S
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MOLECULAR CANCER
- Acknowledged platform: Cytometry
Abstract :
Introduction: Tumor-initiating cells (TICs), aka "cancer stem cells", are believed to fuel tumors and to sustain therapy resistance and systemic metastasis. Breast cancer is the first human carcinoma in which a subpopulation of cells displaying a specific CD44(+)/CD24(-/low)/ESA(+) antigenic phenotype was found to have TIC properties. However, CD44(+)/CD24(-/low)/ESA(+) is not a universal marker phenotype of TICs in all breast cancer subtypes. The aim of this study was to identify novel antigens with which to isolate the TIC population of the basal-A/basal-like breast cancer cell lines. Methods: We used polychromatic flow-cytometry to characterize the cell surface of several breast cancer cell lines that may represent different tumor molecular subtypes. We next used fluorescence-activated cell sorting to isolate the cell subpopulations of interest from the cell lines. Finally, we explored the stem-like and tumorigenic properties of the sorted cell subpopulations using complementary in vitro and in vivo approaches: mammosphere formation assays, soft-agar colony assays, and tumorigenic assays in NOD/SCID mice. Results: The CD44(+)/CD24(+) subpopulation of the BRCA1-mutated basal-A/basal-like cell line HCC1937 is enriched in several stemness markers, including the ABCG2 transporter (i.e., the CD338 antigen). Consistently, CD338-expressing cells were also enriched in CD24 expression, suggesting that coexpression of these two antigenic markers may segregate TICs in this cell line. In support of ABCG2 expression in TICs, culturing of HCC1937 cells in ultra-low adherent conditions to enrich them in precursor/stem-cells resulted in an increase in CD338-expressing cells. Furthermore, CD338-expressing cells, unlike their CD338-negative counterparts, displayed stemness and transformation potential, as assessed in mammosphere and colony formation assays. Lastly, CD338-expressing cells cultured in ultra-low adherent conditions maintained the expression of CD326/EpCAM and CD49f/a6-integrin, which is a combination of antigens previously assigned to luminal progenitors. Conclusion: Collectively, our data suggest that CD338 expression is specific to the tumor-initiating luminal progenitor subpopulation of BRCA1-mutated cells and is a novel antigen with which to sort this subpopulation.
Sept-12 2014
DOI : 10.1186/1476-4598-13-213
Pubmed : 25216750
- The metabolic checkpoint kinase mTOR is essential for IL-15 signaling during the development and activation of NK cells
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Marais, A; Cherfils-Vicini, J; Viant, C; Degouve, S; Viel, S; Fenis, A; Rabilloud, J; Mayol, K; Tavares, A; Bienvenu, J; Gangloff, YG; Gilson, E; Vivier, E; Walzer, T
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NATURE IMMUNOLOGY
- Acknowledged platforms: PBES, Cytometry
Abstract :
Interleukin 15 (IL-15) controls both the homeostasis and the peripheral activation of natural killer (NK) cells. The molecular basis for this duality of action remains unknown. Here we found that the metabolic checkpoint kinase mTOR was activated and boosted bioenergetic metabolism after exposure of NK cells to high concentrations of IL-15, whereas low doses of IL-15 triggered only phosphorylation of the transcription factor STAT5. mTOR stimulated the growth and nutrient uptake of NK cells and positively fed back on the receptor for IL-15. This process was essential for sustaining NK cell proliferation during development and the acquisition of cytolytic potential during inflammation or viral infection. The mTORC 1 inhibitor rapamycin inhibited NK cell cytotoxicity both in mice and humans; this probably contributes to the immunosuppressive activity of this drug in different clinical settings.
AUG 2014
DOI : 10.1038/ni.2936
Pubmed : 24973821
- Dual role for CHOP in the crosstalk between autophagy and apoptosis to determine cell fate in response to amino acid deprivation
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B'chir, W; Chaveroux, C; Carraro, V; Averous, J; Maurin, AC; Jousse, C; Muranishi, Y; Parry, L; Fafournoux, P; Bruhat, A
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CELLULAR SIGNALLING
- Acknowledged platform: Vectorology
Abstract :
CHOP encodes a ubiquitous transcription factor that is one of the most important components in the network of stress-inducible transcription. In particular, this factor is known to mediate cell death in response to stress. The focus of this work is to study its pivotal role in the control of cell viability according to the duration of a stress like amino acid starvation. We show that during the first 6 h of starvation, CHOP upregulates a number of autophagy genes but is not involved in the first steps of the autophagic process. By contrast, when the amino acid starvation is prolonged (16-48 h), we demonstrated that CHOP has a dual role in both inducing apoptosis and limiting autophagy through the transcriptional control of specific target genes. Overall, this study reveals a novel regulatory role for CHOP in the crosstalk between autophagy and apoptosis in response to stress. (C) 2014 Elsevier Inc. All rights reserved.
Juil 2014
DOI : 10.1016/j.cellsig.2014.03.009
Pubmed : 24657471
- Phosphorylation of NBR1 by GSK3 modulates protein aggregation
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Nicot, AS; Lo Verso, F; Ratti, F; Pilot-Storck, F; Streichenberger, N; Sandri, M; Schaeffer, L; Goillot, E
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AUTOPHAGY
- Acknowledged platform: PLATIM
Abstract :
The autophagy receptor NBR1 (neighbor of BRCA1 gene 1) binds UB/ubiquitin and the autophagosome-conjugated MAP1LC3/LC3 (microtubule-associated protein 1 light chain 3) proteins, thereby ensuring ubiquitinated protein degradation. Numerous neurodegenerative and neuromuscular diseases are associated with inappropriate aggregation of ubiquitinated proteins and GSK3 (glycogen synthase kinase 3) activity is involved in several of these proteinopathies. Here we show that NBR1 is a substrate of GSK3. NBR1 phosphorylation by GSK3 at Thr586 prevents the aggregation of ubiquitinated proteins and their selective autophagic degradation. Indeed, NBR1 phosphorylation decreases protein aggregation induced by puromycin or by the DES/desmin N342D mutant found in desminopathy patients and stabilizes ubiquitinated proteins. Importantly, decrease of protein aggregates is due to an inhibition of their formation and not to their autophagic degradation as confirmed by data on Atg7 knockout mice. The relevance of NBR1 phosphorylation in human pathology was investigated. Analysis of muscle biopsies of sporadic inclusion body myositis (sIBM) patients revealed a strong decrease of NBR1 phosphorylation in muscles of sIBM patients that directly correlated with the severity of protein aggregation. We propose that phosphorylation of NBR1 by GSK3 modulates the formation of protein aggregates and that this regulation mechanism is defective in a human muscle proteinopathy.
JUN 2014
DOI : 10.4161/auto.28479
Pubmed : 24879152
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From Bipolar to Quadrupolar Electrode Structures: An Application of Bond-Detach Lithography for Dielectrophoretic Particle Assembly
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Menad, S; El-Gaddar, A; Haddour, N; Toru, S; Brun, M; Buret, F; Frenea-Robin, M
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LANGMUIR
- Acknowledged platform: AGC
Abstract :
We describe a new, simple process for fabricating transparent quadrupolar electrode arrays enabling large-scale particle assembly by means of dielectrophoresis. In the first step, interdigitated electrode arrays are made by chemical wet etching of indium tin oxide (ITO). Then, the transition from a bipolar to a quadrupolar electrode arrangement is obtained by covering the electrode surface with a thin poly(dimethylsiloxane) (PDMS) film acting as an electrical insulation layer in which selective openings are formed using bond-detach lithography. The PDMS insulating layer thickness was optimized and controlled by adjusting experimental parameters such as the PDMS viscosity (modulated by the addition of heptane) and the PDMS spin-coating velocity. The insulating character of the PDMS membrane was successfully demonstrated by performing a dielectrophoretic assembly of polystyrene particles using interdigitated electrodes with and without a PDMS layer. The results show that the patterned PDMS film functions properly as an electrical insulation layer and allows the reconfiguration of the electric field cartography. Electric field simulations were performed in both configurations to predict the dielectrophoretic behavior of the particles. The simulation results are in perfect agreement with experiments, in which we demonstrated the formation of concentrated clusters of polystyrene particles and living cells of regular size and shape.
MAY 20 2014
DOI : 10.1021/la5005193
Pubmed : 24758738
- A novel mode of regulation of the Staphylococcus aureus Vancomycin-resistance-associated response reglator VraR mediated by Stk1 protein phosphorylation
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Canova, MJ; Baronian, G; Brelle, S; Cohen-Gonsaud, M; Bischoff, M; Molle, V
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BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS
- Acknowledged platform: PSF
Abstract :
The Staphylococcus aureus Vancomycin-resistance-associated response regulator VraR is known as an important response regulator, member of the VraTSR three-component signal transduction system that modulates the expression of the cell wall stress stimulon in response to a number of different cell wall active antibiotics. Given its crucial role in regulating gene expression in response to antibiotic challenges, VraR must be tightly regulated. We report here for the first time in S. aureus convergence of two major signal transduction systems, serine/threonine protein kinase and two (three)-component systems. We demonstrate that VraR can be phosphorylated by the staphylococcal Ser/Thr protein kinase Stk1 and that phosphorylation negatively affects its DNA-binding properties. Mass spectrometric analyses and site-directed mutagenesis identified Thr106, Thr119, Thr175 and Thr178 as phosphoacceptors. A S. aureus Delta vraR mutant expressing a VraR derivative that mimics constitutive phosphorylation, VraR_Asp, still exhibited markedly decreased antibiotic resistance against different cell wall active antibiotics, when compared to the wild-type, suggesting that VraR phosphorylation may represent a novel and presumably more general mechanism of regulation of the two (three)-component systems in staphylococci. (C) 2014 Elsevier Inc. All rights reserved.
APR 25 2014
DOI : 10.1016/j.bbrc.2014.03.128
Pubmed : 24704444
- The metabolic sensors FXR alpha, PGC-1 alpha, and SIRT1 cooperatively regulate hepatitis B virus transcription
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Curtil, C; Enache, LS; Radreau, P; Dron, AG; Scholtes, C; Deloire, A; Roche, D; Lotteau, V; Andre, P; Ramiere, C
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FASEB JOURNAL
- Acknowledged platforms: AGC, BSL3
Abstract :
Hepatitis B virus (HBV) genome transcription is highly dependent on liver-enriched, metabolic nuclear receptors (NRs). Among others, NR farnesoid X receptor (FXR) enhances HBV core promoter activity and pregenomic RNA synthesis. Interestingly, two food-withdrawal-induced FXR modulators, peroxisome proliferator-activated receptor- coactivator 1 (PGC-1) and deacetylase SIRT1, have been found to be associated with HBV genomes ex vivo. Whereas PGC-1 induction was shown to increase HBV replication, the effect of SIRT1 on HBV transcription remains unknown. Here, we showed that, in hepatocarcinoma-derived Huh-7 cells, combined activation of FXR by GW4064 and SIRT1 by activator 3 increased HBV core promoter-controlled luciferase expression by 25-fold, compared with a 10-fold increase with GW4064 alone. Using cell lines differentially expressing FXR in overexpression and silencing experiments, we demonstrated that SIRT1 activated the core promoter in an FXR- and PGC-1-dependent manner. Maximal activation (>150-fold) was observed in FXR- and PGC-1-overexpressing Huh-7 cells treated with FXR and SIRT1 activators. Similarly, in cells transfected with full-length HBV genomes, maximal induction (3.5-fold) of core promoter-controlled synthesis of 3.5-kb RNA was observed in the same conditions of transfection and treatments. Thus, we identified a subnetwork of metabolic factors regulating HBV replication, strengthening the hypothesis that transcription of HBV and metabolic genes is similarly controlled.Curtil, C., Enache, L. S., Radreau, P., Dron, A.-G., Scholtes, C., Deloire, A., Roche, D., Lotteau, V., Andre, P., and Ramiere, C. The metabolic sensors FXR, PGC-1, and SIRT1 cooperatively regulate hepatitis B virus transcription.
MAR 2014
DOI : 10.1096/fj.13-236372
Pubmed : 24297698
- Mutation-dependent recessive inheritance of NPHS2-associated steroid-resistant nephrotic syndrome
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Tory, K; Menyhard, DK; Woerner, S; Nevo, F; Gribouval, O; Kerti, A; Straner, P; Arrondel, C; Cong, EH; Tulassay, T; Mollet, G; Perczel, A; Antignac, C
- NATURE GENETICS
- Acknowledged platform: Vectorology
Abstract :
Monogenic disorders result from defects in a single gene. According to Mendel's laws, these disorders are inherited in either a recessive or dominant fashion. Autosomal-recessive disorders require a disease-causing variant on both alleles, and according to our current understanding, their pathogenicities are not influenced by each other. Here we present an autosomal-recessive disorder, nephrotic syndrome type 2 (MIM 600995), in which the pathogenicity of an NPHS2 allele encoding p.Arg229Gln depends on the trans-associated mutation. We show that, contrary to expectations, this allele leads to a disease phenotype only when it is associated specifically with certain 3' NPHS2 mutations because of an altered heterodimerization and mislocalization of the encoded p.Arg229Gln podocin. The disease-associated 3' mutations exert a dominant-negative effect on p.Arg229Gln podocin but behave as recessive alleles when associated with wild-type podocin. Therefore, the transmission rates for couples carrying the disease-associated mutations and p.Arg229Gln may be substantially different from those expected in autosomal-recessive disorders.
MAR 2014
DOI : 10.1038/ng.2898
Pubmed : 24509478
- Comparative transcriptomics reveals RhoE as a novel regulator of actin dynamics in bone-resorbing osteoclasts
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Georgess, D; Mazzorana, M; Terrado, J; Delprat, C; Chamot, C; Guasch, RM; Perez-Roger, I; Jurdic, P; Machuca-Gayet, I
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MOLECULAR BIOLOGY OF THE CELL
- Acknowledged platforms: PLATIM, PBES, Vectorology, PSF
Abstract :
The function of osteoclasts (OCs), multinucleated giant cells (MGCs) of the monocytic lineage, is bone resorption. To resorb bone, OCs form podosomes. These are actin-rich adhesive structures that pattern into rings that drive OC migration and into "sealing-zones" (SZs) that confine the resorption lacuna. Although changes in actin dynamics during podosome patterning have been documented, the mechanisms that regulate these changes are largely unknown. From human monocytic precursors, we differentiated MGCs that express OC degradation enzymes but are unable to resorb the mineral matrix. We demonstrated that, despite exhibiting bona fide podosomes, these cells presented dysfunctional SZs. We then performed two-step differential transcriptomic profiling of bone-resorbing OCs versus nonresorbing MGCs to generate a list of genes implicated in bone resorption. From this list of candidate genes, we investigated the role of Rho/Rnd3. Using primary RhoE-deficient OCs, we demonstrated that RhoE is indispensable for OC migration and bone resorption by maintaining fast actin turnover in podosomes. We further showed that RhoE activates podosome component cofilin by inhibiting its Rock-mediated phosphorylation. We conclude that the RhoE-Rock-cofilin pathway, by promoting podosome dynamics and patterning, is central for OC migration, SZ formation, and, ultimately, bone resorption.
FEB 1 2014
DOI : 10.1091/mbc.E13-07-0363
Pubmed : 24284899
- Targeting Head and Neck Cancer Stem Cells to Overcome Resistance to Photon and Carbon Ion Radiation
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Bertrand, G; Maalouf, M; Boivin, A; Battiston-Montagne, P; Beuve, M; Levy, A; Jalade, P; Fournier, C; Ardail, D; Magne, N; Alphonse, G; Rodriguez-Lafrasse, C
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STEM CELL REVIEWS AND REPORTS
- Acknowledged platform: Cytometry
Abstract :
Although promising new radiation therapy techniques such as hadrontherapy are currently being evaluated in the treatment of head and neck malignancies, local control of head and neck squamous cell carcinoma (HNSCC) remains low. Here, we investigated the involvement of cancer stem-like cells (CSCs) in a radioresistant HNSCC cell line (SQ20B). Stem-like cells SQ20B/SidePopulation(SP)/CD44(+)/ALDH(high) were more resistant to both photon and carbon ion irradiation compared with non-CSCs. This was confirmed by a BrdU labeling experiment, which suggests that CSCs were able to proliferate and to induce tumorigenicity after irradiation. SQ20B/SP/CD44(+)/ALDH(high) were capable of an extended G2/M arrest phase in response to photon or carbon ion irradiation compared with non-CSCs. Moreover, our data strongly suggest that resistance of CSCs may result from an imbalance between exacerbated self-renewal and proliferative capacities and the decrease in apoptotic cell death triggering. In order to modulate these processes, two targeted pharmacological strategies were tested. Firstly, UCN-01, a checkpoint kinase (Chk1) inhibitor, induced the relapse of G2/M arrest and radiosensitization of SQ20B-CSCs. Secondly, all-trans retinoic acid (ATRA) resulted in an inhibition of ALDH activity, and induction of the differentiation and radiosensitization of SQ20B/SP/CD44(+)/ALDH(high) cells. The combination of ATRA and UCN-01 treatments with irradiation drastically decreased the surviving fraction at 2Gy of SQ20B-CSCs from 0.85 to 0.38 after photon irradiation, and from 0.45 to 0.21 in response to carbon ions. Taken together, our results suggest that the combination of UCN-01 and ATRA represent a promising pharmacological-targeted strategy that significantly sensitizes CSCs to photon or carbon ion radiation.
FEB 2014
DOI : 10.1007/s12015-013-9467-y
Pubmed : 23955575
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Vascular Function of the Mesenteric Artery Isolated from Thyroid Hormone Receptor-alpha Knockout Mice
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Liu, KL; Lo, M; Canaple, L; Gauthier, K; del Carmine, P; Beylot, M
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JOURNAL OF VASCULAR RESEARCH
- Acknowledged platform: PBES
Abstract :
Objective: This study evaluated the consequences of thyroid hormone receptor-alpha (TR alpha) disruption on vascular reactivity. Methods: The activity of superior mesenteric arteries isolated from TR alpha knockout mice generated in the SV129 background (TR alpha(SV)-S-0/0) or in a pure C57BL/6 background (TR alpha(0/0)C57) was compared to that of their corresponding wild-type strains (SV129 or C57BL/6 mice). Results: The wildtype SV129 mice exhibited an impaired acetylcholine (Ach)-induced mesenteric artery relaxation compared to C57BL/6 mice, associated with greater responses to angiotensin II (AII) and phenylephrine (PE). The disruption of TRa decreased the vascular response to sodium nitroprusside and PE in both the SV129 and C57BL/6 genetic backgrounds. Responses to Ach and AII were also blunted, but only in TR alpha(0/0)C57 mice. The administration of 3,3'5-triiodo-L-thyronine sodium salt (T-3) elicited a vasodilatation in C57BL/6 mice even at the lowest concentration (10(-9) M); a maximal relaxation of more than 50% was observed with the concentrations between 10(-9) and 10(-8) M. However, the response to T-3 was nearly absent in TR alpha(0/0)C57 mice. Conclusion: TR alpha is essential for the control of vascular tone, particularly in thyroid hormone-mediated relaxation. The difference in response to Ach observed between the two wild-type mice should be taken into account for interpreting the vascular responses of genetically engineered mice. (C) 2014 S. Karger AG, Basel
2014
DOI : 10.1159/000368195
Pubmed : 25500991