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2. The double homeodomain protein DUX4c is associated with regenerating muscle fibers and RNA-binding proteins

Author

Claus, Clothilde, Slavin, Moriya, Ansseau, Eugénie, Lancelot, Céline, Bah, Karimatou, Lassche, Saskia, Fiévet, Manon, Greco, Anna, Tomaiuolo, Sara, Tassin, Alexandra, Dudome, Virginie, Kusters, Benno, Declèves, Anne-Emilie, Laoudj-Chenivesse, Dalila, van Engelen, Baziel G. M., Nonclercq, Denis, Belayew, Alexandra, Kalisman, Nir, and Coppée, Frédérique

Published
2023
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7. Additional file 3 of The double homeodomain protein DUX4c is associated with regenerating muscle fibers and RNA-binding proteins

Author

Claus, Clothilde, Slavin, Moriya, Ansseau, Eugénie, Lancelot, Céline, Bah, Karimatou, Lassche, Saskia, Fiévet, Manon, Greco, Anna, Tomaiuolo, Sara, Tassin, Alexandra, Dudome, Virginie, Kusters, Benno, Declèves, Anne-Emilie, Laoudj-Chenivesse, Dalila, van Engelen, Baziel G. M., Nonclercq, Denis, Belayew, Alexandra, Kalisman, Nir, and Coppée, Frédérique

Abstract

Additional file 3: Figure S2. Validation of the rat anti-DUX4c serum.

Published
2023
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8. Additional file 10 of The double homeodomain protein DUX4c is associated with regenerating muscle fibers and RNA-binding proteins

Author

Claus, Clothilde, Slavin, Moriya, Ansseau, Eugénie, Lancelot, Céline, Bah, Karimatou, Lassche, Saskia, Fiévet, Manon, Greco, Anna, Tomaiuolo, Sara, Tassin, Alexandra, Dudome, Virginie, Kusters, Benno, Declèves, Anne-Emilie, Laoudj-Chenivesse, Dalila, van Engelen, Baziel G. M., Nonclercq, Denis, Belayew, Alexandra, Kalisman, Nir, and Coppée, Frédérique

Abstract

Additional file 10: Figure S9. DUX4c co-detection with MYOD or CD56 as myogenic cell markers, and CD56 immunodetection pattern in FSHD muscle sections.

Published
2023
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9. Additional file 7 of The double homeodomain protein DUX4c is associated with regenerating muscle fibers and RNA-binding proteins

Author

Claus, Clothilde, Slavin, Moriya, Ansseau, Eugénie, Lancelot, Céline, Bah, Karimatou, Lassche, Saskia, Fiévet, Manon, Greco, Anna, Tomaiuolo, Sara, Tassin, Alexandra, Dudome, Virginie, Kusters, Benno, Declèves, Anne-Emilie, Laoudj-Chenivesse, Dalila, van Engelen, Baziel G. M., Nonclercq, Denis, Belayew, Alexandra, Kalisman, Nir, and Coppée, Frédérique

Abstract

Additional file 7: Figure S6. DUX4c and laminin-α2 detection by co-immunofluorescence in FSHD muscle sections.

Published
2023
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10. Additional file 2 of The double homeodomain protein DUX4c is associated with regenerating muscle fibers and RNA-binding proteins

Author

Claus, Clothilde, Slavin, Moriya, Ansseau, Eugénie, Lancelot, Céline, Bah, Karimatou, Lassche, Saskia, Fiévet, Manon, Greco, Anna, Tomaiuolo, Sara, Tassin, Alexandra, Dudome, Virginie, Kusters, Benno, Declèves, Anne-Emilie, Laoudj-Chenivesse, Dalila, van Engelen, Baziel G. M., Nonclercq, Denis, Belayew, Alexandra, Kalisman, Nir, and Coppée, Frédérique

Abstract

Additional file 2: Figure S1. DUX4C mRNAs and protein in muscle cells.

Published
2023
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11. Additional file 8 of The double homeodomain protein DUX4c is associated with regenerating muscle fibers and RNA-binding proteins

Author

Claus, Clothilde, Slavin, Moriya, Ansseau, Eugénie, Lancelot, Céline, Bah, Karimatou, Lassche, Saskia, Fiévet, Manon, Greco, Anna, Tomaiuolo, Sara, Tassin, Alexandra, Dudome, Virginie, Kusters, Benno, Declèves, Anne-Emilie, Laoudj-Chenivesse, Dalila, van Engelen, Baziel G. M., Nonclercq, Denis, Belayew, Alexandra, Kalisman, Nir, and Coppée, Frédérique

Abstract

Additional file 8: Figure S7. DUX4c-desmin co-detection by immunofluorescence in FSHD muscles.

Published
2023
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12. Additional file 9 of The double homeodomain protein DUX4c is associated with regenerating muscle fibers and RNA-binding proteins

Author

Claus, Clothilde, Slavin, Moriya, Ansseau, Eugénie, Lancelot, Céline, Bah, Karimatou, Lassche, Saskia, Fiévet, Manon, Greco, Anna, Tomaiuolo, Sara, Tassin, Alexandra, Dudome, Virginie, Kusters, Benno, Declèves, Anne-Emilie, Laoudj-Chenivesse, Dalila, van Engelen, Baziel G. M., Nonclercq, Denis, Belayew, Alexandra, Kalisman, Nir, and Coppée, Frédérique

Abstract

Additional file 9: Figure S8. DUX4c is immunodetected in regenerating myofibers.

Published
2023
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13. Additional file 6 of The double homeodomain protein DUX4c is associated with regenerating muscle fibers and RNA-binding proteins

Author

Claus, Clothilde, Slavin, Moriya, Ansseau, Eugénie, Lancelot, Céline, Bah, Karimatou, Lassche, Saskia, Fiévet, Manon, Greco, Anna, Tomaiuolo, Sara, Tassin, Alexandra, Dudome, Virginie, Kusters, Benno, Declèves, Anne-Emilie, Laoudj-Chenivesse, Dalila, van Engelen, Baziel G. M., Nonclercq, Denis, Belayew, Alexandra, Kalisman, Nir, and Coppée, Frédérique

Abstract

Additional file 6: Figure S5. DUX4c detection by immunohistochemistry in muscle sections and histological alterations in FSHD muscles.

Published
2023
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14. Additional file 4 of The double homeodomain protein DUX4c is associated with regenerating muscle fibers and RNA-binding proteins

Author

Claus, Clothilde, Slavin, Moriya, Ansseau, Eugénie, Lancelot, Céline, Bah, Karimatou, Lassche, Saskia, Fiévet, Manon, Greco, Anna, Tomaiuolo, Sara, Tassin, Alexandra, Dudome, Virginie, Kusters, Benno, Declèves, Anne-Emilie, Laoudj-Chenivesse, Dalila, van Engelen, Baziel G. M., Nonclercq, Denis, Belayew, Alexandra, Kalisman, Nir, and Coppée, Frédérique

Abstract

Additional file 4: Figure S3. Time-course of DUX4c expression in primary FSHD muscle cells.

Published
2023
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15. Additional file 5 of The double homeodomain protein DUX4c is associated with regenerating muscle fibers and RNA-binding proteins

Author

Claus, Clothilde, Slavin, Moriya, Ansseau, Eugénie, Lancelot, Céline, Bah, Karimatou, Lassche, Saskia, Fiévet, Manon, Greco, Anna, Tomaiuolo, Sara, Tassin, Alexandra, Dudome, Virginie, Kusters, Benno, Declèves, Anne-Emilie, Laoudj-Chenivesse, Dalila, van Engelen, Baziel G. M., Nonclercq, Denis, Belayew, Alexandra, Kalisman, Nir, and Coppée, Frédérique

Abstract

Additional file 5: Figure S4. DUX4c immunofluorescence intensity variation during primary myoblast differentiation time-course.

Published
2023
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16. Interplay between mitochondrial reactive oxygen species, oxidative stress and hypoxic adaptation in facioscapulohumeral muscular dystrophy: Metabolic stress as potential therapeutic target

Author

Heher, Philipp, primary, Ganassi, Massimo, additional, Weidinger, Adelheid, additional, Engquist, Elise N., additional, Pruller, Johanna, additional, Nguyen, Thuy Hang, additional, Tassin, Alexandra, additional, Declèves, Anne-Emilie, additional, Mamchaoui, Kamel, additional, Banerji, Christopher R.S., additional, Grillari, Johannes, additional, Kozlov, Andrey V., additional, and Zammit, Peter S., additional

Published
2022
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26. Sustained intermittent hypoxemia induces adiponectin oligomers redistribution and a tissue-specific modulation of adiponectin receptor in mice

Author

Pierard, Mélany, Tassin, Alexandra, Conotte, Stephanie, Zouaoui Boudjeltia, Karim, Legrand, Alexandre, Pierard, Mélany, Tassin, Alexandra, Conotte, Stephanie, Zouaoui Boudjeltia, Karim, and Legrand, Alexandre

Abstract

Introduction: Hypoxemia is a critical component of several respiratory diseases and is known to be involved in the processes underlying co-morbidities associated to such disorders, notably at the cardiovascular level. Circulating level of Adiponectin (Ad), known as a metabolic regulator and cardio-protective hormone was previously suggested to be reduced by hypoxia but consequences of such variation are unclear. The evaluation of the specific effect of hypoxemia on Ad forms and receptors could improve the understanding of the involvement of Ad axis in hypoxemia-related diseases. Methods: Ad-pathway components were investigated in a murine model of sustained intermittent hypoxemia (FiO2 10%, 8 h/day, 35 days). Results: Sustained intermittent hypoxemia (SIH) induced a redistribution of Ad multimers in favor of HMW forms, without change in total plasmatic level. Mice submitted to hypoxia also exhibited tissue-specific modification of adiporeceptor (AdipoR) protein level without mRNA expression change. A decreased AdipoR2 abundance was observed in skeletal muscle and heart whereas AdipoR1 level was only reduced in muscle. No change was observed in liver regarding AdipoR. Lipid profile was unchanged but glucose tolerance increased in hypoxemic mice. Conclusion: Sustained intermittent hypoxemia, per se, modify Ad oligomerization state as well as AdipoR protein abundance in a tissue-specific way. That suggests alteration in Ad-dependant pathways in pathological conditions associated to SIH. Investigation of Ad-pathway components could therefore constitute useful complementary criteria for the clustering of patients with hypoxemia-related diseases and management of co-morbidities, as well as to develop new therapeutic strategies., SCOPUS: ar.j, info:eu-repo/semantics/published

Published
2019

27. Additional file 8: Figure S8. of Overexpression of the double homeodomain protein DUX4c interferes with myofibrillogenesis and induces clustering of myonuclei

Author

Vanderplanck, Céline, Tassin, Alexandra, Ansseau, Eugénie, Charron, Sébastien, Wauters, Armelle, Lancelot, Céline, Vancutsem, Kelly, Laoudj-Chenivesse, Dalila, Belayew, Alexandra, and Coppée, Frédérique

Abstract

DUX4c inhibition in myoblasts decreases mitosis. DUX4c inhibition causes cell proliferation defects. FSHD and control primary myoblasts were transfected with siRNAs targeting either the DUX4 or DUX4c mRNA or a non-targeted (nt) siRNA. Top: microscope pictures in white light taken of representative fields of each culture. Bottom: The number of mitosis present per field was counted in each culture (10 fields per culture). Histograms show the mean of the mitosis number present per field in each culture. ***p

Published
2018
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28. Additional file 9: Table S1. of Overexpression of the double homeodomain protein DUX4c interferes with myofibrillogenesis and induces clustering of myonuclei

Author

Vanderplanck, Céline, Tassin, Alexandra, Ansseau, Eugénie, Charron, Sébastien, Wauters, Armelle, Lancelot, Céline, Vancutsem, Kelly, Laoudj-Chenivesse, Dalila, Belayew, Alexandra, and Coppée, Frédérique

Abstract

Cytoskeleton-associated protein quantification in healthy and FSHD myotubes : reorganization of the proteomic data presented separately in Tassin et al (2012: Figure 3, supplemental tables; and unpublished data). Data were subdivided in the three classes of cytoskeletal proteins : actin thin filaments, intermediate filaments and microtubules. In summary, primary healthy, aFSHD (atrophic) and dFSHD (disorganized) myotubes were harvested 4 days after induction of differentiation and protein extracts (TE: total extract; NE: nuclear extract) were analysed by post-digest ICPL coupled to LC-MS/MS. UniProt accession number; Hugo Gene symbol; Protein name; H/L: fold change (v: identified protein without quantification); SD: geometric standard deviation (n.d.: not determined when an abnormal distribution is observed); #: number of peptides used for quantification; *: statistical significance (p

Published
2018
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29. Additional file 4: Figure S4. of Overexpression of the double homeodomain protein DUX4c interferes with myofibrillogenesis and induces clustering of myonuclei

Author

Vanderplanck, Céline, Tassin, Alexandra, Ansseau, Eugénie, Charron, Sébastien, Wauters, Armelle, Lancelot, Céline, Vancutsem, Kelly, Laoudj-Chenivesse, Dalila, Belayew, Alexandra, and Coppée, Frédérique

Abstract

dFSHD myotubes present abnormal clusters of nuclei overexpressing DUX4c, cytoplasmic DUX4c, and α-tubulin as well as α-crystallin B chain delocalization. A. Healthy and FSHD primary myoblasts were differentiated and fixed 6 days later, and DUX4c (red) and α-tubulin (green) were detected by immunofluorescence. Clusters of nuclei are surrounded by abnormal or almost an absence of α-tubulin. B. The α-crystallin B chain is highly expressed in the cytoplasm of dFSHD myotubes, in contrast to the low nuclear expression observed in healthy myotubes. (PDF 266 kb)

Published
2018
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30. Additional file 11: Figure S10. of Overexpression of the double homeodomain protein DUX4c interferes with myofibrillogenesis and induces clustering of myonuclei

Author

Vanderplanck, Céline, Tassin, Alexandra, Ansseau, Eugénie, Charron, Sébastien, Wauters, Armelle, Lancelot, Céline, Vancutsem, Kelly, Laoudj-Chenivesse, Dalila, Belayew, Alexandra, and Coppée, Frédérique

Abstract

DUX4 myogenic enhancer (DME1 and 2) might interact with the DUX4c gene. The DUX4 forward primer used in a 3C capture experiment [79] is highlighted in a common region in DUX4 and DUX4c ORF sharing 100% identity (Accession numbers AF AF117653 and AY500824). In Himeda et al. [79], RT-qPCR was performed using this primer in combination with either DIR1 (containing DME1) or DIR2 (containing DME2) primer to confirm DUX4-DME1 or DUX4-DME2 interactions. The BlgII site (boxed) used to digest chromatin-linked DNA regions is also shown and is located 226-bp downstream of the 5’end of the DUX4 primer. The region between DUX4 primer and the BglII site share 100% identity. (PDF 287 kb)

Published
2018
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31. Additional file 5: Figure S5. of Overexpression of the double homeodomain protein DUX4c interferes with myofibrillogenesis and induces clustering of myonuclei

Author

Vanderplanck, Céline, Tassin, Alexandra, Ansseau, Eugénie, Charron, Sébastien, Wauters, Armelle, Lancelot, Céline, Vancutsem, Kelly, Laoudj-Chenivesse, Dalila, Belayew, Alexandra, and Coppée, Frédérique

Abstract

DUX4c overexpression induces expression of FSHD markers. FSHD and healthy primary myoblasts were transfected with the indicated pCIneo expression vectors. A. Total protein extracts were prepared 48 h after transfection. A 30 μg sample of each extract were separated by electrophoresis, transferred to a Western blot, and the indicated proteins immunodetected. This image was used in Vanderplanck et al. (2011) for FSHD, healthy, and DUX4-overexpressing myoblasts. We only added the lane corresponding to DUX4c-overexpressing myoblasts. B. Total protein extracts were prepared 48 h after transfection (top) or 8 days after the induction of differentiation (middle). A 30 μg sample of the extracts was separated via electrophoresis, transferred to a Western blot, and immunodetected. Actin was stained with Ponceau red on the same membrane before immunodetection and was used as the loading control. N.B.: In these conditions, neither endogenous DUX4 nor DUX4c could be immunodetected with MAb 9A12. C. Immunodetection of MuRF1 in healthy FSHD and in DUX4- or DUX4c-overexpressing primary myotubes fixed 7 days after the induction of differentiation. Scale bar: 20 μm. D. γ-Catenin (JUP) mRNA quantification by RT-qPCR in RNA of healthy and FSHD primary muscle cells. The quantity of γ-Catenin mRNA was expressed relative to its amount in healthy cells and set to 1. The means and standard errors are indicated. (PDF 452 kb)

Published
2018
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32. Additional file 6: Figure S6. of Overexpression of the double homeodomain protein DUX4c interferes with myofibrillogenesis and induces clustering of myonuclei

Author

Vanderplanck, Céline, Tassin, Alexandra, Ansseau, Eugénie, Charron, Sébastien, Wauters, Armelle, Lancelot, Céline, Vancutsem, Kelly, Laoudj-Chenivesse, Dalila, Belayew, Alexandra, and Coppée, Frédérique

Abstract

DUX4c siRNA design and efficiency evaluation. A. Schematic representation of the DUX4c 3′UTR (positions from Genbank accession number AY500824). The STOP codon, two purine-rich regions which could be used as an alternative 3′end processing (as shown for some histone genes, [97]), the restriction sites EcoRI and AflIII (used for p3kb-DUX4c and 7.5-kb-DUX4c plasmid constructs, [26]) and the localization of the three designed siRNAs are indicated. Full-length DUX4c transcripts were already described in healthy and FSHD muscle cells [27]. B. Different DUX4c RNA ends found following transfection of C2C12 cells with p7.5-kb-DUX4c or in primary FSHD myoblasts (indicated by the asterisk). C. Evaluation of DUX4c knock-down using the three siRNAs shown in A. Human muscle TE671 cells were transfected or not (NT) with pCIneo-DUX4c expression vector (DUX4c) and with or without an siRNA targeting DUX4c as indicated (si1, si2, si3). Protein extracts were prepared 3 days later and analyzed by Western blot with the rabbit anti-DUX4c serum. Actin was used as a loading control. The panel with siRNA1 was previously shown in Ansseau et al. 2009 as part of Additional file 3: Figure S3 to confirm anti-DUX4c serum specificity. NT: not transfected. D, E. DUX4c expression in DUX4c-inducible stable TE671 cells [27] transfected with 20 nM DUX4c siRNA1. Four hours later, DUX4c expression was either induced or not with 1 μg doxycycline. C. Three or 5 days later, proteins were extracted, and 20 μg were separated on a 10% PAGE-SDS gel and transferred to a Western blot. DUX4c and actin were immunodetected. D. DUX4c detection by immunofluorescence (red) on parallel cultures. (PDF 90 kb)

Published
2018
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33. Additional file 3: Figure S3. of Overexpression of the double homeodomain protein DUX4c interferes with myofibrillogenesis and induces clustering of myonuclei

Author

Vanderplanck, Céline, Tassin, Alexandra, Ansseau, Eugénie, Charron, Sébastien, Wauters, Armelle, Lancelot, Céline, Vancutsem, Kelly, Laoudj-Chenivesse, Dalila, Belayew, Alexandra, and Coppée, Frédérique

Abstract

DUX4c overexpression induces β-catenin. Healthy primary myoblasts were transfected with pAC1M2-DUX4c and differentiated 48 h later. After the first myotubes formed (day 3), DUX4c expression was induced by the addition of 100 ng or 1 μg of doxycycline to the culture medium in parallel to the cultures showed in Fig. 2. At day 8, myotubes were fixed and proteins were extracted, separated, transferred to a Western blot, and the indicated proteins were immunodetected as described in Fig. 1b. Histograms: densitometry of the immunoreactive bands normalized to the actin levels (Ponceau red) in each sample. Dox: doxycycline. (PDF 115 kb)

Published
2018
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34. Additional file 7: Figure S7. of Overexpression of the double homeodomain protein DUX4c interferes with myofibrillogenesis and induces clustering of myonuclei

Author

Vanderplanck, Céline, Tassin, Alexandra, Ansseau, Eugénie, Charron, Sébastien, Wauters, Armelle, Lancelot, Céline, Vancutsem, Kelly, Laoudj-Chenivesse, Dalila, Belayew, Alexandra, and Coppée, Frédérique

Subjects
fungi
Abstract

siRNA1 specifically silences endogenous DUX4c. RNA interference as described in Fig. 6. Endogenous DUX4c was detected by immunofluorescence (red). (PDF 51 kb)

Published
2018
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35. Additional file 2: Figure S2. of Overexpression of the double homeodomain protein DUX4c interferes with myofibrillogenesis and induces clustering of myonuclei

Author

Vanderplanck, Céline, Tassin, Alexandra, Ansseau, Eugénie, Charron, Sébastien, Wauters, Armelle, Lancelot, Céline, Vancutsem, Kelly, Laoudj-Chenivesse, Dalila, Belayew, Alexandra, and Coppée, Frédérique

Abstract

DUX4c overexpression induces the formation of ring-like clusters of nuclei and detection of DUX4c in nuclei and the cytoplasm. Healthy primary myoblasts were transfected with pAC1M2-DUX4c and differentiated 48 h later. After formation of the first myotubes (day 3), DUX4c expression was induced by the addition of doxycycline (0 ng, 100 ng, or 1 μg) to the culture medium. At day 8, myotubes were fixed. DUX4c (red) and troponin T (green) were detected by immunofluorescence. Nuclei were labeled with DAPI. The circle indicates the cytoplasmic detection of DUX4c at one myotube tip, where troponin T expression was highest in the elongated myotubes. Scale bar: 30 μm. (PDF 89 kb)

Published
2018
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37. Metabonomic profiling of chronic intermittent hypoxia in a mouse model

Author

Conotte, Stephanie, Tassin, Alexandra, Conotte, Raphaël, Colet, Jean-Marie, Zouaoui Boudjeltia, Karim, Legrand, Alexandre, Conotte, Stephanie, Tassin, Alexandra, Conotte, Raphaël, Colet, Jean-Marie, Zouaoui Boudjeltia, Karim, and Legrand, Alexandre

Abstract

Chronic intermittent hypoxia (ChIH) is a dominant feature of obstructive sleep apnoea (OSA) and is associated to metabolic alterations and oxidative stress (OS). Although management of OSA is well established, the research of new biomarkers that are independent of confounding factors remains necessary to improve the early detection of comorbidity and therapeutic follow-up. In this study, the urinary metabonomic profile associated to intermittent hypoxia was evaluated in a mouse model. When exposed to intermittent hypoxia, animals showed a significant alteration in energy metabolism towards anaerobic pathways and signs of OS imbalance. A compensatory response was observed over time. Our data also indicates an excess production of vitamin B3, liver function modulations and a stimulation of creatine synthesis which could be used to evaluate the ChIH repercussions. As well, TMAO and allantoin could constitute interesting biomarker candidates, respectively in the context of cardiovascular risk and OS associated to OSA., SCOPUS: ar.j, info:eu-repo/semantics/published

Published
2018

39. Overexpression of the double homeodomain protein DUX4c interferes with myofibrillogenesis and induces clustering of myonuclei

Author

Vanderplanck, Céline, primary, Tassin, Alexandra, additional, Ansseau, Eugénie, additional, Charron, Sébastien, additional, Wauters, Armelle, additional, Lancelot, Céline, additional, Vancutsem, Kelly, additional, Laoudj-Chenivesse, Dalila, additional, Belayew, Alexandra, additional, and Coppée, Frédérique, additional

Published
2018
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40. Additional file 1: of Interactions of exercise training and high-fat diet on adiponectin forms and muscle receptors in mice

Author

Mélany Pierard, Conotte, Stéphanie, Tassin, Alexandra, Boutry, Sébastien, Uzureau, Pierrick, Boudjeltia, Karim, and Legrand, Alexandre

Abstract

Figure S1. Admer distribution analysis. The method used is the same as that described in Fig. 5. (a and b) Admer/total Ad ratio obtained after densitometric analysis. Data are represented as boxplots. Panel a) diet effect, Panel b) training effect, * p

Published
2016
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41. Interactions of exercise training and high-fat diet on adiponectin forms and muscle receptors in mice

Author

Pierard, Mélany, Conotte, Stephanie, Tassin, Alexandra, Boutry, Sébastien, Uzureau, Pierrick, Zouaoui Boudjeltia, Karim, Legrand, Alexandre, Pierard, Mélany, Conotte, Stephanie, Tassin, Alexandra, Boutry, Sébastien, Uzureau, Pierrick, Zouaoui Boudjeltia, Karim, and Legrand, Alexandre

Abstract

Background: Metabolic syndrome (MetS) is characterized by systemic disturbances that increase cardiovascular risk. Adiponectin (Ad) exhibits a cardioprotective function because of its anti-inflammatory and anti-atherosclerotic properties. In the bloodstream, this adipocytokine circulates on multimers (Admer), among which high molecular weight (HMW) are the most active forms. Because alterations of Ad plasmatic levels, Admer distribution and receptor (AdipoR) expression have been described in murine models and obese patients, strategies that aim to enhance Ad production or its effect on target tissues are the subject of intense investigations. While exercise training is well known to be beneficial for reducing cardiovascular risk, the contribution of Ad is still controversial. Our aim was to evaluate the effect of exercise training on Ad production, Admer distribution and AdipoR muscle expression in a murine model of MetS. Methods: At 6 weeks of age, mice were submitted to a standard (SF) or high-fat high-sugar (HF) diet for 10 weeks. After 2 weeks, the SF- and HF-fed animals were randomly assigned to a training program (SFT, HFT) or not (SFC, HFC). The trained groups were submitted to sessions of running on a treadmill 5 days a week. Results and conclusions: The HF mice presented the key problems associated with MetS (increased caloric intake, body weight, glycemia and fat mass), a change in Admer distribution in favor of the less-active forms and increased AdipoR2 expression in muscle. In contrast, exercise training reversed some of the adverse effects of a HF diet (increased glucose tolerance, better caloric intake control) without any modifications in Ad production and Admer distribution. However, increased AdipoR1 muscle expression was observed in trained mice, but this effect was hampered by HF diet. These data corroborate a recent hypothesis suggesting a functional divergence between AdipoR1 and AdipoR2, with AdipoR1 having the predominant protective action on, SCOPUS: ar.j, info:eu-repo/semantics/published

Published
2016

42. Homologous transcription factors DUX4 and DUX4c associate with cytoplasmic proteins during muscle differentiation

Author

Ansseau, Eugénie, Gerbaux, Cécile, Cloet, Samuel, Wauters, Armelle, Zorbo, Sabrina, Meyer, Pierre, Pirson, Isabelle, Laoudj-Chenivesse, Dalila, Wattiez, Ruddy, Harper, Scott S.Q., Belayew, Alexandra, Eidahl, Jocelyn J.O., Coppee, Frédérique, Lancelot, Céline, Tassin, Alexandra, Matteotti, Christel, Yip, Cassandre, Liu, Jian, Leroy, Baptiste, Hubeau, Céline, Ansseau, Eugénie, Gerbaux, Cécile, Cloet, Samuel, Wauters, Armelle, Zorbo, Sabrina, Meyer, Pierre, Pirson, Isabelle, Laoudj-Chenivesse, Dalila, Wattiez, Ruddy, Harper, Scott S.Q., Belayew, Alexandra, Eidahl, Jocelyn J.O., Coppee, Frédérique, Lancelot, Céline, Tassin, Alexandra, Matteotti, Christel, Yip, Cassandre, Liu, Jian, Leroy, Baptiste, and Hubeau, Céline

Abstract

Hundreds of double homeobox (DUX) genes map within 3.3-kb repeated elements dispersed in the human genome and encode DNA-binding proteins. Among these, we identified DUX4, a potent transcription factor that causes facioscapulohumeral muscular dystrophy (FSHD). In the present study, we performed yeast two-hybrid screens and protein co-purifications with HaloTag-DUX fusions or GST-DUX4 pull-down to identify protein partners of DUX4, DUX4c (which is identical to DUX4 except for the end of the carboxyl terminal domain) and DUX1 (which is limited to the double homeodomain). Unexpectedly, we identified and validated (by co-immunoprecipitation, GST pull-down, co-immunofluorescence and in situ Proximal Ligation Assay) the interaction of DUX4, DUX4c and DUX1 with type III intermediate filament protein desmin in the cytoplasm and at the nuclear periphery. Desmin filaments link adjacent sarcomere at the Z-discs, connect them to sarcolemma proteins and interact with mitochondria. These intermediate filament also contact the nuclear lamina and contribute to positioning of the nuclei. Another Z-disc protein, LMCD1 that contains a LIM domain was also validated as a DUX4 partner. The functionality of DUX4 or DUX4c interactions with cytoplasmic proteins is underscored by the cytoplasmic detection of DUX4/DUX4c upon myoblast fusion. In addition, we identified and validated (by co-immunoprecipitation, co-immunofluorescence and in situ Proximal Ligation Assay) as DUX4/4c partners several RNA-binding proteins such as C1QBP, SRSF9, RBM3, FUS/TLS and SFPQ that are involved in mRNA splicing and translation. FUS and SFPQ are nuclear proteins, however their cytoplasmic translocation was reported in neuronal cells where they associated with ribonucleoparticles (RNPs). Several other validated or identified DUX4/DUX4c partners are also contained in mRNP granules, and the co-localizations with cytoplasmic DAPIpositive spots is in keeping with such an association. Large muscle RNPs were recently, SCOPUS: ar.j, info:eu-repo/semantics/published

Published
2016

44. Homologous Transcription Factors DUX4 and DUX4c Associate with Cytoplasmic Proteins during Muscle Differentiation

Author

Ansseau, Eugénie, primary, Eidahl, Jocelyn O., additional, Lancelot, Céline, additional, Tassin, Alexandra, additional, Matteotti, Christel, additional, Yip, Cassandre, additional, Liu, Jian, additional, Leroy, Baptiste, additional, Hubeau, Céline, additional, Gerbaux, Cécile, additional, Cloet, Samuel, additional, Wauters, Armelle, additional, Zorbo, Sabrina, additional, Meyer, Pierre, additional, Pirson, Isabelle, additional, Laoudj-Chenivesse, Dalila, additional, Wattiez, Ruddy, additional, Harper, Scott Q., additional, Belayew, Alexandra, additional, and Coppée, Frédérique, additional

Published
2016
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45. Intratracheal Bleomycin Aerosolization: The Best Route of Administration for a Scalable and Homogeneous Pulmonary Fibrosis Rat Model?

Author

Robbe, Alexandre, Tassin, Alexandra, Carpentier, Justine, Decleves, Anne-Emilie, Mekinda Ngono, Zita Lea, Nonclercq, Denis, Legrand, Alexandre, Robbe, Alexandre, Tassin, Alexandra, Carpentier, Justine, Decleves, Anne-Emilie, Mekinda Ngono, Zita Lea, Nonclercq, Denis, and Legrand, Alexandre

Abstract

Idiopathic pulmonary fibrosis (IPF) is a chronic disease with a poor prognosis and is characterized by the accumulation of fibrotic tissue in lungs resulting from a dysfunction in the healing process. In humans, the pathological process is patchy and temporally heterogeneous and the exact mechanisms remain poorly understood. Different animal models were thus developed. Among these, intratracheal administration of bleomycin (BML) is one of the most frequently used methods to induce lung fibrosis in rodents. In the present study, we first characterized histologically the time-course of lung alteration in rats submitted to BLM instillation. Heterogeneous damages were observed among lungs, consisting in an inflammatory phase at early time-points. It was followed by a transition to a fibrotic state characterized by an increased myofibroblast number and collagen accumulation. We then compared instillation and aerosolization routes of BLM administration. The fibrotic process was studied in each pulmonary lobe using a modified Ashcroft scale. The two quantification methods were confronted and the interobserver variability evaluated. Both methods induced fibrosis development as demonstrated by a similar progression of the highest modified Ashcroft score. However, we highlighted that aerosolization allows a more homogeneous distribution of lesions among lungs, with a persistence of higher grade damages upon time., SCOPUS: ar.j, info:eu-repo/semantics/published

Published
2015

47. DUX4c is up-regulated in FSHD. It induces the MYF5 protein and human myoblast proliferation.

Author

Ansseau, Eugénie, Laoudj-Chenivesse, Dalila, Marcowycz, Aline, Tassin, Alexandra, Vanderplanck, Céline, Sauvage, Sébastien, Barro, Marietta, Mahieu, Isabelle, Leroy, Axelle, Leclercq, India, Mainfroid, Véronique, Figlewicz, Denise, Mouly, Vincent, Butler-Browne, Gillian, Belayew, Alexandra, Coppee, Frédérique, Ansseau, Eugénie, Laoudj-Chenivesse, Dalila, Marcowycz, Aline, Tassin, Alexandra, Vanderplanck, Céline, Sauvage, Sébastien, Barro, Marietta, Mahieu, Isabelle, Leroy, Axelle, Leclercq, India, Mainfroid, Véronique, Figlewicz, Denise, Mouly, Vincent, Butler-Browne, Gillian, Belayew, Alexandra, and Coppee, Frédérique

Abstract

Facioscapulohumeral muscular dystrophy (FSHD) is a dominant disease linked to contractions of the D4Z4 repeat array in 4q35. We have previously identified a double homeobox gene (DUX4) within each D4Z4 unit that encodes a transcription factor expressed in FSHD but not control myoblasts. DUX4 and its target genes contribute to the global dysregulation of gene expression observed in FSHD. We have now characterized the homologous DUX4c gene mapped 42 kb centromeric of the D4Z4 repeat array. It encodes a 47-kDa protein with a double homeodomain identical to DUX4 but divergent in the carboxyl-terminal region. DUX4c was detected in primary myoblast extracts by Western blot with a specific antiserum, and was induced upon differentiation. The protein was increased about 2-fold in FSHD versus control myotubes but reached 2-10-fold induction in FSHD muscle biopsies. We have shown by Western blot and by a DNA-binding assay that DUX4c over-expression induced the MYF5 myogenic regulator and its DNA-binding activity. DUX4c might stabilize the MYF5 protein as we detected their interaction by co-immunoprecipitation. In keeping with the known role of Myf5 in myoblast accumulation during mouse muscle regeneration DUX4c over-expression activated proliferation of human primary myoblasts and inhibited their differentiation. Altogether, these results suggested that DUX4c could be involved in muscle regeneration and that changes in its expression could contribute to the FSHD pathology., Journal Article, Research Support, Non-U.S. Gov't, info:eu-repo/semantics/published

Published
2009

48. FSHD Myotubes with Different Phenotypes Exhibit Distinct Proteomes

Author

Tassin, Alexandra, primary, Leroy, Baptiste, additional, Laoudj-Chenivesse, Dalila, additional, Wauters, Armelle, additional, Vanderplanck, Céline, additional, Le Bihan, Marie-Catherine, additional, Coppée, Frédérique, additional, Wattiez, Ruddy, additional, and Belayew, Alexandra, additional

Published
2012
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50. The FSHD Atrophic Myotube Phenotype Is Caused by DUX4 Expression

Author

Vanderplanck, Céline, primary, Ansseau, Eugénie, additional, Charron, Sébastien, additional, Stricwant, Nadia, additional, Tassin, Alexandra, additional, Laoudj-Chenivesse, Dalila, additional, Wilton, Steve D., additional, Coppée, Frédérique, additional, and Belayew, Alexandra, additional

Published
2011
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