Expression profiling of FHSD muscle supports a defect in specific stages of myogenic differentiation

doi:10.1093/hmg/ddg327

Human Molecular Genetics Advance Access published online on September 30, 2003
Human Molecular Genetics, doi:10.1093/hmg/ddg327
© 2003 by Oxford University Press

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Expression profiling of FHSD muscle supports a defect in specific stages of myogenic differentiation

Sara T. Winokur ¹^*, Yi-Wen Chen ², Peter S. Masny ³, Jorge H. Martin ³, Jeffrey T. Ehmsen ⁴, Stephen J. Tapscott ⁵, Silvere M. van der Maarel ⁶, Yukiko Hayashi ⁷, and Kevin M. Flanigan ⁸

¹ Department of Biological Chemistry, 202 Sprague Hall, University of California, Irvine, Irvine, CA 92697
² Children's National Medical Center, Washington, DC
³ Department of Biological Chemistry, University of California, Irvine, CA
⁴ Department of Biological Chemistry, University of California, Irvine, CA; current affiliation, Johns Hopkins University School of Medicine, Baltimore, MD
⁵ Fred Hutchinson Cancer Research Center, Seattle, WA
⁶ Leiden University Medical Center, The Netherlands
⁷ National Institute for Neuroscience, Tokyo, Japan
⁸ Eccles Institute of Genetics, University of Utah, Salt Lake City, UT

^* To whom correspondence should be addressed. E-mail: stwinoku{at}uci.edu.

Abstract

The neuromuscular disorder facioscapulohumeral muscular dystrophy(FSHD) results from integral deletions of the subtelomeric repeatD4Z4 on chromosome 4q. A disruption of chromatin structure affectinggene expression is thought underlie the pathophysiology. Theglobal gene expression profiling of mature muscle tissue presentedhere provides the first insight into an FSHD-specific defectin myogenic differentiation. FSHD expression profiles generatedby oligonucleotide microarrays were compared to those from normalmuscle as well as other types of muscular dystrophies (DMD,aSGD) in order to determine FSHD specific changes. In addition,matched biopsies (affected and unaffected muscle) from individualswith FSHD served to monitor expression changes during the progressionof the disease as well as to diminish non-specific changes resultingfrom individual variability. Among genes altered in an FSHDspecific and highly significant manner, many are involved inmyogenic differentiation and suggest a partial block in thenormal differentiation program. Indeed, many of the transcriptsaffected in FSHD represent direct targets of the transcriptionfactor MyoD. Additional mis-expressed genes confirm a diminishedcapacity to buffer oxidative stress, as demonstrated in FSHDmyoblasts. This enhanced vulnerability of proliferative stagemyoblasts to reactive oxygen species is also disease-specific,further implicating a defect in FSHD muscle satellite cells.Importantly, none of the genes localizing to the FSHD regionat 4q35 were found to exhibit a significantly altered patternof expression in FSHD muscle. This finding was corroboratedby expression analysis of FSHD muscle using a custom cDNA microarraycontaining 51 genes and ESTs from the 4q35 region. Disruptionsin FSHD myogenesis and oxidative capacity may therefore notarise from a position effect mechanism as has been previouslysuggested, but rather from a global effect on gene regulation.Improper nuclear positioning of 4qter is discussed as an alternatemodel for FSHD gene regulation and pathogenesis.

Key Words: FSHD, gene expression, myogenesis, muscular dystrophy, differentiation

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				A. Petrov, J. Allinne, I. Pirozhkova, D. Laoudj, M. Lipinski, and Y. S. Vassetzky A nuclear matrix attachment site in the 4q35 locus has an enhancer-blocking activity in vivo: Implications for the facio-scapulo-humeral dystrophy Genome Res., January 1, 2008; 18(1): 39 - 45. [Abstract] [Full Text] [PDF]

				M. Dixit, E. Ansseau, A. Tassin, S. Winokur, R. Shi, H. Qian, S. Sauvage, C. Matteotti, A. M. van Acker, O. Leo, et al. DUX4, a candidate gene of facioscapulohumeral muscular dystrophy, encodes a transcriptional activator of PITX1 PNAS, November 13, 2007; 104(46): 18157 - 18162. [Abstract] [Full Text] [PDF]

				I. Eisenberg, A. Eran, I. Nishino, M. Moggio, C. Lamperti, A. A. Amato, H. G. Lidov, P. B. Kang, K. N. North, S. Mitrani-Rosenbaum, et al. Distinctive patterns of microRNA expression in primary muscular disorders PNAS, October 23, 2007; 104(43): 17016 - 17021. [Abstract] [Full Text] [PDF]

				S. A. Greenberg and G. W. Padberg Pushing the genetic frontier with facioscapulohumeral muscular dystrophy Neurology, February 20, 2007; 68(8): 544 - 545. [Full Text] [PDF]

				R. J. Osborne, S. Welle, S. L. Venance, C. A. Thornton, and R. Tawil Expression profile of FSHD supports a link between retinal vasculopathy and muscular dystrophy Neurology, February 20, 2007; 68(8): 569 - 577. [Abstract] [Full Text] [PDF]

				D. Sanoudou, M. A. Corbett, M. Han, M. Ghoddusi, M.-A. T. Nguyen, N. Vlahovich, E. C. Hardeman, and A. H. Beggs Skeletal muscle repair in a mouse model of nemaline myopathy Hum. Mol. Genet., September 1, 2006; 15(17): 2603 - 2612. [Abstract] [Full Text] [PDF]

				A. Petrov, I. Pirozhkova, G. Carnac, D. Laoudj, M. Lipinski, and Y. S. Vassetzky Chromatin loop domain organization within the 4q35 locus in facioscapulohumeral dystrophy patients versus normal human myoblasts PNAS, May 2, 2006; 103(18): 6982 - 6987. [Abstract] [Full Text] [PDF]

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				R. Tam, K. P. Smith, and J. B. Lawrence The 4q subtelomere harboring the FSHD locus is specifically anchored with peripheral heterochromatin unlike most human telomeres J. Cell Biol., October 25, 2004; 167(2): 269 - 279. [Abstract] [Full Text] [PDF]

				P. S. Masny, U. Bengtsson, S.-A. Chung, J. H. Martin, B. van Engelen, S. M. van der Maarel, and S. T. Winokur Localization of 4q35.2 to the nuclear periphery: is FSHD a nuclear envelope disease? Hum. Mol. Genet., September 1, 2004; 13(17): 1857 - 1871. [Abstract] [Full Text] [PDF]

Human Molecular Genetics

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Expression profiling of FHSD muscle supports a defect in specific stages of myogenic differentiation