Linker molecules between laminins and dystroglycan ameliorate laminin-{alpha}2-deficient muscular dystrophy at all disease stages

doi:10.1083/jcb.200611152

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doi:10.1083/jcb.200611152
The Journal of Cell Biology, Vol. 176, No. 7, 979-993
The Rockefeller University Press, 0021-9525 $30.00
© Meinen et al.

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Linker molecules between laminins and dystroglycan ameliorate laminin- ${alpha}$ 2–deficient muscular dystrophy at all disease stages

Sarina Meinen¹, Patrizia Barzaghi¹, Shuo Lin¹, Hanns Lochmüller², and Markus A. Ruegg¹

¹ Biozentrum, University of Basel, CH-4056 Basel, Switzerland
² Friedrich-Baur-Institute, Department of Neurology, Ludwig-Maximilians-University of Munich, 80336 Munich, Germany

Correspondence to Markus A. Ruegg: markus-a.ruegg{at}unibas.ch

Mutations in laminin- ${alpha}$ 2 cause a severe congenital muscular dystrophy,called MDC1A. The two main receptors that interact with laminin- ${alpha}$ 2are dystroglycan and ${alpha}$ 7ß1 integrin. We have previouslyshown in mouse models for MDC1A that muscle-specific overexpressionof a miniaturized form of agrin (mini-agrin), which binds todystroglycan but not to ${alpha}$ 7ß1 integrin, substantiallyameliorates the disease (Moll, J., P. Barzaghi, S. Lin, G. Bezakova,H. Lochmuller, E. Engvall, U. Muller, and M.A. Ruegg. 2001.Nature. 413:302–307; Bentzinger, C.F., P. Barzaghi, S.Lin, and M.A. Ruegg. 2005. Matrix Biol. 24:326–332.).Now we show that late-onset expression of mini-agrin still prolongslife span and improves overall health, although not to the sameextent as early expression. Furthermore, a chimeric proteincontaining the dystroglycan-binding domain of perlecan has thesame activities as mini-agrin in ameliorating the disease. Finally,expression of full-length agrin also slows down the disease.These experiments are conceptual proof that linking the basementmembrane to dystroglycan by specifically designed moleculesor by endogenous ligands, could be a means to counteract MDC1Aat a progressed stage of the disease, and thus opens new possibilitiesfor the development of treatment options for this muscular dystrophy.

Abbreviations used in this paper: c-FLag, chick full-lengthmuscle agrin; c-mag, chick mini-agrin; CK, creatine kinase;CMD, congenital muscular dystrophy; DGC, dystrophin–glycoproteincomplex; DMD, Duchenne muscular dystrophy; dMyHC, developmentalmyosin heavy chain; HE, hematoxylin and eosin; MCK, muscle CK;m-mag, mouse mini-agrin; tTA, tetracycline-dependent transcriptionactivator; WT, wild-type.

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