An agrin minigene rescues dystrophic symptoms in a mouse model for congenital muscular dystrophy

Moll, Joachim; Barzaghi, Patrizia; Lin, Shuo; Bezakova, Gabriela; Lochmüller, Hanns; Engvall, Eva; Müller, Ulrich; Rüegg, Markus A.

doi:10.1038/35095054

Cited by 220 publications

(261 citation statements)

References 29 publications

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“…From 1994, knock-out mouse or spontaneous mutant mouse strains have been identified as animal models for MDC1A with total and partial deficiency [99][100][101][102][103][104][105] , and experimental therapeutic strategies have been attempted 102,103,[106][107][108][109][110][111][112][113][114][115][116] . In mice, Kuang et al 102,103 were successful in obtaining the expression of a human laminin alpha 2 chain transgene under the regulation of a muscle-specific creatine kinase promoter.…”

Section: Therapeutic Perspectivesmentioning

confidence: 99%

“…In addition, the success of myoblast transplantation depends on future advances for controlling the immune response of the receptor and his biochemical adequacy with the donor. In dy W /dy W mice a "replacement therapy" using a mini-agrin (miniaturized form of agrin) resulted in a lesser muscle degeneration and in a decrease of mortality that is mediated through the linking of muscle basement membrane to the DGC, and not to integrin 107 . The first attempt of somatic gene therapy to treat mice with laminin alpha-2 deficiency was performed by Qiao et al 108 .…”

Section: Therapeutic Perspectivesmentioning

confidence: 99%

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Congenital muscular dystrophy. Part II: a review of pathogenesis and therapeutic perspectives

Reed

2009

Arq. Neuro-Psiquiatr.

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-The congenital muscular dystrophies (CMDs) are a group of genetically and clinically heterogeneous hereditary myopathies with preferentially autosomal recessive inheritance, that are characterized by congenital hypotonia, delayed motor development and early onset of progressive muscle weakness associated with dystrophic pattern on muscle biopsy. The clinical course is broadly variable and can comprise the involvement of the brain and eyes. From 1994, a great development in the knowledge of the molecular basis has occurred and the classification of CMDs has to be continuously up dated. In the last number of this journal, we presented the main clinical and diagnostic data concerning the different subtypes of CMD. In this second part of the review, we analyse the main reports from the literature concerning the pathogenesis and the therapeutic perspectives of the most common subtypes of CMD: MDC1A with merosin deficiency, collagen VI related CMDs (Ullrich and Bethlem), CMDs with abnormal glycosylation of alpha-dystroglycan (Fukuyama CMD, Muscleeye-brain disease, Walker Warburg syndrome, MDC1C, MDC1D), and rigid spine syndrome, another much rare subtype of CMDs not related with the dystrophin/glycoproteins/extracellular matrix complex.Key WorDs: congenital muscular dystrophy, MDC1A, collagen VI related disorders, glycosylation of alphadystroglycan, Fukuyama DMC, muscle-eye-brain (MeB) disease, Walker-Warburg syndrome, rigid spine syndrome. distrofia muscular congênita. parte ii: revisão da patogênese e perspectivas terapêuticas resumo -As distrofias musculares congênitas (DMCs) são miopatias hereditárias geralmente, porém não exclusivamente, de herança autossômica recessiva, que apresentam grande heterogeneidade genética e clínica. são caracterizadas por hipotonia muscular congênita, atraso do desenvolvimento motor e fraqueza muscular de início precoce associada a padrão distrófico na biópsia muscular. o quadro clínico, de gravidade variável, pode também incluir anormalidades oculares e do sistema nervoso central. A partir de 1994, os conhecimentos sobre genética e biologia molecular das DMCs progrediram rapidamente, sendo a classificação continuamente atualizada. os aspectos clínicos e diagnósticos dos principais subtipos de DMC foram apresentados no número anterior deste periódico, como primeira parte desta revisão. Nesta segunda parte apresentaremos os principais mecanismos patogênicos e as perspectivas terapêuticas dos subtipos mais comuns de DMC: DMC tipo 1A com deficiência de merosina, DMCs relacionadas com alterações do colágeno VI (Ullrich e Bethlem), e DMCs com anormalidades de glicosilação da alfa-distroglicana (DMC Fukuyama, DMC "Muscle-eye-brain" ou MeB, síndrome de Walker Warburg, DMC tipo 1C, DMC tipo 1D). A DMC com espinha rígida, mais rara e não relacionada com alterações do complexo distrofina-glicoproteínas associadas-matriz extracelular também será abordada quanto aos mesmos aspectos patogênicos e terapêuticos.PAlAVrAs-ChAVes: distrofia muscular congênita, merosina, colágeno VI, glicosila...

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Section: Therapeutic Perspectivesmentioning

confidence: 99%

Section: Therapeutic Perspectivesmentioning

confidence: 99%

Congenital muscular dystrophy. Part II: a review of pathogenesis and therapeutic perspectives

Reed

2009

Arq. Neuro-Psiquiatr.

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“…Thus, the laminin polymer scaffold appears to be necessary for the organization of the basement membrane and the interaction between the matrix and cell membranes, both of which are essential for maintenance of the skeletal muscle functions. Interestingly, mini-agrin, which retains binding affinities to both DG and laminin a4-and a5-chains (up-regulated a-chains in laminin a2-deficient muscle), is shown to be able to compensate for loss of the laminin a2-chain in dy W mice by establishing an alternative DG-matrix linkage (Moll et al 2001). Laminin-receptor interaction is also thought to be involved in the apoptotic pathway that may underlie the pathogenesis of muscular dystrophy because of the increased signs of apoptosis that were reported in laminin-2-deficient mice and human patients (Miyagoe et al 1997;Hayashi et al 2001).…”

Section: Extracellular Matrix Proteins and Receptorsmentioning

confidence: 99%

“…As already mentioned, reinforcement of the linkage between DG and matrix proteins by LARGE or mini agrin expression (Moll et al 2001) is an intriguing strategy for dystroglycanopathies and laminin-deficient muscular dystrophies, respectively. As for DMD, utrophin is a target protein for the compensation of dystrophin defects.…”

Section: Therapeutic Approachesmentioning

confidence: 99%

The genetic and molecular basis of muscular dystrophy: roles of cell–matrix linkage in the pathogenesis

2006

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Muscular dystrophies are a heterogeneous group of genetic disorders. In addition to genetic information, a combination of various approaches such as the use of genetic animal models, muscle cell biology, and biochemistry has contributed to improving the understanding of the molecular basis of muscular dystrophy's etiology. Several lines of evidence confirm that the structural linkage between the muscle extracellular matrix and the cytoskeleton is crucial to prevent the progression of muscular dystrophy. The dystrophin-glycoprotein complex links the extracellular matrix to the cytoskeleton, and mutations in the component of this complex cause Duchenne-type or limb-girdle-type muscular dystrophy. Mutations in laminin or collagen VI, muscle matrix proteins, are known to cause a congenital type of muscular dystrophy. Moreover, it is not only the primary genetic defects in the structural or matrix proteins, but also the primary mutations of enzymes involved in the protein glycosylation pathway that are now recognized to disrupt the matrix-cell interaction in a certain group of muscular dystrophies. This group of diseases is caused by the secondary functional defects of dystroglycan, a transmembrane matrix receptor. This review considers recent advances in understanding the molecular pathogenesis of muscular dystrophies that can be caused by the disruption of the cell-matrix linkage.

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“…11 In case of dy mice, an artificial miniagrin was used to cross-link proteins into a basement membrane-like matrix to compensate for lack of laminin-2 and -4. Surprisingly, overexpression of proteins that are normally confined to the neuromuscular junction such as utrophin, 37 ␣7 integrin, 38 GalNAc transferase, 12 and the agrin minigene 39 have localized these proteins all along the plasma membrane with subsequent benefit for the diseased muscle. The exact molecular mechanisms for this distribution and beneficial effect, however, are not clear.…”

Section: Discussionmentioning

confidence: 99%

ADAM12 Alleviates the Skeletal Muscle Pathology in mdx Dystrophic Mice

Kronqvist¹,

Kawaguchi²,

Albrechtsen³

et al. 2002

The American Journal of Pathology

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Muscular dystrophy is characterized by muscle degeneration and insufficient regeneration and replacement of muscle fibers by connective tissue. New therapeutic strategies directed toward various forms of muscular dystrophy are needed to preserve muscle mass and promote regeneration. In this study we examined the role of the transmembrane ADAM12, a disintegrin and metalloprotease, which is normally associated with development and regeneration of skeletal muscle. We demonstrate that ADAM12 overexpression in the dystrophin-deficient mdx mice alleviated the muscle pathology in these animals, as evidenced by less muscle cell necrosis and inflammation, lower levels of serum creatine kinase, and less uptake of Evans Blue dye into muscle fibers. These studies demonstrate that ADAM12 directly or indirectly contributes to muscle cell regeneration, stability, and survival.

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An agrin minigene rescues dystrophic symptoms in a mouse model for congenital muscular dystrophy

Cited by 220 publications

References 29 publications

Congenital muscular dystrophy. Part II: a review of pathogenesis and therapeutic perspectives

Congenital muscular dystrophy. Part II: a review of pathogenesis and therapeutic perspectives

The genetic and molecular basis of muscular dystrophy: roles of cell–matrix linkage in the pathogenesis

ADAM12 Alleviates the Skeletal Muscle Pathology in mdx Dystrophic Mice

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