fm1-43 and Muscular-Dystrophies--Limb-Girdle

fm1-43 has been researched along with Muscular-Dystrophies--Limb-Girdle* in 1 studies

Other Studies

1 other study(ies) available for fm1-43 and Muscular-Dystrophies--Limb-Girdle

Article	Year
GREG cells, a dysferlin-deficient myogenic mouse cell line. Experimental cell research, 2012, Jan-15, Volume: 318, Issue:2 The dysferlinopathies (e.g. LGMD2b, Myoshi myopathy) are progressive, adult-onset muscle wasting syndromes caused by mutations in the gene coding for dysferlin. Dysferlin is a large (~200kDa) membrane-anchored protein, required for maintenance of plasmalemmal integrity in muscle fibers. To facilitate analysis of dysferlin function in muscle cells, we have established a dysferlin-deficient myogenic cell line (GREG cells) from the A/J mouse, a genetic model for dysferlinopathy. GREG cells have no detectable dysferlin expression, but proliferate normally in growth medium and fuse into functional myotubes in differentiation medium. GREG myotubes exhibit deficiencies in plasma membrane repair, as measured by laser wounding in the presence of FM1-43 dye. Under the wounding conditions used, the majority (~66%) of GREG myotubes lack membrane repair capacity, while no membrane repair deficiency was observed in dysferlin-normal C2C12 myotubes, assayed under the same conditions. We discuss the possibility that the observed heterogeneity in membrane resealing represents genetic compensation for dysferlin deficiency. Topics: Animals; Cell Line; Cell Proliferation; Dysferlin; Lasers; Membrane Proteins; Mice; Muscle Development; Muscle Fibers, Skeletal; Muscle, Skeletal; Muscular Dystrophies, Limb-Girdle; Myoblasts; Pyridinium Compounds; Quaternary Ammonium Compounds; Wounds and Injuries	2012

Article

Year

GREG cells, a dysferlin-deficient myogenic mouse cell line.

Experimental cell research, 2012, Jan-15, Volume: 318, Issue:2

The dysferlinopathies (e.g. LGMD2b, Myoshi myopathy) are progressive, adult-onset muscle wasting syndromes caused by mutations in the gene coding for dysferlin. Dysferlin is a large (~200kDa) membrane-anchored protein, required for maintenance of plasmalemmal integrity in muscle fibers. To facilitate analysis of dysferlin function in muscle cells, we have established a dysferlin-deficient myogenic cell line (GREG cells) from the A/J mouse, a genetic model for dysferlinopathy. GREG cells have no detectable dysferlin expression, but proliferate normally in growth medium and fuse into functional myotubes in differentiation medium. GREG myotubes exhibit deficiencies in plasma membrane repair, as measured by laser wounding in the presence of FM1-43 dye. Under the wounding conditions used, the majority (~66%) of GREG myotubes lack membrane repair capacity, while no membrane repair deficiency was observed in dysferlin-normal C2C12 myotubes, assayed under the same conditions. We discuss the possibility that the observed heterogeneity in membrane resealing represents genetic compensation for dysferlin deficiency.

Topics: Animals; Cell Line; Cell Proliferation; Dysferlin; Lasers; Membrane Proteins; Mice; Muscle Development; Muscle Fibers, Skeletal; Muscle, Skeletal; Muscular Dystrophies, Limb-Girdle; Myoblasts; Pyridinium Compounds; Quaternary Ammonium Compounds; Wounds and Injuries

2012