Marcia Ontell scite author profile

The ultrastructure and the three-dimensional cytoarchitecture of the developing murine extensor digitorum longus muscle has been studied in spaced, serial, transverse and longitudinal ultrathin sections of the muscles of 12-, 14-, 16-, and 18-day in utero, newborn, and 5-day-old 129 ReJ mice. Despite the fact that in vivo myogenesis is asynchronous (i.e., during most of the fetal period, multiple stages of myogenesis can be seen in a single developing muscle mass), a distinct temporal pattern of development can be seen across the entire width and length of the developing muscle. At 12 days in utero, the developing extensor digitorum longus muscle consists of primary myotubes surrounded by a pleomorphic population of mononucleated cells devoid of myofilaments. At this stage, blood vessels and nerves are found peripheral to but not within the developing muscle mass. A delay of 2 days occurs between the time of formation of the primary and secondary myotubes. Clusters (consisting of one primary myotube and secondary myotubes), axon bundles, capillaries, and primitive motor endplates are found in the muscle by 16 days in utero. Evidence is presented consistent with the hypothesis that cluster formation and cluster dispersal occur simultaneously in the developing muscle, beginning as early as 16-days in utero. By 18 days in utero, many of the primary myotubes of the cluster and the independent myotubes (i.e., single myotubes enclosed in their own basal lamina) have begun to acquire the polygonal shape, fascicular arrangement, and ultrastructure characteristic of more mature myofibers. At birth, clusters are infrequently encountered, and intramuscular axons have begun to undergo myelination. At this time, the only undifferentiated, mononucleated cells present in the muscle are myosatellite cells. The first week postnatal was characterized by further maturation of the myofibers.

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Persistence in muscle of an adenoviral vector that lacks all viral genes

Chen

Mack

Kelly

et al. 1997

Proc. Natl. Acad. Sci. U.S.A.

276

153

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Genetic correction of inherited muscle diseases, such as Duchenne muscular dystrophy, will require long term expression of the recombinant protein following gene transfer. We have shown previously that a new adenoviral vector that lacks all viral genes expressed both full-length dystrophin and ␤-galactosidase in mdx (dystrophin-deficient) mouse muscle. We observed a significant histologic improvement of vector-transduced mdx muscle before the eventual loss of vector-encoded transgene expression. In this study, we investigated whether an immunological response against vector-encoded ␤-galactosidase contributed to the loss of vector expression and affected vector persistence in muscle. Intramuscular vector injection in control normal mice resulted in an early and complete loss of ␤-galactosidase expression accompanied by predominantly CD4 ؉ and CD8؉ lymphocytic infiltration and a significant loss of vector DNA. In contrast, intramuscular vector injection in lacZ transgenic mice resulted in persistent expression of ␤-galactosidase for at least 84 days with no evidence of inf lammation or significant loss of vector DNA. Our studies demonstrate that, in the absence of an immune response induced by ␤-galactosidase expression, an adenoviral vector lacking all viral genes is stably maintained in muscle.

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Marcia Ontell

The expression of myosin genes in developing skeletal muscle in the mouse embryo.

The organogenesis of murine striated muscle: A cytoarchitectural study

Persistence in muscle of an adenoviral vector that lacks all viral genes

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