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Neural control of embryonic acetylcholine receptor and skeletal muscle (1983)

Creazzo, T. L. ; Sohal, G. S.

Springer

Cell & tissue research 228 (1983), S. 1-12

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ISSN: 1432-0878

Keywords: Avian skeletal muscle ; Development ; Acetylcholine receptor ; Innervation

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary The manner by which motor neurons exert control over the distribution and number of acetylcholine receptors, and muscle development was investigated in the superior oblique muscle of white Peking duck embryos. Clusters of receptors in the normally developing muscle first appeared on day 10 of incubation as determined with I125 α-bungarotoxin autoradiography. The initial appearance of receptor clusters coincided with the arrival of motor nerve fibers in the muscle. Clusters of receptors also appeared in normal fashion in muscles made aneural by destruction of motor neurons on day 7. But after day 14 these clusters had disappeared and no new clusters were seen thereafter in the aneural muscle. Receptor clusters persisted throughout development in muscle in which neuromuscular transmission was blocked with either curare or botulinum toxin and in muscles denervated on day 10.5, i.e., shortly after the initial nerve-muscle contact but prior to the onset of muscle activity. A progressive increase in the total number of receptors and in the total amount of protein occurred during the course of normal development. However, the specific activity of the receptor protein declined sharply following innervation on day 10. The total number of receptors and the specific activity of the receptor was affected depending on whether the motor neurons were destroyed before or after innervation and following chronic blockade of neuromuscular transmission. The half-life of the receptor protein was similar in normal, aneural, and paralyzed muscles (26, 25, 26 h, respectively). Measurements of total protein indicated that essentially no muscle growth occurred in the complete absence of innervation. Paralyzed muscles continued to develop but at a slower pace.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00206259

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Role of innervation on the embryonic development of skeletal muscle (1980)

Sohal, G. S. ; Holt, R. K.

Springer

Cell & tissue research 210 (1980), S. 383-393

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ISSN: 1432-0878

Keywords: Avian skeletal muscle ; Development ; Normal, aneural, paralyzed muscle

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary The extent to which the motor innervation regulates the embryonic development of skeletal muscle was investigated by comparing changes in normal, aneural, and paralyzed superior oblique muscle of the duck embryo. The muscle was made aneural by permanently destroying the trochlear motor neurons with electrocautery on day 7 i.e., three days prior to innervation. Embryos were paralyzed by daily application of α-bungarotoxin onto the chorioallantoic membrane from day 10 onwards. The differentiation of myoblasts and myotubes in the aneural muscle was severely affected and did not progress to the myofiber stage. A mass of dead cells in the aneural muscle was replaced by connective tissue. Although the differentiation of myoblasts and myotubes was also retarded in the paralyzed muscle, numerous muscle cells progressed to the myofiber stage. Neuromuscular junctions of normal ultrastructure were seen in all paralyzed muscles. Degeneration of some cells in the paralyzed muscle occurred but there was no evidence of a massive wave of cell death similar to that observed in the aneural muscle. These observations suggest that both the trophic factors from the nerve and the nerve-evoked muscle activity are essential for the execution of the developmental program of the muscle. Trophic factors may play a larger role in differentiation, and maintenance of the muscle than muscle activity.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00220196

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Development of smooth and skeletal muscle cells in the iris of the domestic duck, chick and quail (1986)

Yamashita, T. ; Sohal, G. S.

Springer

Cell & tissue research 244 (1986), S. 121-131

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ISSN: 1432-0878

Keywords: Smooth muscle cells ; Skeletal muscle cells ; Iris ; Embryonic development ; Innervation ; Aves

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary Embryonic development of the avian iris muscle was studied by light and electron microscopy in order to clarify the origin of the iridial skeletal muscle cells. In normal development of the domestic duck, chick, and quail, the muscle bundles appearing in the iris at stage 35 consisted solely of smooth muscle cells. Undifferentiated cells appeared at stage 36, and finally skeletal muscle cells were observed at stage 37. This sequence suggests that stromal mesenchymal cells migrate into the muscle bundles to become skeletal muscle cells. Tissue culture of whole indes removed from duck embryos at stages 30 through 34 produced skeletal muscle cells while culture of isolated iridial epithelia removed at stages 31 and 32 did not. Removal of the midbrain region of duck embryos at stage 10 frequently produced severe disorganization of the eye concomitant with craniofacial deformities typical of a neural crest mesenchymal defect. These severely disorganized eyes were devoid of iridial skeletal muscle cells. These results also suggest mesenchymal origin of iridial skeletal muscle cells.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00218389

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