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Aspetti comparativi dell'inserzione prossimale del muscolo bicipite brachiale dalla posizione quadrupedale alla posizione retta
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Comparative aspects of proximal heads of biceps brachi muscle from quadrupedal to bipedal posture
No full textComparison of skeletal fibre types between somitic (trunk and limb) and presomitic (craniofacial) muscles
No full textStructural study of skeletal muscle fibres in healthy and pseudomyotonia affected cattle
No full textCattle congenital pseudomyotonia (PMT), recognized as naturally occurring animal model of human Brody disease, is an inherited recessive autosomal muscular disorder due to missense mutations in ATP2A1 gene, encoding sarco(endo)plasmic reticulum Ca2(+)-ATPase protein, isoform 1 (SERCA1). PMT has been described in the Chianina and Romagnola italian cattle breeds and as a single case in Dutch improved Red and White cross-breed. The genetic defect turned out to be heterogeneous in different cattle breeds, even though clinical symptoms were homogeneous. Skeletal muscles of affected animals are characterized by a selective deficiency of SERCA1 in sarcoplasmic reticulum (SR) membranes. Recently, we provided evidence that in Chianina breed, the ubiquitin proteasome system is responsible for SERCA1 mutant premature disposal, even when the mutation does not affect the catalytic properties of the pump.
Results presented here show that all SERCA1 mutants described until now, although expressed at low level, are correctly targeted to SR membranes. Ultrastructural studies confirm that in pathological muscle fibres, structure, as well as triads, is well preserved.
All together these results suggest that a possible therapeutical approach based on the rescue of the defective protein at SR membranes could be hypothesized. Only fully functionally active missense mutants, whem located at the SR membrane could restore the efficient control of Ca2+ homeostasis and prevent the appearance of the pathological signs. Moreover, these data demonstrate the increasing importance of domestic animals as genetic models of human pathologies
Edizione italiana della "NOMENCLATURA ANATOMICA VETERINARIA ILLUSTRATA" di O. SCHALLER
No full textANTONIO DELFINO EDITORE; EDIZIONE ITALIANA A CURA DI MASCARELLO F. E COZZI B
Natural involution of muscle in the proximal sesamoidean ligament in sheep.
No full textIn sheep, the muscle component of the proximal sesamoidean ligament, which is well developed at birth, undergoes a progressive involution postnatally. The development of muscle fibres in the proximal sesamoidean ligament was compared with masseter and semimembranosus muscles from before birth into adult life, using histochemical, immunohistochemical and biochemical methods. Neonatal myosin (a marker for developmental immaturity) disappeared earlier, and the adult pattern of myosin expression and fibre type composition was reached earlier in the proximal sesamoid ligament than masseter and semimembranosus. Proximal sesamoid ligament muscle fibres therefore complete normal development, but with a faster time course than the other muscles. Invasion of fibrous connective tissue between muscle fibres of the proximal sesamoidean ligament adjoining the tendinous component (one feature of the involution) was found to begin perinatally, eventually resulting in a marked fibrosis and atrophy of peripheral fibres. Regeneration of muscle fibres was absent or abortive, even near areas of fibre necrosis
Myosin isoform transition during development of extraocular and masticatory muscles in the foetal rat.
No full textThe late fetal development of rat extra-ocular and masticatory muscles was examined by myosin immunohistochemistry. The pattern of slow and neonatal myosin isoform expression in primary and secondary myotubes in these muscles was generally similar to that seen by others in limb muscles. We observed a consistent difference between the Sprague-Dawley and Wistar rats in the degree of maturity reached by all muscles studied at a particular age. In both strains, extra-ocular muscles were also about one day in advance of the masticatory muscles. Thus, secondary myotubes were first seen at E17 in Wistar extraocular muscles, at E18 in Sprague-Dawley extra-ocular muscles and Wistar masticatory muscles, and at E19 in Sprague-Dawley masticatory muscles. There was a strikingly early and complete type differentiation of primary myotubes in extraocular muscles, and tonic myosin first appeared before birth in presumptive extrafusal tonic fibres in the orbital layer of the oculorotatory muscles. Throughout the late fetal period, retractor bulbi was composed of fast myotubes only, but these myotubes were not arranged in classical clusters. In the masticatory muscles at E17/E18 some slow primary myotubes started to express tonic myosin, and these presumptive spindle bag2 fibres were located only in regions of the muscles known to contain spindles in the adult. Presumptive bag1 fibres appeared about a day later (initially without tonic myosin), and in the region of the spindle cluster in anterior deep masseter extrafusal secondary myotube production appeared to be suppressed.
Key words Muscle development - Extra-ocular muscles - Masticatory muscles - Rat fetu
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