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Origin and development of the epicardium in the mouse embryo (1987)

Komiyama, Masatoshi ; Ito, Kintoku ; Shimada, Yutaka

Springer

Anatomy and embryology 176 (1987), S. 183-189

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ISSN: 1432-0568

Keywords: Epicardium ; Development ; Heart ; Mouse embryo ; Scanning electron microscopy

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The formation of the epicardium was investigated in the mouse embryo using scanning electron microscopy (SEM) in order to establish a three-dimensional perspective concerning epicardial development in mammals. The epicardium first appears as aggregates of cells scattered on the caudal surface of the ventricle and atria where these regions face the septum transversum in a 9-day-old embryo. These aggregated cells seem to have originated from the mesothelial projections extending from the surface of the septum transversum. Then, the cells of each aggregate flatten, subsequently fusing with each other to form a continuous sheet of epicardium. The fusion of aggregates proceeds in a cranial direction. Finally, the bulbus cordis and truncus arteriosus become invested by migrating cells at the cranial end of the epicardial sheet about 11 days after fertilization. The present observations are discussed in comparison with those made previously in avian embryos.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00310051

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Spatial relationship of nebulin relative to other myofibrillar proteins during myogenesis in embryonic chick skeletal muscle cellsin vitro (1992)

Komiyama, Masatoshi ; Zhou, Zhen-Hua ; Maruyama, Koscak ; [et al.]

Springer

Journal of muscle research and cell motility 13 (1992), S. 48-54

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ISSN: 1573-2657

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary The developmental expression of nebulin was studied in embryonic chick skeletal muscle cellsin vitro by means of immunofluorescence microscopy. Initially nebulin appeared homogeneously or in a punctate form in the cytoplasm, and then it was assembled into I-Z-I-like complexes containing actin andα-actinin but not myosin and connectin (titin). Striated patterns of nebulin (‘singlets’) in myofibrils appeared simultaneously with those ofα-actinin (Z-bands), myosin (A-bands) and connectin (‘doublets’), but earlier than those of actin. After actin striations were formed as myofibrils matured, each nebulin band started to exhibit ‘droplets’. The delayed development of nebulin compared to the I-Z-I brush formation and the myofibril maturation seems to indicate that this giant myofibrillar protein is unnecessary for both the initial (formation of I-Z-I-like structures) and the subsequent (regular alignment of myofibrils) phases of myofibrillogenesis.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01738427

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Thin-filament-binding domains of cardiac and fast skeletal muscle troponin I isoforms as studied by epitope tagging (1999)

Toyota, Naoji ; Uzawa, Hidenori ; Komiyama, Masatoshi ; [et al.]

Springer

Journal of muscle research and cell motility 20 (1999), S. 755-760

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ISSN: 1573-2657

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Abstract We examined the binding domains of cardiac and fast skeletal muscle troponin I (CTnI and FTnI, respectively) to myofibrils (MFs). Deletion mutants containing CTnI amino acid residues 1–79, 43–207 and 80–207 (CTnI-head, CTnI-tail-1 and CTnI-tail-2, respectively) and FTnI amino acid residues 1–54 and 55–182 (FTnI-head and FTnI-tail, respectively) were transiently expressed in cardiac and fast skeletal muscle cells. To monitor the intracellular localization of these exogenously introduced truncated TnIs, epitope tagging was used. CTnI-tail-1 was incorporated into cardiac MFs specifically, but CTnI-tail-2 was not assembled onto any MFs examined. This suggests that there is no potent actin filament-binding site in CTnI-tail-2. Since CTnI-tail-1 has an amino acid extension (CTnI residues 43–79) whose sequence is longer than that of CTnI-head-2; it appears that this sequence extension is important in binding to cardiac MFs. FTnI-tail, containing the inhibitory domain of actomyosin ATPase, showed intensive and specific incorporation into fast MFs. FTnI-tail was a homologous fragment of CTnI-tail-2, but the binding patterns of these two domains differed greatly from each other. It is possible that the absence of potent binding affinity of CTnI-tail-2 corresponding to the inhibitory domain of actomyosin ATPase is advantageous for continuous cardiac muscle contraction, since a potent inhibitory activity is a serious obstacle to cardiac muscle contraction. It can be assumed that distinctive binding ability of functional domains of TnI-tails reflect unique adaptations to muscles with different physiological properties.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1005651931657

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Myofibril assembly is linked with vinculin, α-actinin, and cell-substrate contacts in embryonic cardiac myocytes in vitro (1989)

Terai, Masaru ; Komiyama, Masatoshi ; Shimada, Yutaka

New York, NY : Wiley-Blackwell

Cell Motility and the Cytoskeleton 12 (1989), S. 185-194

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ISSN: 0886-1544

Keywords: myofibril assembly ; focal contacts ; vinculin ; α-actinin ; connectin ; immunocytochemistry ; Life and Medical Sciences ; Cell & Developmental Biology

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Biology , Medicine

Notes: The relationship of nascent myofibrils with the accumulation of adhesion plaque proteins and the formation of focal cell contacts was studied in embryonic chick cardiac myocytes in vitro. The cultures were double-stained with various combinations of the specific antiactin drug phalloidin and antibodies against vinculin, α-actinin, connectin (titin), myosin heavy chain, fibronectin, and desmin and examined under fluorescence and interference reflection microscopy.In the areas of myofibril assembly, vinculin and α-actinin plaques were formed at the ventral sarcolemmae. These areas overlapped with the sites of cell-to-substrate focal contacts and extracellular fibronectin. Because the myofibrils always ran in a straight line between these sites, polarized lines appeared to be generated within the cells in response to their physical (e.g., stress) and/or biochemical environment (e.g., adhesion plaque proteins). The possible presence of other factors cannot be ruled out for the proper alignment of myofibrils. As soon as myofibrils came to span between these adhesion sites, they exhibited typically mature cross-striated characteristics. Thus, the formation of these inferred lines has some relation to or is in fact necessary for the maturation of myofibrils, in addition to the directional arrangement of sarcomeric proteins.Additionally, synthesis and distribution of myosin and connectin were tightly linked during early developmental (premyofibril and myofibril) stages. The spatial deployment of desmin was not coupled with vinculin. Thus, connectin and desmin do not appear to form the initial scaffold of sarcomeres.

Additional Material: 11 Ill.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/cm.970120402

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Subcellular localization of dystrophin and vinculin in cardiac muscle fibers and fibers of the conduction system of the chicken ventricle (1998)

Vohra, Mohammad Saeed ; Komiyama, Masatoshi ; Hayakawa, Kimihide ; [et al.]

Springer

Cell & tissue research 294 (1998), S. 137-143

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ISSN: 1432-0878

Keywords: Key words Cytoskeleton ; Costamere ; Sarcolemma ; Myofibril ; Myocardium ; Immunofluorescence confocal microscopy ; Chicken

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Abstract The subcellular localization of dystrophin and vinculin was investigated in cardiac muscle fibers and fibers of the conduction system of the chicken ventricle by immunofluorescence confocal microscopy. In ventricular cardiac muscle fibers, strong staining with antibody against dystrophin appeared as regularly arranged transverse striations at the sarcolemmal surface, and faint but uniform staining was seen in narrow strips between these striations. In fibers of the ventricular conduction system, the sarcolemma was stained uniformly with this antibody, but strong staining was found as regular striations in many areas and as scattered patches in other areas of the sarcolemma. These intensely stained striations and scattered patches of dystrophin were colocalized with those of vinculin. Because dystrophin striations were located at the level of Z bands of the underlying myofibrils, they were regarded as the concentration of this protein at costameres together with vinculin. In fibers of the conduction system, myofibrils were close to the sarcolemma where dystrophin and vinculin assumed a striated pattern, at some distance from the cell membrane where these proteins exhibited a patchy distribution, and distant from the sarcolemma where dystrophin was uniformly distributed. These data suggest that the distribution patterns of dystrophin reflect the degree of association between the sarcolemma and underlying myofibrils.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004410051163

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Differentiation of muscle-specific proteins in chicken somites as studied by immunofluorescence microscopy (1998)

Begum, Salma ; Komiyama, Masatoshi ; Toyota, Naoji ; [et al.]

Springer

Cell & tissue research 293 (1998), S. 305-311

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ISSN: 1432-0878

Keywords: Key words Myofibrillar proteins ; Myotome ; Nerve ; Acetylcholine receptor ; Chicken embryo

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Abstract Fluorescence microscopy of chicken cervical somites revealed that muscle-specific proteins began to appear at stage 11 (Hamburger and Hamilton numbering), and the onset of the expression of all the proteins examined in the present study had occurred by stage 17. Muscle proteins were classified into six groups according to the stage of their appearance. Since all these proteins were expressed before emergence of nerve fibers in myotomes, switching-on of their synthesis does not seem to require neuronal influence. However, since isoproteins other than adult muscle types disappeared and diversification of muscle fiber types occurred coordinately with the clustering of acetylcholine receptors in cervical muscles, switching-off of the synthesis of the nonadult isoforms might have been accelerated by the formation of functional neuromuscular junctions. The absence of nebulin and C-protein in early stages seems to indicate that these proteins are not required for the initial assembly of myofilaments and/or myofibrils. Further, this absence might be considered to facilitate exchangeabilities of proteins in nascent myofibrils, thereby changing the isoforms to adult types.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004410051122

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Dynamics of actin and assembly of connectin (titin) during myofibrillogenesis in embryonic chick cardiac muscle cells in vitro (1993)

Komiyama, Masatoshi ; Kouchi, Katsunori ; Maruyama, Koscak ; [et al.]

New York, NY [u.a.] : Wiley-Blackwell

Developmental Dynamics 196 (1993), S. 291-299

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ISSN: 1058-8388

Keywords: Cardiac myocyte ; Development ; Myofibril ; Life and Medical Sciences ; Cell & Developmental Biology

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Medicine

Notes: Immunogold electron microscopy of cardiac myocytes microinjected with biotin-labeled actin showed that gold labeling was first found around the A band level of myofibrils at their proximal parts. This observation suggests that polymerization of actin and/or the addition of newly formed actin filaments occurs preferentially in association with myosin filaments to increase the myofibrillar girth. At the distal portions of developing myofibrils, their terminal ends were initially labeled, suggesting that continued reorganization and/or de novo formation of myofibrils occurs at these locations. Soon, gold particles were seen along the termini of growing myofibrils. This appears to indicate that actin subunits are added at the membrane-associated ends of preexisting actin filaments to increase the length of myofibrils. Adhesion plaque proteins, e.g., vinculin, do not appear to play any role in assembling actin monomers at these sites on the inner surface of the sarcolemma.Immunofluorescence and immunoelectron microscopy of cardiomyocytes double-stained with antibodies against two distant domains of connecttin (titin) filaments and other sarcomeric proteins showed that these domains of connectin filaments and myosin were synthesized almost simultaneously on large polyribosomes and/or associated immediately after the synthesis of these molecules. Connectin and myosin bands were formed after α-actinin striations (Z bands) were seen on preformed I-Z-I-like structures. The observation that the development and distribution of connectin were tightly linked with those of myosin suggests the possible role of connectin for integrating myosin filaments with the early formed I-Z-I complexes of myofibrils. © 1993 wiley-Liss, Inc.

Additional Material: 15 Ill.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/aja.1001960412

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