Anton J. Gamel scite author profile

Hensen's node and the rostral part of the primitive streak of chick embryos at HH-stage 4-7 were investigated using scanning electron microscopy, a series of semithin sections, and whole-mount in situ hybridization. An asymmetric expression of Shh and Fgf8 was first found at HH-stage 5. The asymmetric expression of both laterality genes is preceded by an asymmetric morphology of the avian organizer. The right lip of the streak and the node is much more prominent than the left one and contains a cylindrical cell condensation that is connected with the head process. Since the densely packed cells in Hensen's node and in the cranial part of the primitive streak connect the epiblast with the endoderm, a cilia-generated "nodal flow" between epiblast and endoderm in the avian embryo seems to be unlikely.

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N-Cadherin Is Involved in Myoblast Migration and Muscle Differentiation in the Avian Limb Bud

Brand‐Saberi

Gamel

Krenn

et al. 1996

Developmental Biology

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Limb muscle formation involves invasion of the limb bud mesoderm by myogenic precursor cells from the dermomyotomes at limb bud level. Directed cell migration, homing, and differentiation of myogenic cells are controlled by the stationary cells of the limb bud mesoderm. At the level of the extracellular matrix, the molecular basis of migration control has been suggested to be exerted by the distribution of hyaluronan. Here, we demonstrate that N-cadherin-mediated interactions play a role at cell-membrane level in myoblast distribution and differentiation. N-cadherin is strongly expressed by myogenic cells in the chick limb bud and more moderately expressed by stationary mesodermal cells in the myogenic zones and progress zone. After in vivo injection of antibodies and Fab-fragments against the homophilic binding site of N-cadherin into the wing bud mesoderm, aggregates of myoblasts are found predominantly in the dorsal myogenic zone 36 hr after injection apparently due to immobilization. In the same position, areas of myf-5-positive cells are also observed. In injected limb buds, Pax-3-positive cells are less evenly distributed than in uninjected limbs. They are found to spread up to the epidermis and also form loosely arranged aggregates. After prolonged reincubation periods, injected limbs show ectopic myoblasts that are rich in desmin and areas of strongly desmin-expressing myoblasts within muscle blastemas. These effects were not observed after application of antibodies against other parts of the N-cadherin molecule. We conclude that N-cadherin is involved in myoblast migration in the limb buds via homophilic interactions and that it plays a role in signal transduction during myogenesis.

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The scoliosis <i>(sco)</i> mouse: a new allele of <i>Pax1</i>

Adham

Gille

Gamel

et al. 2005

Cytogenet Genome Res

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We describe the spontaneous mutant mouse scoliosis (sco) that carries a new allele of Pax1 (un-i, undulated intermediate). The Pax1^un-i allele is lacking the 5′-flanking region and exon 1 to 4 which is mapped to nt –2636 to –640 and –272 to 4271 of the Pax1 gene. Homozygous mice show a mild form of the known phenotypes of other Pax1 mutants. Adult mice have a lumbar scoliosis and kinky tails. In homozygous embryos the skeleton ossifies early, ossification centers of the vertebral bodies are fused with the ossification centers of the pedicles. Neural arches and spinous processes are underdeveloped but the pedicles and transverse processes are overdeveloped which is in contrast to other Pax1 mutants. In the scapula, the acromion is missing and the deltoid tuberosity of the proximal humerus is shortened and thickened. Among the inner organs the thymus development is affected. In late embryos, the thymus is small and thymocyte numbers are reduced. T-cell development from CD4^– and CD8^– double negative (DN) to CD4⁺ and CD8⁺ double positive (DP) is decelerated. The percentage of CD90⁺ cells is also reduced but in contrast to other Pax1 mutants no alteration of the expression level of the CD90 (Thy-1) could be found.

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Halves of Epithelial Somites and Segmental Plate Show Distinct Muscle Differentiation Behaviorin VitroCompared to Entire Somites and Segmental Plate

Gamel

Brand‐Saberi

Christ

1995

Developmental Biology

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Medial and lateral halves of the somite are known to differ with respect to their developmental fates: Cells from the medial half of the somite give rise to the epaxial muscle of the back and cells from the lateral half of the somite give rise to the skeletal muscles of the limbs and the ventrolateral body wall. To get a better insight into myogenic determination of somite hemispheres, isolated entire somites as well as medial and lateral parts of somites and of segmental plate from 2 day chick embryos were explanted in vitro. These parts of the paraxial mesoderm were also cocultured in contact with somite surrounding tissues such as neural tube lacking floorplate, neural tube including notochord-floorplate complex, and intermediate mesoderm, which were examined with respect to their muscle promoting or inhibiting influences. Skeletal muscle differentiation was monitored by the use of anti-myosin heavy chain antibody (MF20). It is shown that medial and lateral halves of segmental plate and epithelial somites are capable of undergoing myogenesis in the absence of axial organs. In contrast, cultures of intact segmental plate and epithelial somites from the same levels did not show muscle differentiation. Neural tube lacking floorplate promoted muscle differentiation in the medial halves especially of epithelial somites and also of segmental plate, but not in the lateral halves of the paraxial mesoderm at these levels. Intermediate mesoderm was found to inhibit muscle differentiation in medial and lateral halves of segmental plate and of epithelial somites. We further demonstrate that the arrangement of the myoblasts within tissue cultures is influenced by the presence or absence of axial organs.

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Histone Deacetylase Inhibitor, Trichostatin A, Affects Gene Expression Patterns during Morphogenesis of Chicken Limb Buds in vivo

Zhao¹,

Dai²,

Bonafede³

et al. 2009

Cells Tissues Organs

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Acetylation is one of the key chromatin modifications that control gene transcription during embryonic development and tumorigenesis. The types of genes sensitive to such modifications in vivo are not known to date. We investigated the expression of a number of genes involved in embryonic development after treatment with trichostatin A (TSA), a histone deacetylase (HDAC) inhibitor, in the limbs of chicken embryos. Our results show that TSA affects the expression profiles of some genes that play important roles during limb development. The expression of BMP4, SF/HGF and Twist1 increased, whereas the expression of BMP2, FGF8, Shh, Scleraxis, Myf5 and MyoD was decreased or even inhibited. In contrast, the expression of Pax3, Paraxis, Msx1, CREB, and PCNA was not affected. Our results indicate that the chicken embryo can serve as an effective in vivo model for studying the effect of HDAC inhibitors on gene expression and can be helpful for understanding the role of chromatin remodeling and epigenetic control of gene expression.

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Anton J. Gamel

Morphological left-right asymmetry of Hensen's node precedes the asymmetric expression of Shh and Fgf8 in the chick embryo

N-Cadherin Is Involved in Myoblast Migration and Muscle Differentiation in the Avian Limb Bud

The scoliosis <i>(sco)</i> mouse: a new allele of <i>Pax1</i>

Halves of Epithelial Somites and Segmental Plate Show Distinct Muscle Differentiation Behaviorin VitroCompared to Entire Somites and Segmental Plate

Histone Deacetylase Inhibitor, Trichostatin A, Affects Gene Expression Patterns during Morphogenesis of Chicken Limb Buds in vivo

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