Summary
Cytokinetic studies on the aortic endothelium using the BrdU/anti-BrdU-method were carried out on 2.5– to 6-day chick and quail embryos. The mitotic activity of the aortic endothelium is related temporally to the age of the avian embryo and spatially to the embryonic region where the aorta originates. The mitotic activity of the aortic endothelium decreases with increasing age of the embryos. In the limb buds, however, the mitotic rate of the aortic endothelial cells increases independently of the age of the embryo. This increase in the mitotic activity of the aortic endothelium at the appropriate levels coincides with the vascularization of the outgrowing limb buds. We concluded therefore that the aortic endothelium probably supplies endothelial cells for the formation of limb vessels at this stage. Thus our results suggest that angiogenesis (sprouting of capillaries from pre-existing vessels) takes place during limb vascularization in avian embryos. On the other hand, immunohistochemical studies with QH-1 or MB-1 antibody show, beside a capillary network in the central core of the wing bud, individual immunolabelled cells of mesenchymal character within the primarily avascular subectodermal region from the onset of vascularization onwards. We suggest that these cells have partly to be regarded as endothelial precursor cells, which have differentiated in situ from the local limb mesenchyme, and which will contribute to the developing vascular plexus. This means that not only angiogenesis, but also vasculogenesis (in situ from mesenchymal precursors differentiated endothelial cells) appears to be involved in limb vessel formation.
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This paper is dedicated to Prof. Dr. K.V. Hinrichsen on the occasion of his 65th birthday
Supported by the Deutsche Forschungsgemeinschaft (Ch 44/9-1, Ch 44/9-2)
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Seifert, R., Zhao, B. & Christ, B. Cytokinetic studies on the aortic endothelium and limb bud vascularization in avian embryos. Anat Embryol 186, 601–610 (1992). https://doi.org/10.1007/BF00186983
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DOI: https://doi.org/10.1007/BF00186983