透明质酸受体CD44:发育调控的表达及其在早期鸡胚中的作用。

K. Konstantopoulos, Alexandros Dimiropoulos, N. Zagris
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引用次数: 0

摘要

CD44是一种膜糖蛋白,是透明质酸的主要受体。我们利用RT-PCR和免疫荧光技术研究了CD44的表达和时空分布,并利用抗CD44阻断抗体干扰早期鸡胚中CD44依赖的信号程序。有趣的是,CD44的早期存在似乎对透明质酸的快速合成至关重要。在第XIII期(囊胚),CD44在外胚层和下胚层表达强烈。在原肠胚形成(HH3-4)过程中,细胞进入原始沟槽迁移和血岛强烈表达CD44。在HH8时,折叠神经板显示CD44的极性表达调控,神经嵴、脊索和血岛的表达也很强烈。在器官发生早期,CD44在发育中的具有极性调节的颅神经管、尾神经管、视柄、耳小泡、前移和迁移的神经嵴细胞、神经节、脊索、咽、肠、肝、主动脉、心脏、体、血管区、羊膜、绒毛膜中表达强烈,在颅神经管和耳小泡管腔的细胞外基质中表达明显。抗体介导的CD44功能的扰动导致细胞外基质无组织,组织间隙丧失,脊索严重异常,神经外胚层和间质团块混杂,体和血管缺失,神经嵴细胞迁移抑制。CD44在基质完整性和组织模式中具有多种关键作用,这与它已知的生化特征和与透明质酸、生长因子、受体和其他信号分子的相互作用一致。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Hyaluronan receptor CD44: developmentally regulated expression and role in the early chick embryo.
CD44 is a membrane glycoprotein and is the main receptor for hyaluronan. We studied the CD44 expression and spatio-temporal distribution by RT-PCR and immunofluorescence, and used an anti-CD44 blocking antibody to perturb CD44-depended signalling programs in the early chick embryo. The intense CD44 levels we detected in the morula embryo (XI) were of novel interest suggestive of a maternally stored transcript. Intriguingly, the CD44 early presence seemed to be essential for the rapid synthesis of hyaluronan. At stage XIII (blastula), CD44 expression was intense in the epiblast and hypoblast. During gastrulation (HH3-4), the cells ingressing into the primitive groove and migrating and the blood islands expressed CD44 intensely. At HH8, the folding neural plate showed polarity regulation of CD44 expression, and expression was also intense in neural crest, notochord, and blood islands. During early organogenesis, CD44 was expressed intensely in the developing cranial and caudal neural tube which showed polarity regulation, in optic stalks, otic vesicles, pre-and migratory neural crest cells, ganglia, notochord, pharynx, gut, liver, aortae, heart, somites, vascular area, amnion, chorion and was distinct in extracellular matrix of cranial neural tube and otic vesicle lumens. Antibody-mediated perturbation of CD44 function resulted in unorganized extracellular matrix, loss of tissue spaces, grossly abnormal notochord, intermingling of clumped neuroectoderm and mesenchyme, absence of somites and blood vessels, inhibition of neural crest cell emigration. CD44 has various pivotal roles in matrix integrity and tissue patterning consistent with its known biochemical features and interactions with hyaluronan, growth factors, receptors and other signaling molecules.
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