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海鞘口腔虹吸管色素器官的再生。

Regeneration of oral siphon pigment organs in the ascidian Ciona intestinalis.

机构信息

INRA MSNC Group, DEPSN, Institut A. Fessard, CNRS, 1 Avenue de la Terrasse, 91198 Gif-Sur-Yvette, France.

出版信息

Dev Biol. 2010 Mar 15;339(2):374-89. doi: 10.1016/j.ydbio.2009.12.040. Epub 2010 Jan 6.

Abstract

Ascidians have powerful capacities for regeneration but the underlying mechanisms are poorly understood. Here we examine oral siphon regeneration in the solitary ascidian Ciona intestinalis. Following amputation, the oral siphon rapidly reforms oral pigment organs (OPO) at its distal margin prior to slower regeneration of proximal siphon parts. The early stages of oral siphon reformation include cell proliferation and re-growth of the siphon nerves, although the neural complex (adult brain and associated organs) is not required for regeneration. Young animals reform OPO more rapidly after amputation than old animals indicating that regeneration is age dependent. UV irradiation, microcautery, and cultured siphon explant experiments indicate that OPOs are replaced as independent units based on local differentiation of progenitor cells within the siphon, rather than by cell migration from a distant source in the body. The typical pattern of eight OPOs and siphon lobes is restored with fidelity after distal amputation of the oral siphon, but as many as 16 OPOs and lobes can be reformed following proximal amputation near the siphon base. Thus, the pattern of OPO regeneration is determined by cues positioned along the proximal distal axis of the oral siphon. A model is presented in which columns of siphon tissue along the proximal-distal axis below pre-existing OPO are responsible for reproducing the normal OPO pattern during regeneration. This study reveals previously unknown principles of oral siphon and OPO regeneration that will be important for developing Ciona as a regeneration model in urochordates, which may be the closest living relatives of vertebrates.

摘要

海鞘具有强大的再生能力,但其中的潜在机制仍知之甚少。本文研究了单体海鞘 Ciona intestinalis 的咽鳃裂再生。咽鳃裂切除后,咽鳃裂远端边缘的口部色素器官(oral pigment organs,OPO)迅速再生,随后咽鳃裂近端部分才开始缓慢再生。咽鳃裂再形成的早期阶段包括细胞增殖和咽神经的重新生长,尽管神经复合体(成年大脑和相关器官)不是再生所必需的。年轻动物在切除后比老年动物更快地重新形成 OPO,表明再生具有年龄依赖性。UV 照射、微灼和培养的咽鳃裂外植体实验表明,OPO 是作为独立单位通过咽鳃裂内祖细胞的局部分化来替代,而不是通过细胞从身体的远处迁移来替代。咽鳃裂远端切除后,可准确恢复典型的 8 个 OPO 和咽鳃裂叶模式,但在咽鳃裂基部近端切除后,多达 16 个 OPO 和咽鳃裂叶可以重新形成。因此,OPO 再生的模式取决于位于咽鳃裂近远轴上的信号。提出了一个模型,即咽鳃裂近端-远端轴上的组织柱负责在再生过程中复制正常的 OPO 模式。本研究揭示了咽鳃裂和 OPO 再生的未知原则,这对于将海鞘作为尾索动物的再生模型具有重要意义,因为尾索动物可能是脊椎动物最接近的活体亲属。

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