The mechanisms underlying the establishment of left-right (L-R) asymmetry in bilaterians is one of the central enigmas in developmental biology. Amphioxus is an important model in studying the mechanisms of animal asymmetry specification due to its particular phylogenetic position, vertebrate-like embryogenesis and body plan. Recently, with the establishments of artificial breeding technology, high-efficiency microinjection method and gene knockout technology, researchers have successfully dissected the mechanisms of amphioxus L-R asymmetry development. In this review, we summarize the major progress in understanding L-R asymmetry specification in amphioxus and propose a model of regulation of L-R asymmetry in this species. Hh protein is transported dominantly to the right side by cilia movement, leading to R>L Hh signaling andCerexpression. Cer inhibits expression of Nodal, leading to the asymmetric expression of Nodal-dependent genes. The L-R differences in the propagation of the Nodal pathway result in the correct morphological L-R asymmetry development in amphioxus embryo. BMP signaling probably does not provide the asymmetric cue, but is necessary for correct expression ofCer andNodal.
两侧对称动物左右体轴建立机制研究是发育生物学领域重要的基础科学问题之一。文昌鱼(amphioxus)由于其特殊的进化地位以及与脊椎动物相似的胚胎发育模式和身体构筑方式,是研究动物左右体轴建立机制的理想模式物种。近年来随着文昌鱼室内全人工繁育技术、高效显微注射技术和基因敲除技术的建立,国内外学者在左右体轴建立机制研究上取得了丰硕的成果。本文从文昌鱼胚胎左右不对称发育特点出发,总结了近期文昌鱼左右体轴建立方面取得的研究进展,并提出了文昌鱼左右体轴调控网络图:纤毛运动导致Hh蛋白在文昌鱼中不对称分布(L<R),从而导致Hh信号通路的不对称激活以及Cer的不对称表达(L<R),Cer对Nodal具有抑制作用,由此导致依赖于Nodal活性的基因呈左右不对称表达并最终诱导胚胎左右体轴的正确建立;BMP信号可能并不提供左右不对称信号,但却是Cer和Nodal正确表达的必要条件。.
Keywords: L-R axis; amphioxus; embryonic development.