Wu Xiaoming, Chen Qiran, Washio Youhei, Yokoi Hayato, Suzuki Tohru
Laboratory of Marine Life Science and Genetics, Graduate School of Agricultural Science, Tohoku University, Sendai, Japan.
Fisheries Laboratory, Kindai University, Shirahama, Wakayama, Japan.
J Exp Zool B Mol Dev Evol. 2016 Dec;326(8):464-473. doi: 10.1002/jez.b.22717. Epub 2017 Jan 18.
In marine aquaculture fish, excessive supplement of vitamin A (VA) to zooplanktons for larval culture and experimental exposure of larvae to retinoic acid (RA: active form of VA) have been known to cause vertebral deformity. However, the tissues in the developing vertebral column that are affected by RA and the progression of vertebral deformity remain undetermined. To examine these questions, we histologically traced the progress of vertebral deformity induced by RA in Japanese flounder (Paralichthys olivaceus). Larvae were exposed to RA for 3 days at mid-metamorphosis (G-stage), a critical stage for vertebral deformity. Intervertebral ligament, which is known to form intervertebral joints in cooperation with the notochord, was severely degenerated by RA, leading to fusion of centra. During further development to adult, growth of centra was severely suppressed in an anterior-posterior direction in RA-treated fish and the notochord tissue was lost from fused centra, resulting in complete loss of intervertebral joints and fusion of centra. We conclude that RA initially damages the intervertebral ligaments, and these defects lead to fusion, narrowing of centra, and loss of intervertebral joints in the vertebral column. The cumulative effect of these modifications is a truncated body form.
在海水养殖鱼类中,已知在幼体培育时向浮游动物过度补充维生素A(VA)以及使幼体实验性暴露于视黄酸(RA:VA的活性形式)会导致脊椎畸形。然而,受RA影响的发育中脊柱组织以及脊椎畸形的发展过程仍未明确。为了研究这些问题,我们通过组织学方法追踪了日本牙鲆(Paralichthys olivaceus)中由RA诱导的脊椎畸形进展情况。在变态中期(G期),即脊椎畸形的关键阶段,将幼体暴露于RA中3天。已知与脊索协同形成椎间关节的椎间韧带被RA严重退化,导致椎体融合。在进一步发育至成体的过程中,经RA处理的鱼椎体在前后方向上的生长受到严重抑制,融合椎体中的脊索组织消失,导致椎间关节完全丧失和椎体融合。我们得出结论,RA最初会损害椎间韧带,这些缺陷会导致脊柱中的椎体融合、椎体变窄以及椎间关节丧失。这些改变的累积效应是身体形态缩短。
