Ragsdale C W, Petkovich M, Gates P B, Chambon P, Brockes J P
Ludwig Institute for Cancer Research, London, UK.
Nature. 1989 Oct 19;341(6243):654-7. doi: 10.1038/341654a0.
In urodele amphibians, the progenitor cells that regenerate amputated limbs (known as the blastema) normally replace only the missing structures. After systemic delivery of retinoic acid (RA), more proximal structures are also formed, indicating that RA can control position specification in the proximal-distal axis of the regenerating limb. According to dose and experimental context, retinoids can also re-specify the anteroposterior axis of the limb, induce deletions of skeletal elements, or block re-growth completely. To study the molecular basis of these morphogenetic effects, we screened complementary DNA libraries of newt regenerative tissues (limbs and tails) for hormone nuclear receptors activated by RA. Two functional retinoic acid receptors (RARs) were identified, one of which is the newt homologue of the human alpha-receptor (RAR alpha). The second receptor, called RAR delta, is novel. Sequence analysis suggests that the composite newt RAR previously reported is chimaeric, consisting of 5'RAR-beta-like and 3' RAR delta clones. We conclude that multiple RARs are expressed during limb regeneration in amphibians and suggest that receptor heterogeneity may underlie the different effects of retinoids on limb morphogenesis.
在有尾两栖动物中,再生被截断肢体的祖细胞(即芽基)通常只替换缺失的结构。在全身递送视黄酸(RA)后,还会形成更多近端结构,这表明RA可以控制再生肢体近端 - 远端轴上的位置指定。根据剂量和实验环境,类视黄醇还可以重新指定肢体的前后轴,诱导骨骼元素缺失,或完全阻止再生。为了研究这些形态发生效应的分子基础,我们筛选了蝾螈再生组织(肢体和尾巴)的互补DNA文库,寻找被RA激活的激素核受体。鉴定出两种功能性视黄酸受体(RAR),其中一种是人类α受体(RARα)的蝾螈同源物。第二种受体称为RARδ,是新发现的。序列分析表明,先前报道的复合蝾螈RAR是嵌合的,由5'RAR-β样和3'RARδ克隆组成。我们得出结论,两栖动物肢体再生过程中表达多种RAR,并表明受体异质性可能是类视黄醇对肢体形态发生产生不同影响的基础。
