Wang S, Krinks M, Kleinwaks L, Moos M
Laboratory of Developmental Biology, Center for Biologics Evaluation and Research, Food and Drug Administration, Rockville, MD 20852-1448, USA.
Genes Funct. 1997 Nov;1(4):259-71. doi: 10.1046/j.1365-4624.1997.00023.x.
We identified a Xenopus gene closely related to mammalian bone morphogenetic protein (BMP)-7 (also termed osteogenic protein-1 or OP-1). It resembles the mammalian gene in primary structure and expression pattern much more closely than does a previously described Xenopus homologue, originally termed XBMP-7 [Nishimatsu, Suzuki, Shoda, Murakami and Ueno (1992) Biochem. Biophys. Res. Commun. 186, 1487-1495]. The novel gene has therefore been designated XBMP-7 and the gene described earlier has been renamed XBMP-7R (M. Moos and N. Ueno, unpublished work). It has a broad distribution, primarily in the anterior and posterior ventral regions during gastrulation, subsequently becoming prominent at different stages in a wide variety of structures (eyes, neural structures, heart, pronephros, posterior ventral region and other structures), paralleling the distribution of XBMP-4 closely. However, its expression begins later than that of XBMP-4 during gastrulation. Lithium treatment of embryos concentrates the XBMP-7 expression in the expanded eye and heart structures. Ventral overexpression of XBMP-7 produces large protrusions that ultimately develop colouration characteristic of haemoglobin, which is confirmed by markedly expanded expression of alpha-globin. Dorsal overexpression suppresses dorsal anterior structures. Molecular analysis of animal caps overexpressing XBMP-7 reveals induction of markers associated with ventral and haematopoietic tissue, which is consistent with whole-embryo overexpression results. Globin induction by XBMP-7 can be blocked by a truncated BMP receptor previously shown to interrupt BMP-4 signalling, indicating XBMP-7 also interacts with this receptor. Our data support the concept that XBMP-7 may play a variety of roles during embryogenesis, and suggest a possible role in haematogenesis.
我们鉴定出一种与哺乳动物骨形态发生蛋白(BMP)-7(也称为成骨蛋白-1或OP-1)密切相关的非洲爪蟾基因。与先前描述的最初称为XBMP-7的非洲爪蟾同源物相比,它在一级结构和表达模式上与哺乳动物基因更为相似[西松、铃木、庄田、村上和上野(1992年)《生物化学与生物物理研究通讯》186,1487 - 1495]。因此,这个新基因被命名为XBMP-7,而先前描述的基因则被重新命名为XBMP-7R(M. 穆斯和N. 上野,未发表的研究)。它分布广泛,在原肠胚形成期间主要分布在前部和后部腹侧区域,随后在各种结构(眼睛、神经结构、心脏、前肾、后部腹侧区域和其他结构)的不同阶段变得突出,与XBMP-4的分布密切平行。然而,它在原肠胚形成期间的表达开始时间比XBMP-4晚。用锂处理胚胎会使XBMP-7的表达集中在扩大的眼睛和心脏结构中。XBMP-7在腹侧的过表达会产生大的突起,最终发育出血红蛋白特有的颜色,α-珠蛋白表达的显著增加证实了这一点。在背侧过表达会抑制背侧前部结构。对过表达XBMP-7的动物帽进行分子分析发现,与腹侧和造血组织相关的标志物被诱导,这与全胚胎过表达结果一致。XBMP-7诱导珠蛋白的表达可被先前显示能中断BMP-4信号传导的截短型BMP受体阻断,这表明XBMP-7也与该受体相互作用。我们的数据支持XBMP-7可能在胚胎发育过程中发挥多种作用的观点,并提示其在造血过程中可能发挥作用。
