Tucker Abigail S, Watson Robert P, Lettice Laura A, Yamada Gen, Hill Robert E
Department of Craniofacial Development and Orthodontics, Kings College London, Floor 28, Guy's Tower, Guy's Hospital, London SE1 9RT, UK.
Development. 2004 Mar;131(6):1235-45. doi: 10.1242/dev.01017. Epub 2004 Feb 18.
The middle ear apparatus is composed of three endochondrial ossicles (the stapes, incus and malleus) and two membranous bones, the tympanic ring and the gonium, which act as structural components to anchor the ossicles to the skull. Except for the stapes, these skeletal elements are unique to mammals and are derived from the first and second branchial arches. We show that, in combination with goosecoid (Gsc), the Bapx1 gene defines the structural components of the murine middle ear. During embryogenesis, Bapx1 is expressed in a discrete domain within the mandibular component of the first branchial arch and later in the primordia of middle ear-associated bones, the gonium and tympanic ring. Consistent with the expression pattern of Bapx1, mouse embryos deficient for Bapx1 lack a gonium and display hypoplasia of the anterior end of the tympanic ring. At E10.5, expression of Bapx1 partially overlaps that of Gsc and although Gsc is required for development of the entire tympanic ring, the role of Bapx1 is restricted to the specification of the gonium and the anterior tympanic ring. Thus, simple overlapping expression of these two genes appears to account for the patterning of the elements that compose the structural components of the middle ear and suggests that they act in concert. In addition, Bapx1 is expressed both within and surrounding the incus and the malleus. Examination of the malleus shows that the width, but not the length, of this ossicle is decreased in the mutant mice. In non-mammalian jawed vertebrates, the bones homologous to the mammalian middle ear ossicles compose the proximal jaw bones that form the jaw articulation (primary jaw joint). In fish, Bapx1 is responsible for the formation of the joint between the quadrate and articular (homologues of the malleus and incus, respectively) enabling an evolutionary comparison of the role of a regulatory gene in the transition of the proximal jawbones to middle ear ossicles. Contrary to expectations, murine Bapx1 does not affect the articulation of the malleus and incus. We show that this change in role of Bapx1 following the transition to the mammalian ossicle configuration is not due to a change in expression pattern but results from an inability to regulate Gdf5 and Gdf6, two genes predicted to be essential in joint formation.
中耳结构由三块软骨性听小骨(镫骨、砧骨和锤骨)以及两块膜性骨,即鼓环和耳珠组成,它们作为结构成分将听小骨固定于颅骨。除镫骨外,这些骨骼成分是哺乳动物所特有的,源自第一和第二鳃弓。我们发现,Bapx1基因与鹅膏蕈氨酸(Gsc)共同作用,决定了小鼠中耳的结构成分。在胚胎发育过程中,Bapx1在第一鳃弓下颌部分的一个离散区域表达,随后在中耳相关骨骼、耳珠和鼓环的原基中表达。与Bapx1的表达模式一致,缺乏Bapx1的小鼠胚胎没有耳珠,鼓环前端发育不全。在胚胎第10.5天,Bapx1的表达与Gsc部分重叠,虽然整个鼓环的发育需要Gsc,但Bapx1的作用仅限于耳珠和鼓环前部的特化。因此,这两个基因简单的重叠表达似乎决定了构成中耳结构成分的元素模式,表明它们协同发挥作用。此外,Bapx1在砧骨和锤骨内部及周围均有表达。对锤骨的检查显示,突变小鼠中该听小骨的宽度而非长度减小。在非哺乳类有颌脊椎动物中,与哺乳动物中耳听小骨同源的骨骼构成形成颌关节(原发性颌关节)的近端颌骨。在鱼类中,Bapx1负责方骨与关节骨(分别为锤骨和砧骨的同源物)之间关节的形成,从而能够对调控基因在近端颌骨向中耳听小骨转变过程中的作用进行进化比较。与预期相反,小鼠Bapx1并不影响锤骨与砧骨的关节。我们发现,向哺乳动物听小骨构型转变后Bapx1作用的这种变化并非由于表达模式的改变,而是由于无法调控Gdf5和Gdf6这两个预计在关节形成中起关键作用的基因。
