Anthwal Neal, Urban Daniel J, Luo Zhe Xi, Sears Karen E, Tucker Abigail S
Department of Craniofacial Development and Stem Cell Biology, King's College London, London, UK.
School of Integrative Biology, 505 S Goodwin Avenue, University of Illinois, Urbana IL USA.
Nat Ecol Evol. 2017 Mar 6;1(4):93. doi: 10.1038/s41559-017-0093.
A key transformation in mammalian ear evolution was incorporation of the primary jaw joint of premammalian synapsids into the definitive mammalian middle ear of living mammals. This evolutionary transition occurred in two-steps, starting with a partial or "transitional" mammalian middle ear in which the ectotympanic and malleus were still connected to the mandible by an ossified Meckel's Cartilage (MC), as observed in many Mesozoic mammals. This was followed by MC breakdown, freeing the ectotympanic and the malleus from the mandible and creating the definitive mammalian middle ear. Here we report novel findings on the role of chondroclasts in MC breakdown, shedding light on how therian mammals lost MC connecting the ear to the jaw. Genetic or pharmacological loss of clast cells in mice and opossums leads to persistence of embryonic MC beyond juvenile stages, with MC ossification in mutant mice. The persistent MC causes a distinctive postnatal groove on the mouse dentary. This morphology phenocopies the ossified MC and Meckelian groove observed in Mesozoic mammals. Clast cell recruitment to MC is not observed in reptiles, where MC persists as a cartilaginous structure. We hypothesize that ossification of MC is an ancestral feature of mammaliaforms, and that a shift in the timing of clast cell recruitment to MC prior to its ossification is a key developmental mechanism for the evolution of the definitive mammalian middle ear in extant therians.
哺乳动物耳部进化的一个关键转变是,将前哺乳动物合弓纲动物的原始颌关节纳入现存哺乳动物确定的中耳结构中。这一进化转变分两步发生,首先出现了部分或“过渡性”的哺乳动物中耳,在许多中生代哺乳动物中可以观察到,此时鼓骨和锤骨仍通过骨化的麦氏软骨(MC)与下颌骨相连。随后是MC分解,使鼓骨和锤骨与下颌骨分离,从而形成了确定的哺乳动物中耳。在此,我们报告了关于破骨细胞在MC分解过程中作用的新发现,揭示了兽类哺乳动物如何失去连接耳朵与下颌的MC。小鼠和负鼠中破骨细胞的基因缺失或药物性缺失会导致胚胎期的MC在幼年期之后持续存在,突变小鼠中会出现MC骨化的情况。持续存在的MC在小鼠齿骨上形成了独特的出生后凹槽。这种形态模拟了中生代哺乳动物中观察到的骨化MC和麦氏凹槽。在MC持续作为软骨结构存在的爬行动物中,未观察到破骨细胞向MC募集的现象。我们推测,MC骨化是哺乳形类动物的一个祖先特征,而在MC骨化之前破骨细胞募集时间的转变是现存兽类中确定的哺乳动物中耳进化的关键发育机制。