Divergent tooth development mechanisms of Mexican tetra fish (Astyanax mexicanus) of Pachón cave origin

IF 3.9 4区 生物学 Q4 Biochemistry, Genetics and Molecular Biology Cells and Development Pub Date : 2023-03-01 DOI:10.1016/j.cdev.2022.203823
Devi Atukorallaya, Vikram Bhatia, Jessica Gonzales
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Abstract

The Mexican tetra (Astyanax mexicanus) is one of the fresh water teleost fish models in evolutionary developmental biology. The existence of two morphs: eyed, pigmented surface fish and blind depigmented cavefish from multiple cave populations, provides a unique system to study adaptive radiation. Compared to the adult surface fish, cavefish have large oral jaws with an increased number of structurally-complex teeth. Early tooth development has not been studied in detail in cavefish populations. In this study, bone-stained growth series and vital dye staining was used to trace the development and replacement of dentitions in Pachón cavefish. Our results show that first tooth eruption was delayed in cavefish compared to the surface fish. In particular, the first tooth eruption cycle persisted until 35 days post fertilization (dpf). Unlike surface fish, there are multicuspid teeth in cavefish first generation dentition. In addition to the teeth in the marginal oral jaw bones, Pachón cavefish have teeth in the ectopterygoid bone of the palatine roof. Next, we characterised the expression of ectodysplasin signalling pathway genes in tooth-forming regions of surface and cavefish. Interestingly, higher expression of Eda and Edar was found in cavefish compared to the surface fish. The altered ectodysplasin expression needs further investigation to confirm the different molecular mechanisms for tooth development in the oral and pharyngeal regions of surface fish and cavefish.

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Pachón穴居起源的墨西哥四目鱼(Astyanax mexicanus)牙齿分化发育机制
墨西哥四鱼(Astyanax mexicanus)是进化发育生物学中的淡水硬骨鱼模型之一。两种形态的存在:来自多个洞穴种群的有眼、有色素的表层鱼和失明、有色素脱落的洞穴鱼,为研究适应性辐射提供了一个独特的系统。与成年表层鱼相比,洞穴鱼的口腔较大,牙齿结构复杂。洞穴鱼类种群的早期牙齿发育尚未得到详细研究。在本研究中,使用骨染色生长系列和活性染料染色来追踪Pachón洞穴鱼牙齿的发育和替换。我们的研究结果表明,与表层鱼类相比,洞穴鱼类的第一次牙齿萌出延迟了。特别是,第一个萌牙周期持续到受精后35天(dpf)。与表层鱼类不同,洞穴鱼的第一代齿列中有多棘牙齿。除了口腔边缘颌骨的牙齿外,Pachón洞穴鱼的腭顶外翼骨也有牙齿。接下来,我们对体外发育异常信号通路基因在表面和洞穴鱼牙齿形成区域的表达进行了表征。有趣的是,与表层鱼类相比,洞穴鱼类中Eda和Edar的表达更高。外胚层发育异常蛋白表达的改变需要进一步研究,以证实表层鱼和洞穴鱼口腔和咽部牙齿发育的不同分子机制。
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来源期刊
Cells and Development
Cells and Development Biochemistry, Genetics and Molecular Biology-Developmental Biology
CiteScore
2.90
自引率
0.00%
发文量
33
审稿时长
41 days
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