Morphoelastic models discriminate between different mechanisms of left-right asymmetric stomach morphogenesis

IF 3.9 4区生物学 Q4 Biochemistry, Genetics and Molecular Biology Cells and Development Pub Date : 2024-01-26 DOI:10.1016/j.cdev.2024.203902

Ariel N. Nikas, Evan J. Curcio, Nanette Nascone-Yoder, Sharon R. Lubkin

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Abstract

The mechanisms by which the vertebrate stomach undergoes its evolutionarily conserved leftward bending remain incompletely understood. Although the left and right sides of the organ are known to possess different gene expression patterns and undergo distinct morphogenetic events, the physical mechanisms by which these differences generate morphological asymmetry remain unclear. Here, we develop a continuum model of asymmetric stomach morphogenesis. Using a morphoelastic framework, we investigate the morphogenetic implications of a variety of hypothetical, tissue-level growth differences between the left and right sides of a simplified tubular organ. Simulations reveal that, of the various differential growth mechanisms tested, only one category is consistent with the leftward stomach curvature observed in wild-type embryos: equal left and right volumetric growth rates, coupled with transversely isotropic tissue thinning on the left side. Simulating this mechanism in a defined region of the model over a longer period of growth leads to mature stomach-like curvatures.

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形态弹性模型可区分左右不对称胃形态发生的不同机制。

脊椎动物的胃在进化过程中保持向左弯曲的机制仍不完全清楚。尽管已知器官的左右两侧具有不同的基因表达模式并经历不同的形态发生事件，但这些差异产生形态不对称的物理机制仍不清楚。在这里，我们建立了一个不对称胃形态发生的连续模型。利用形态弹性框架，我们研究了一个简化管状器官左右两侧各种假定的组织级生长差异对形态发生的影响。模拟结果表明，在测试的各种差异生长机制中，只有一类机制与野生型胚胎中观察到的胃向左弯曲一致：左侧和右侧容积生长率相等，同时左侧组织横向各向同性变薄。在模型的一个确定区域模拟这一机制，经过较长时间的生长，会产生类似成熟胃的弯曲。

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