Comparison of the histology and stiffness of ventricles in Anura of different habitats

IF 1.8 4区 生物学 Q3 BIOPHYSICS
Megumi Ito, Yoshihiro Ujihara, Shukei Sugita, Masanori Nakamura
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引用次数: 2

Abstract

Vertebrate hearts have undergone marked morphological and structural changes to adapt to different environments and lifestyles as part of the evolutionary process. Amphibians were the first vertebrates to migrate to land. Transition from aquatic to terrestrial environments required the ability to circulate blood against the force of gravity. In this study, we investigated the passive mechanical properties and histology of the ventricles of three species of Anura (frogs and toads) from different habitats, Xenopus laevis (aquatic), Pelophylax nigromaculatus (semiaquatic), and Bufo japonicus formosus (terrestrial). Pressure-loading tests demonstrated stiffer ventricles of P. nigromaculatus and B. j. formosus compared X. laevis ventricles. Histological analysis revealed a remarkable difference in the structure of cardiac tissue: thickening of the compact myocardium layer of P. nigromaculatus and B. j. formosus and enrichment of the collagen fibers of B. j. formosus. The amount of collagen fibers differed among the species, as quantitatively confirmed by second-harmonic generation light microscopy. No significant difference was observed in cardiomyocytes isolated from each animal, and the sarcomere length was almost the same. The results indicate that the ventricles of Anura stiffen during adaptation to life on land.

不同生境无尾动物脑室组织学和硬度的比较
作为进化过程的一部分,脊椎动物的心脏经历了显著的形态和结构变化,以适应不同的环境和生活方式。两栖动物是最早迁移到陆地上的脊椎动物。从水生环境过渡到陆地环境需要血液循环能力来对抗重力。本研究研究了三种不同生境的无尾动物(青蛙和蟾蜍)的脑室的被动力学特性和组织学,分别是水生爪蟾(Xenopus laevis)、半水生佩狐(Pelophylax nigromaculatus)和陆生蟾(Bufo japonicus formosus)。压力负荷试验表明,黑斑马鱼的心室较黑斑马鱼的心室更硬。组织学分析显示心肌组织结构有显著差异:黑斑鱼和台湾黑斑鱼致密心肌层增厚,台湾黑斑鱼胶原纤维丰富。胶原纤维的数量不同的物种,定量证实了二次谐波一代光学显微镜。各组分离的心肌细胞无明显差异,肌节长度几乎相同。结果表明,在适应陆地生活的过程中,无尾动物的脑室变硬。
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来源期刊
Journal of Biological Physics
Journal of Biological Physics 生物-生物物理
CiteScore
3.00
自引率
5.60%
发文量
20
审稿时长
>12 weeks
期刊介绍: Many physicists are turning their attention to domains that were not traditionally part of physics and are applying the sophisticated tools of theoretical, computational and experimental physics to investigate biological processes, systems and materials. The Journal of Biological Physics provides a medium where this growing community of scientists can publish its results and discuss its aims and methods. It welcomes papers which use the tools of physics in an innovative way to study biological problems, as well as research aimed at providing a better understanding of the physical principles underlying biological processes.
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