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首页> 外文OA文献 >Calcium response of KCl-excited populations of ventricular myocytes from the European sea bass (Dicentrarchus labrax): a promising approach to integrate cell-to-cell heterogeneity in studying the cellular basis of fish cardiac performance
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Calcium response of KCl-excited populations of ventricular myocytes from the European sea bass (Dicentrarchus labrax): a promising approach to integrate cell-to-cell heterogeneity in studying the cellular basis of fish cardiac performance

机译:来自欧洲鲈鱼(Dicentrarchus Labrax)的kcl-exciting群的Kcl-Excient群的钙响应:一种有前途的方法,用于将细胞对细胞异质性整合在研究鱼心表现的细胞基础上

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Climate change challenges the capacity of fishes to thrive in their habitat. However, through phenotypic diversity, they demonstrate remarkable resilience to deteriorating conditions. In fish populations, inter-individual variation in a number of fitness-determining physiological traits, including cardiac performance, is classically observed. Information about the cellular bases of inter-individual variability in cardiac performance is scarce including the possible contribution of excitation-contraction (EC) coupling. This study aimed at providing insight into EC coupling-related Ca2+ response and thermal plasticity in the European sea bass (Dicentrarchus labrax). A cell population approach was used to lay the methodological basis for identifying the cellular determinants of cardiac performance. Fish were acclimated at 12 and 22 A degrees C and changes in intracellular calcium concentration ([Ca2+](i)) following KCl stimulation were measured using Fura-2, at 12 or 22 A degrees C-test. The increase in [Ca2+](i) resulted primarily from extracellular Ca2+ entry but sarcoplasmic reticulum stores were also shown to be involved. As previously reported in sea bass, a modest effect of adrenaline was observed. Moreover, although the response appeared relatively insensitive to an acute temperature change, a difference in Ca2+ response was observed between 12- and 22 A degrees C-acclimated fish. In particular, a greater increase in [Ca2+](i) at a high level of adrenaline was observed in 22 A degrees C-acclimated fish that may be related to an improved efficiency of adrenaline under these conditions. In conclusion, this method allows a rapid screening of cellular characteristics. It represents a promising tool to identify the cellular determinants of inter-individual variability in fishes' capacity for environmental adaptation.
机译:气候变化挑战鱼类在栖息地茁壮成长的能力。然而,通过表型多样性,它们表现出显着的恢复能力恶化条件。在鱼群中,经典观察到,在多种健康测定生理特性中的单独变化,包括心能,包括心脏能。关于心脏性能间间可变性的细胞基质的信息是稀缺的,包括激发 - 收缩(EC)耦合的可能贡献。本研究旨在提供欧洲鲈鱼(Dicentrarchus Labrax)中EC耦合相关的CA2 +反应和热塑性的洞察。使用细胞群方法来奠定鉴定心脏表现细胞传导蛋白的方法基础。在12和22℃下,在12和22℃下,使用Fura-2,在12或22℃下测量Kcl刺激后的细胞内钙浓度([Ca2 +](I))的变化。 [Ca2 +](i)的增加主要来自细胞外CA2 +进入,但也显示出嗜胞外网储存。如前所述,观察到肾上腺素的适度效果。此外,尽管响应对急性温度变化相对不敏感,但观察到Ca2 +响应的差异在12-至22摄氏度的鱼中观察到。特别地,在22例C甲状腺素的鱼中观察到高水平的肾上腺素中的[Ca2 +](i)增加,其在这些条件下可能与肾上腺素的提高效率有关。总之,该方法允许快速筛选细胞特征。它代表了有希望的工具,用于识别鱼类环境适应能力的个体间可变异性的细胞决定因素。

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