Physiological indices and liver gene expression related to glucose supply in Brandt's vole (Lasiopodomys brandtii) exhibit species- and oxygen concentration-specific responses to hypoxia

IF 1.9 3区 生物学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY Comparative Biochemistry and Physiology B-Biochemistry & Molecular Biology Pub Date : 2023-10-28 DOI:10.1016/j.cbpb.2023.110911
Dan Pan , Yuhua Shi , Maolin Huang , Xiujuan Li , Zishi Wang , Yifeng Zhang , Hong Sun , Zhenlong Wang
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Abstract

Brandt's vole (Lasiopodomys brandtii) is a species with hypoxia tolerance, and glucose serves as the primary energy substrate under hypoxia. However, the glucose supply in Brandt's voles under hypoxia has not been studied. This study aimed to investigate characteristics in physiological indices and liver gene expression associated with glucose supply in Brandt's voles under hypoxia. Serum glucose of Brandt's voles remained stable under 10% O2, increased under 7.5% O2, and decreased under 5% O2. Serum lactate increased under 10% O2, decreased under 7.5% O2, increased at 6 h and decreased at 12 h under 5% O2. Liver glycogen increased under 10% O2, remained constant under 7.5% O2, and reduced under 5% O2. Pepck and G6pase expression associated with gluconeogenesis decreased under 10% O2, while Pepck expression decreased and G6pase expression increased under 7.5% and 5% O2. Regarding genes related to glycogen metabolism, Gys expression decreased at all oxygen concentrations, Phk expression increased under 5% O2, and Gp expression increased under 7.5% and 5% O2. The alterations in glucose, lactate, liver glycogen, and gene expression related to glycogenolysis in Kunming mice (Mus musculus, control species) are similar to discovery of Brandt's voles under 7.5% O2, but gene expression involved in gluconeogenesis and glycogen synthesis increased. The findings suggest that Brandt's voles are more tolerant to hypoxia than Kunming mice, and their physiological indices and liver gene expression related to glucose supply exhibit species- and oxygen concentration-specific responses to hypoxia. This research offers novel insights for studying hypoxia tolerance of Brandt's voles.

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Brandt田鼠(Lasiopodomys brandtii)与葡萄糖供应相关的生理指标和肝脏基因表达对缺氧表现出物种和氧浓度特异性反应。
布氏田鼠(Lasiopodomys brandtii)是一种耐缺氧的物种,葡萄糖是缺氧条件下的主要能量底物。然而,Brandt田鼠在缺氧条件下的葡萄糖供应尚未得到研究。本研究旨在研究缺氧条件下Brandt田鼠的生理指标和肝脏基因表达与葡萄糖供应的关系。Brandt田鼠的血糖在10%O2下保持稳定,在7.5%O2下升高,在5%O2下降低。血清乳酸在10%O2下升高,在7.5%O2下降低,在6时升高 h,12时下降 h。肝糖原在10%O2下增加,在7.5%O2下保持不变,在5%O2下减少。在10%O2下,与糖异生相关的Pepck和G6pase表达降低,而在7.5%和5%O2下,Pepck表达降低,G6pase表达增加。关于与糖原代谢相关的基因,Gys的表达在所有氧气浓度下都降低,Phk的表达在5%O2下增加,Gp的表达在7.5%和5%O2下增加。昆明小鼠(Mus musculus,对照种)葡萄糖、乳酸、肝糖原和与糖原分解相关的基因表达的变化与在7.5%O2下发现的Brandt田鼠相似,但与糖异生和糖原合成有关的基因表达增加。研究结果表明,布兰德田鼠比昆明小鼠更耐缺氧,它们的生理指标和与葡萄糖供应相关的肝脏基因表达对缺氧表现出物种和氧浓度特异性反应。这项研究为研究布氏田鼠的耐缺氧性提供了新的见解。
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来源期刊
CiteScore
4.60
自引率
4.50%
发文量
77
审稿时长
22 days
期刊介绍: Comparative Biochemistry & Physiology (CBP) publishes papers in comparative, environmental and evolutionary physiology. Part B: Biochemical and Molecular Biology (CBPB), focuses on biochemical physiology, primarily bioenergetics/energy metabolism, cell biology, cellular stress responses, enzymology, intermediary metabolism, macromolecular structure and function, gene regulation, evolutionary genetics. Most studies focus on biochemical or molecular analyses that have clear ramifications for physiological processes.
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