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急性低压缺氧介导的心肌和骨骼肌中S1PR-SphK的生化/代谢改组及差异调节

Acute Hypobaric Hypoxia-Mediated Biochemical/Metabolic Shuffling and Differential Modulation of S1PR-SphK in Cardiac and Skeletal Muscles.

作者信息

Rahar Babita, Chawla Sonam, Tulswani Rajkumar, Saxena Shweta

机构信息

1 Experimental Biology Division, Defense Institute of Physiology and Allied Sciences, Defense Research and Development Organization, Delhi, India.

2 PACT Division, Defense Institute of Physiology and Allied Sciences, Defense Research and Development Organization, Delhi, India.

出版信息

High Alt Med Biol. 2019 Mar;20(1):78-88. doi: 10.1089/ham.2018.0046.

DOI:10.1089/ham.2018.0046
PMID:30892968
Abstract

AIM

High altitude exposure alters biochemical, metabolic, and physiological features of heart and skeletal muscles, and hence has pathological consequences in these tissues. Central to these hypoxia-associated biochemical/metabolic shuffling are energy deficit accumulation of free radicals and ensuing oxidative damage in the tissue. Recent preclinical/clinical studies indicate sphingosine-1-phosphate (S1P) axis, comprising S1P G protein coupled receptors (S1PR) and its synthesizing enzyme-sphingosine kinase (SphK) to have key regulatory roles in homeostatic cardiac and skeletal muscle biology. In view of this, the aim of the present study was to chart the initiation and progression of biochemical/metabolic shuffling and assess the coincident differential modulation of S1PR expression and total SphK activity in cardiac and skeletal muscles from rats exposed to progressive hypobaric hypoxia (HH; 21,000 feet for 12, 24, and 48 hours).

RESULTS

HH-associated responses were evident as raised damage markers in plasma, oxidative stress, decreased total tissue protein, imbalance of intermediate metabolites, and aerobic/anaerobic enzyme activities in cardiac and skeletal muscles (gastrocnemius and soleus) culminating as energy deficit.

CONCLUSION

Cardiac and gastrocnemius muscles were more susceptible to hypoxic environment than soleus muscle. These differential responses were directly and indirectly coincident with temporal expression of S1PR and SphK activity.

摘要

目的

高海拔暴露会改变心脏和骨骼肌的生化、代谢及生理特征,因此会对这些组织产生病理影响。这些与缺氧相关的生化/代谢变化的核心是自由基的能量缺乏积累以及随后组织中的氧化损伤。最近的临床前/临床研究表明,由1-磷酸鞘氨醇(S1P)G蛋白偶联受体(S1PR)及其合成酶鞘氨醇激酶(SphK)组成的S1P轴在心脏和骨骼肌的稳态生物学中具有关键调节作用。鉴于此,本研究的目的是描绘生化/代谢变化的起始和进展,并评估暴露于渐进性低压缺氧(HH;21,000英尺,持续12、24和48小时)的大鼠心脏和骨骼肌中S1PR表达和总SphK活性的同步差异调节。

结果

与HH相关的反应表现为血浆中损伤标志物升高、氧化应激、总组织蛋白减少、中间代谢产物失衡以及心脏和骨骼肌(腓肠肌和比目鱼肌)中需氧/厌氧酶活性,最终导致能量缺乏。

结论

心脏和腓肠肌比目鱼肌对缺氧环境更敏感。这些差异反应与S1PR的时间表达和SphK活性直接和间接相关。

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