黑腹果蝇生命阶段中辐射抗性和海藻糖水平的伴随变化表明海藻糖具有辐射防护功能。
Concomitant changes in radiation resistance and trehalose levels during life stages of Drosophila melanogaster suggest radio-protective function of trehalose.
作者信息
Paithankar Jagdish Gopal, Raghu Shamprasad Varija, Patil Rajashekhar K
机构信息
a Department of Applied Zoology , Mangalore University , Mangalore , Karnataka , India.
b Centre for Radioisotopes and Radiation Technology (CARRT) , Mangalore University , Mangalore , Karnataka , India.
出版信息
Int J Radiat Biol. 2018 Jun;94(6):576-589. doi: 10.1080/09553002.2018.1460499. Epub 2018 Apr 20.
PURPOSE
During development, various life stages of Drosophila melanogaster (D. melanogaster) show different levels of resistance to gamma irradiation, with the early pupal stage being the most radiation sensitive. This provides us an opportunity to explore the biochemical basis of such variations. The present study was carried out to understand the mechanisms underlying radiation resistance during life stages of D. melanogaster.
MATERIALS AND METHODS
Homogenates from all the life stages of D. melanogaster were prepared at stipulated age. These homogenates were used for the determination of (1) enzymatic antioxidants: superoxide dismutase (SOD), catalase, D. melanogaster glutathione peroxidase (DmGPx), and glutathione S-transferase (GST); (2) reducing non-enzymatic antioxidants: total antioxidant capacity (TAC), reduced glutathione (GSH) and non-reducing non-enzymatic antioxidant trehalose; and (3) levels of protein carbonyl (PC) content. Age-dependent changes in radiation resistance and associated biochemical changes were also studied in young (2 d) and old (20 and 30 d) flies.
RESULTS
TAC and GSH were found high in the early pupal stage, whereas catalase and DmGPx were found to increase in the early pupal stage. The non-feeding third instar (NFTI) larvae were found to have high levels of SOD and GST, besides NFTI larvae showed high levels of trehalose. A remarkable decrease was observed in radiation resistance and trehalose levels during the early pupal stage. The PC level was the highest during early pupal stage and was the lowest in NFTI larvae. Older flies showed high level of PC compared with young flies.
CONCLUSION
In vitro increments in trehalose concentration correspond to reduced formation of PCs, suggesting a protective role of trehalose against free radicals. A strong correlation between levels of trehalose and PC formation suggests amelioration of proteome damage due to ionizing radiation (IR). Stages with high trehalose levels showed protected proteome and high radiation resistance, suggesting a significant role for this disaccharide in radiation resistance.
目的
在发育过程中,黑腹果蝇(D. melanogaster)的各个生命阶段对伽马辐射表现出不同程度的抗性,其中早期蛹期对辐射最为敏感。这为我们探索这种差异的生化基础提供了契机。本研究旨在了解黑腹果蝇生命阶段辐射抗性的潜在机制。
材料与方法
在规定年龄制备黑腹果蝇所有生命阶段的匀浆。这些匀浆用于测定:(1)酶促抗氧化剂:超氧化物歧化酶(SOD)、过氧化氢酶、黑腹果蝇谷胱甘肽过氧化物酶(DmGPx)和谷胱甘肽S-转移酶(GST);(2)还原性非酶促抗氧化剂:总抗氧化能力(TAC)、还原型谷胱甘肽(GSH)和非还原性非酶促抗氧化剂海藻糖;(3)蛋白质羰基(PC)含量水平。还研究了年轻(2天)和年老(20天和30天)果蝇辐射抗性的年龄依赖性变化及相关生化变化。
结果
发现早期蛹期的TAC和GSH含量较高,而早期蛹期过氧化氢酶和DmGPx含量增加。发现不取食的三龄幼虫(NFTI)除了海藻糖水平较高外,SOD和GST含量也较高。在早期蛹期观察到辐射抗性和海藻糖水平显著下降。PC水平在早期蛹期最高,在NFTI幼虫中最低。与年轻果蝇相比,年老果蝇的PC水平较高。
结论
体外海藻糖浓度的增加对应着PC形成的减少,表明海藻糖对自由基具有保护作用。海藻糖水平与PC形成之间的强相关性表明电离辐射(IR)对蛋白质组损伤的改善作用。海藻糖水平高的阶段显示蛋白质组受到保护且辐射抗性高,表明这种二糖在辐射抗性中起重要作用。
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