Nano-Se exhibits limited protective effect against heat stress induced poor breast muscle meat quality of broilers compared with other selenium sources.

IF 6.3 Q1 AGRICULTURE, DAIRY & ANIMAL SCIENCE
Jinzhong Jing, Jiayi Wang, Qian Wu, Shenggang Yin, Zhen He, Jiayong Tang, Gang Jia, Guangmang Liu, Xiaoling Chen, Gang Tian, Jingyi Cai, Bo Kang, Lianqiang Che, Hua Zhao
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引用次数: 0

Abstract

Background: At present, heat stress (HS) has become a key factor that impairs broiler breeding industry, which causes growth restriction and poor meat quality of broilers. Selenium (Se) is an excellent antioxidant and plays a unique role in meat quality improvement. Recent years, nano-selenium (NanoSe) has received tremendous attention in livestock production, due to its characteristic and good antibacterial performance in vitro. Here, we developed the heat stressed-broiler model to investigate the protective effects of NanoSe on growth performance and meat quality of broilers and compare whether there are differences with that of other Se sources (Sodium selenite, SS; Selenoyeast, SeY; Selenomethionine, SeMet).

Results: HS jeopardized the growth performance and caused poor meat quality of breast muscle in broilers, which were accompanied by lowered antioxidant capacity, increased glycolysis, increased anaerobic metabolism of pyruvate, mitochondrial stress and abnormal mitochondrial tricarboxylic acid (TCA) cycle. All Se sources supplementation exhibited protective effects, which increased the Se concentration and promoted the expression of selenoproteins, improved the mitochondrial homeostasis and the antioxidant capacity, and promoted the TCA cycle and the aerobic metabolism of pyruvate, thus improved the breast muscle meat quality of broilers exposed to HS. However, unlike the other three Se sources, the protective effect of NanoSe on meat quality of heat stressed-broilers was not ideal, which exhibited limited impact on the pH value, drip loss and cooking loss of the breast muscle. Compared with the other Se sources, broilers received NanoSe showed the lowest levels of slow MyHC, the highest levels of fast MyHC and glycogen, the highest mRNA levels of glycolysis-related genes (PFKM and PKM), the highest protein expression of HSP60 and CLPP, and the lowest enzyme activities of GSH-Px, citroyl synthetase (CS) and isocitrate dehydrogenase (ICD) in breast muscle. Consistent with the SS, the Se deposition in breast muscle of broilers received NanoSe was lower than that of broilers received SeY or SeMet. Besides, the regulatory efficiency of NanoSe on the expression of key selenoproteins (such as SELENOS) in breast muscle of heat stressed-broilers was also worse than that of other Se sources.

Conclusion: Through comparing the meat quality, Se deposition, muscle fiber type conversion, glycolysis, mitochondrial homeostasis, and mitochondrial TCA cycle-related indicators of breast muscle in heat stressed broilers, we found that the protective effects of organic Se (SeY and SeMet) are better than that of inorganic Se (SS) and NanoSe. As a new Se source, though NanoSe showed some protective effect on breast muscle meat quality of heat stressed broilers, the protective effect of NanoSe is not ideal, compared with other Se sources.

与其他硒源相比,纳米硒对热应激引起的肉鸡胸肌肉质差的保护作用有限。
背景:目前,热应激(HS)已成为影响肉鸡养殖业的一个关键因素,它会导致肉鸡生长受限和肉质变差。硒(Se)是一种优良的抗氧化剂,在改善肉质方面发挥着独特的作用。近年来,纳米硒(NanoSe)因其特性和良好的体外抗菌性能,在畜牧业生产中受到极大关注。在此,我们建立了热应激肉鸡模型,以研究纳米硒对肉鸡生长性能和肉质的保护作用,并比较其与其他硒源(亚硒酸钠,SS;硒酵母,SeY;硒蛋氨酸,SeMet)是否存在差异:HS危害肉鸡的生长性能并导致胸肌肉质变差,同时伴有抗氧化能力降低、糖酵解增加、丙酮酸无氧代谢增加、线粒体应激和线粒体三羧酸(TCA)循环异常。所有硒源的补充都具有保护作用,能提高硒浓度和促进硒蛋白的表达,改善线粒体平衡和抗氧化能力,促进 TCA 循环和丙酮酸的有氧代谢,从而改善暴露于 HS 的肉鸡的胸肌肉品质。然而,与其他三种硒源不同,纳米硒对热应激肉鸡肉质的保护作用并不理想,对胸肌的 pH 值、滴水损失和蒸煮损失的影响有限。与其他硒源相比,添加纳米硒的肉鸡胸肌中慢肌酸激酶水平最低,快肌酸激酶和糖原水平最高,糖酵解相关基因(PFKM 和 PKM)的 mRNA 水平最高,HSP60 和 CLPP 的蛋白表达量最高,GSH-Px、柠檬酰合成酶(CS)和异柠檬酸脱氢酶(ICD)的酶活性最低。与 SS 一致的是,接受 NanoSe 的肉鸡胸肌中的 Se 沉积低于接受 SeY 或 SeMet 的肉鸡。此外,纳米硒对热应激肉鸡胸肌中关键硒蛋白(如 SELENOS)表达的调节效率也低于其他硒源:通过比较热应激肉鸡胸肌的肉质、Se沉积、肌纤维类型转换、糖酵解、线粒体稳态和线粒体TCA循环相关指标,我们发现有机Se(SeY和SeMet)的保护作用优于无机Se(SS)和纳米Se。作为一种新的硒源,虽然纳米硒对热应激肉鸡胸肌肉质有一定的保护作用,但与其他硒源相比,纳米硒的保护作用并不理想。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
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