酿酒葡萄渣对氧化应激肉鸡生长性能、抗氧化及其相关基因表达量的影响

doi:10.7668/hbnxb.20195122

摘要/Abstract

摘要：

旨在研究酿酒葡萄渣对氧化应激肉鸡的生长性能、抗氧化指标及相关基因表达量的影响。将120只体质量相近、健康的30日龄良凤肉公鸡,随机分为5组,即阴性对照组(NC组,饲喂基础饲粮)、阳性对照组(地塞米松(Dex)组,饲喂基础饲粮)、Dex+1%葡萄渣组、Dex+2%葡萄渣组、Dex+4%葡萄渣组,每组4个重复。7周龄时,阳性对照组和试验组腹腔皮下注射Dex诱导氧化应激模型,NC组注射等剂量生理盐水,每隔1 d注射1次,每周3次,注射7 d。试验期35 d。结果发现:酿酒葡萄渣能显著提高Dex诱导氧化应激肉鸡日平均采食量;能够显著提高肉鸡血清免疫球蛋白M活性;能够显著提高超氧化物歧化酶、谷胱甘肽过氧化物酶、总抗氧化能、过氧化氢酶含量;能够显著提高超氧化物歧化酶、谷胱甘肽过氧化物酶mRNA相对表达量。由此可见,酿酒葡萄渣能提高肉鸡免疫能力和抗氧化能力,有效缓解Dex诱导氧化应激状态下肉仔鸡的应激反应。

关键词: 肉鸡, 葡萄渣, 氧化应激, 抗氧化指标, 生长性能

Abstract:

This experiment aimed to investigate the effects of grape residue on the growth performance,antioxidant indicator,and related gene expression in broilers under oxidative stress.One hundred and twenty healthy 30-day-old Liangfeng broiler roosters with similar body weights were randomly divided into five groups:a negative control group (NC group,fed a basal diet),a positive control group (Dex group,fed a basal diet),a Dex+1% grape pomace group,a Dex+2% grape pomace group,and a Dex+4% grape pomace group,with four replicates per group.At 7 weeks of age,the positive control group and experimental group were injected with Dex to induce an oxidative stress model,while the NC group received an equal dose of normal saline.For one week,injections were administered three times a week,every other day.The experiment lasted for 35 days.The results showed that winemaking grape pomace significantly increased the ADFI of Dex-induced oxidative stress broilers;significantly enhanced serum IgM activity of broilers;significantly increased the levels of superoxide dismutase, glutathione peroxidase, total antioxidant capacity, and catalase; and significantly upregulated the relative mRNA expression of superoxide dismutase and glutathione peroxidase. In conclusion,wine grape residue can enhance broilers' immune capacity and antioxidant capacity,and effectively alleviate the stress response of broilers under Dex-induced oxidative stress.

Key words: Broiler, Grape residue, Oxidative stress, Antioxidant index, Growth performance

中图分类号:

S831.5

高巧仙, 郝晨曲, 杨洁, 辛国省. 酿酒葡萄渣对氧化应激肉鸡生长性能、抗氧化及其相关基因表达量的影响[J]. 华北农学报, 2025, 40(S1): 340-345. doi: 10.7668/hbnxb.20195122.

GAO Qiaoxian, HAO Chenqu, YANG Jie, XIN Guosheng. Effects of Grape Residue on Growth Performance,Antioxidant and Related Gene Expression under Oxidative Stress in Broilers[J]. Acta Agriculturae Boreali-Sinica, 2025, 40(S1): 340-345. doi: 10.7668/hbnxb.20195122.

http://www.hbnxb.net/CN/Y2025/V40/IS1/340

图/表 5

参考文献 26

[1]	Bešlo D, Golubić N, Rastija V, Agić D, Karnaš M, Šubarić D, Lučić B. Antioxidant activity,metabolism,and bioavailability of polyphenols in the diet of animals[J]. Antioxidants, 2023, 12(6):1141.doi:10.3390/antiox12061141. URL
[2]	姬孟瑶, 荀文娟, 侯冠彧, 施力光, 侯晓晓, 杨文. 白藜芦醇对氧化应激仔猪肝脏抗氧化酶、细胞因子mRNA表达及核因子E2相关因子2相关因子信号通路的影响[J]. 动物营养学报, 2022, 34(2):1230-1239.doi:10.3969/j.issn.1006-267x.2022.02.054.
	Ji M Y, Xun W J, Hou G Y, Shi L G, Hou X X, Yang W. Effects of resveratrol on liver antioxidant enzyme,cytokine mRNA expression and nuclear factor Erythroid 2 related factor 2 signaling pathway in oxidative stress piglets[J]. Chinese Journal of Animal Nutrition, 2022, 34(2):1230-1239.
[3]	Wang X R, Jiang G T, Kebreab E, Yu Q F, Li J H, Zhang X, He H, Fang R J, Dai Q Z. Effects of dietary grape seed polyphenols supplementation during late gestation and lactation on antioxidant status in serum and immunoglobulin content in colostrum of multiparous sows1[J]. Journal of Animal Science, 2019, 97(6):2515-2523.doi:10.1093/jas/skz128. pmid: 31004130
[4]	Sobhani M, Farzaei M H, Kiani S, Khodarahmi R. Immunomodulatory,anti-inflammatory/antioxidant effects of polyphenols:a comparative review on the parental compounds and their metabolites[J]. Food Reviews International, 2021, 37(8):759-811.doi:10.1080/87559129.2020.1717523. URL
[5]	Jia R, Li Y, Cao L P, Du J L, Zheng T, Qian H, Gu Z Y, Jeney G, Xu P, Yin G J. Antioxidative,anti-inflammatory and hepatoprotective effects of resveratrol on oxidative stress-induced liver damage in tilapia (Oreochromis niloticus)[J]. Comparative Biochemistry and Physiology Part C:Toxicology & Pharmacology, 2019, 215:56-66.doi:10.1016/j.cbpc.2018.10.002.
[6]	Di Lorenzo C, Colombo F, Biella S, Stockley C, Restani P. Polyphenols and human health:the role of bioavailability[J]. Nutrients, 2021, 13(1):273.doi:10.3390/nu13010273. URL
[7]	Al-Mnaser A, Dakheel M, Alkandari F, Woodward M. Polyphenolic phytochemicals as natural feed additives to control bacterial pathogens in the chicken gut[J]. Archives of Microbiology, 2022, 204(5):253.doi:10.1007/s00203-022-02862-5. pmid: 35412092
[8]	Yang J X, Maria T C, Zhou B, Xiao F L, Wang M, Mao Y J, Li Y. Quercetin improves immune function in Arbor Acre broilers through activation of NF-κB signaling pathway[J]. Poultry Science, 2020, 99(2):906-913.doi:10.1016/j.psj.2019.12.021. pmid: 32029167
[9]	Gungor E, Altop A, Erener G. Effect of raw and fermented grape pomace on the growth performance,antioxidant status,intestinal morphology,and selected bacterial species in broiler chicks[J]. Animals, 2021, 11(2):364.doi:10.3390/ani11020364. URL
[10]	Erinle T J, Oladokun S, MacIsaac J, Rathgeber B, Adewole D. Dietary grape pomace effects on growth performance,intestinal health,blood parameters,and breast muscle myopathies of broiler chickens[J]. Poultry Science, 2022, 101(1):101519.doi:10.1016/j.psj.2021.101519.
[11]	尹梦洁, 汪水平, 郭乙冰, 杨鑫, 范定坤, 周承福, 刘国威, 饶骏. 葡萄渣多酚的生物活性及其在动物生产中的应用[J]. 中国畜牧杂志, 2020, 56(6):5-10.doi:10.19556/j.0258-7033.20190724-04.
	Yin M J, Wang S P, Guo Y B, Yang X, Fan D K, Zhou C F, Liu G W, Rao J. Biological activities and application in animal production of grape pomace polyphenols[J]. Chinese Journal of Animal Science, 2020, 56(6):5-10.
[12]	程新东, 杜霞, 梁艳萍, 刘春燕, 辛国省, 高巧仙, 伍修锟, 杨果. 葡萄渣饲粮对滩羊生长性能、胃肠道组织结构和消化酶活性的影响[J]. 饲料研究, 2022, 45(7):7-12.doi:10.13557/j.cnki.issn1002-2813.2022.07.002.
	Cheng X D, Du X, Liang Y P, Liu C Y, Xin G S, Gao Q X, Wu X K, Yang G. Effect of grape pomace diet on growth performance,histomorphology and digestive enzyme activities of gastrointestinal tract of Tan sheep[J]. Feed Research, 2022, 45(7):7-12.
[13]	郝晨曲. 葡萄渣对肉鸡生产性能及营养物质代谢的影响研究[D]. 银川: 宁夏大学, 2021.doi:10.27257/d.cnki.gnxhc.2021.000906.
	Hao C Q. Effect of grape pomace supplementation on productivity and nutrient metabolic of broilers[D]. Yinchuan: Ningxia University, 2021.
[14]	Cheng X D, Du X, Liang Y P, Degen A A, Wu X K, Ji K X, Gao Q X, Xin G S, Cong H T, Yang G. Effect of grape pomace supplement on growth performance,gastrointestinal microbiota,and methane production in Tan lambs[J]. Frontiers in Microbiology, 2023, 14:1264840.doi:10.3389/fmicb.2023.1264840.
[15]	Hao C Q, Gao Q X, Zhang J, Muhammad I, Waqar K, Xin G S. Effects of grape residue supplementation in diet on Liangfeng chicken growth performance,nutrient metabolism and blood biochemistry[J]. Journal of Applied Animal Research, 2022, 50(1):567-573.doi:10.1080/09712119.2022.2113083. URL
[16]	Reis J H, Gebert R R, Barreta M, Boiago M M, Souza C F, Baldissera M D, Santos I D, Wagner R, Laporta L V, Stefani L M, Da Silva A S. Addition of grape pomace flour in the diet on laying hens in heat stress:impacts on health and performance as well as the fatty acid profile and total antioxidant capacity in the egg[J]. Journal of Thermal Biology, 2019, 80:141-149.doi:10.1016/j.jtherbio.2019.01.003. URL
[17]	张瑞鑫. 葡萄皮渣对肉羊空肠结构与上皮细胞凋亡的影响及机制研究[D]. 晋中: 山西农业大学, 2019.doi:10.27285/d.cnki.gsxnu.2019.000393.
	Zhang R X. Effects and mechanisms of dietary wine grape pomace supplementation on jejunal structure and epithelial cell apoptosis in lambs[D]. Jinzhong: Shanxi Agricultural University, 2019.
[18]	田跃, 董红刚, 沈泽锋. 葡萄籽原花青素对肉鸡生长性能、免疫功能和经济效益的影响[J]. 饲料研究, 2022, 45(12):28-31.doi:10.13557/j.cnki.issn1002-2813.2022.12.007.
	Tian Y, Dong H G, Shen Z F. Effect of grape seed proanthocyanidins on growth performance,immune function and economic benefit of broilers[J]. Feed Research, 2022, 45(12):28-31.
[19]	Wei X X, Li L X, Yan H S, Li Q H, Gao J J, Hao R R. Grape seed procyanidins improve intestinal health by modulating gut microbiota and enhancing intestinal antioxidant capacity in weaned piglets[J]. Livestock Science, 2022, 264:105066.doi:10.1016/j.livsci.2022.105066.
[20]	吴茵茵, 温思怡, 韩卓然, 孙敬锋. 半滑舌鳎突触体相关蛋白29基因(SNAP29)克隆及其组织分布和时序表达分析[J]. 华北农学报, 2024, 39(2):231-238.doi:10.7668/hbnxb.20194575.
	Wu Y Y, Wen S Y, Han Z R, Sun J F. Cloning,tissue distribution and temporal expression analysis of synaptosome-associated protein 29 gene (SNAP29) in Cynoglossus semilaevis[J]. Acta Agriculturae Boreali-Sinica, 2024, 39(2):231-238.
[21]	Min Y N, Niu Z Y, Sun T T, Wang Z P, Jiao P X, Zi B B, Chen P P, Tian D L, Liu F Z. Vitamin E and vitamin C supplementation improves antioxidant status and immune function in oxidative-stressed breeder roosters by up-regulating expression of GSH-Px gene[J]. Poultry Science, 2018, 97(4):1238-1244.doi:10.3382/ps/pex417. pmid: 29452404
[22]	Abdel-Moneim A E, Shehata A M, Alzahrani S O, Shafi M E, Mesalam N M, Taha A E, Swelum A A, Arif M, Fayyaz M, Abd El-Hack M E. The role of polyphenols in poultry nutrition[J]. Journal of Animal Physiology and Animal Nutrition, 2020, 104(6):1851-1866.doi:10.1111/jpn.13455. URL
[23]	方洲, 马学虎, 安彦昊, 孙奕烁, 窦文丽, 马燕芬. 畜禽氧化应激与炎症及多酚的干预作用[J]. 畜牧与饲料科学, 2022, 43(2):14-22.doi:10.12160/j.issn.1672-5190.2022.02.003.
	Fang Z, Ma X H, An Y H, Sun Y S, Dou W L, Ma Y F. Oxidative stress and inflammation in livestock and poultry and intervention effects of polyphenols[J]. Animal Husbandry and Feed Science, 2022, 43(2):14-22.
[24]	赵昕. 葡萄渣替代麦麸对育肥猪免疫性能和肠道健康的影响研究[D]. 杨凌: 西北农林科技大学, 2022.doi:10.27409/d.cnki.gxbnu.2022.000631.
	Zhao X. Study on the effect of grape pomace instead of wheat bran on finishing pigs immune performance and intestinal health[D]. Yangling: Northwest A&F University, 2022.
[25]	Chainy G B N, Sahoo D K. Hormones and oxidative stress:an overview[J]. Free Radical Research, 2020, 54(1):1-26.doi:10.1080/10715762.2019.1702656. pmid: 31868060
[26]	钟光, 王强, 沈一茹, 张珊, 施寿荣. 枯草芽孢杆菌对肉鸡生长性能、抗氧化功能和肠道形态的影响[J]. 动物营养学报, 2020, 32(4):1675-1683.doi:10.3969/j.issn.1006-267x.2020.04.026.
	Zhong G, Wang Q, Shen Y R, Zhang S, Shi S R. Effects of Bacillus subtilis on growth performance,antioxidant function and intestinal morphology of broilers[J]. Chinese Journal of Animal Nutrition, 2020, 32(4):1675-1683.

基因 Gene	引物序列(5'-3') Primer sequence(5'-3')
SOD1	F:GGTGCTCACTTCAATCCT
	R:TCTACTTCTGCCACTCCT
GSH-Px	F:CTTCAAACCCAACTTCACCAT
	R:CTCTCAGGAAGGCGAACA
β-actin	F:ATGGACTCTGGTGATGGTGTTAC
	R:TCGGCTGTGGTGGTGAAG

基因 Gene	引物序列(5'-3') Primer sequence(5'-3')
SOD1	F:GGTGCTCACTTCAATCCT
	R:TCTACTTCTGCCACTCCT
GSH-Px	F:CTTCAAACCCAACTTCACCAT
	R:CTCTCAGGAAGGCGAACA
β-actin	F:ATGGACTCTGGTGATGGTGTTAC
	R:TCGGCTGTGGTGGTGAAG

项目 Items		组别 Groups					P值 P value
项目 Items		NC	Dex	Dex+1% 葡萄渣组 Dex+1% GP	Dex+2% 葡萄渣组 Dex+2% GP	Dex+4% 葡萄渣组 Dex+4% GP	P值 P value
日平均采食	9周	140.76±6.88a	122.73±16.76a	122.75±16.87a	124.12±6.71a	134.80±6.14a	0.230
量/(g/d)	10周	126.70±7.14a	106.51±10.31c	108.68±7.89bc	114.04±11.30abc	122.62±2.72ab	0.027
ADFI	12周	118.57±2.92a	102.87±14.11a	109.06±8.64a	115.96±14.28a	120.81±3.72a	0.136
平均日增质	9周	63.52±6.54a	56.33±7.76a	55.78±4.92a	59.20±9.49a	65.41±3.91a	0.142
量/(g/d)	10周	36.60±1.95a	34.90±7.16a	36.56±3.27a	38.70±1.21a	40.19±6.49a	0.556
ADG	12周	41.33±2.22a	37.99±5.33a	40.79±3.35a	40.64±1.76a	40.28±0.64a	0.606
料质量比	9周	2.24±0.27a	2.19±0.27a	2.13±0.15a	2.14±0.42a	2.06±0.10a	0.924
F/G	10周	3.47±0.19a	3.16±0.88a	2.94±0.51a	2.95±0.34a	2.96±0.38a	0.535
	12周	2.87±0.20a	2.71±0.21a	2.69±0.38a	2.85±0.26a	3.00±0.11a	0.410

项目 Items		组别 Groups					P值 P value
项目 Items		NC	Dex	Dex+1% 葡萄渣组 Dex+1% GP	Dex+2% 葡萄渣组 Dex+2% GP	Dex+4% 葡萄渣组 Dex+4% GP	P值 P value
日平均采食	9周	140.76±6.88a	122.73±16.76a	122.75±16.87a	124.12±6.71a	134.80±6.14a	0.230
量/(g/d)	10周	126.70±7.14a	106.51±10.31c	108.68±7.89bc	114.04±11.30abc	122.62±2.72ab	0.027
ADFI	12周	118.57±2.92a	102.87±14.11a	109.06±8.64a	115.96±14.28a	120.81±3.72a	0.136
平均日增质	9周	63.52±6.54a	56.33±7.76a	55.78±4.92a	59.20±9.49a	65.41±3.91a	0.142
量/(g/d)	10周	36.60±1.95a	34.90±7.16a	36.56±3.27a	38.70±1.21a	40.19±6.49a	0.556
ADG	12周	41.33±2.22a	37.99±5.33a	40.79±3.35a	40.64±1.76a	40.28±0.64a	0.606
料质量比	9周	2.24±0.27a	2.19±0.27a	2.13±0.15a	2.14±0.42a	2.06±0.10a	0.924
F/G	10周	3.47±0.19a	3.16±0.88a	2.94±0.51a	2.95±0.34a	2.96±0.38a	0.535
	12周	2.87±0.20a	2.71±0.21a	2.69±0.38a	2.85±0.26a	3.00±0.11a	0.410

项目 Items	组别 Groups					P值 P value
项目 Items	NC	Dex	Dex+1% 葡萄渣组 Dex+1% GP	Dex+2% 葡萄渣组 Dex+2% GP	Dex+4% 葡萄渣组 Dex+4% GP	P值 P value
IgA	285.00±51.87a	277.46±40.59a	177.28±10.65b	246.42±16.58a	249.83±24.92a	0.017
IgG	1 147.79±392.15a	1 346.79±220.40a	972.69±178.85a	1 154.81±483.52a	1 596.02±113.72a	0.250
IgM	510.70±69.57a	402.46±34.56bc	285.37±52.52d	368.35±48.39cd	492.15±59.05ab	0.003

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