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草业学报 2014

谷氨酰胺对饲喂高精料的奶山羊瘤胃上皮的保护效应研究

DOI: 10.11686/cyxb20140436, PP. 293-299

刘玉洁,刘军花,许婷婷,朱伟云,毛胜勇

Keywords: 谷氨酰胺,瘤胃上皮,奶山羊,紧密连接蛋白

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Abstract:

本研究旨在探讨过瘤胃谷氨酰胺对饲喂高精料的奶山羊瘤胃上皮屏障的保护效应。实验采用随机区组设计,将12头健康奶山羊随机分为高精料组(n=6)和高精料添加谷氨酰胺组(n=6),谷氨酰胺添加量为50g/(d·头)。谷氨酰胺处理4周后,每组各选取4头山羊进行屠宰。HE染色、扫描和透射电镜法观察瘤胃上皮的组织形态学变化,实时荧光定量PCR法检测瘤胃上皮炎症因子及紧密连接蛋白mRNA的相对表达水平。结果表明,与对照组相比,添加谷氨酰胺显著降低了瘤胃液中丙酸浓度(P<0.01),有降低瘤胃乳酸、提高丁酸浓度的趋势,但对瘤胃液pH、乙酸、异丁酸、总挥发性脂肪酸浓度无显著影响(P>0.05);对组织形态的观察结果表明,添加过瘤胃谷氨酰胺可维持瘤胃复层扁平上皮各细胞层的完整性,保护角质层,减少细胞凋亡;并显著降低瘤胃上皮组织中TNF-α的mRNA相对表达量(P<0.05),显著提高occludin的mRNA相对表达量(P<0.05);但对IFN-γ、IL-1β、IL-6、IL-10、claudin-1、claudin-4和ZO-1mRNA表达量无显著影响(P>0.05)。结果说明,高精料日粮下添加过瘤胃谷氨酰胺可降低瘤胃上皮的炎症反应,改善上皮紧密连接,从而维护瘤胃上皮屏障的正常功能。

References

[1]	Zhou Y X, Zhang P S, Lu D X, et al. Effects of different glutamine levels on skeleton muscle,small intestine mucous protein,DNA and RNA levels in early-weaned calves[J]. Animal Husbandry & Veterinary Medicine, 2010, 42(1): 17-20.
[2]	Zhang L X, Zhang T F, Li L Y. Biochemical Test Methods and Techniques (Second Edition)[M]. Beijing: Higher Education Press, 1997.
[3]	Qin W L. Determnation of rumen volatile fatty acids by means of gas chromatofraphy[J]. Journal of Nanjing Agricultural University, 1982, 5: 110-116.
[4]	Chomczynski P, Sacchi N. Single step method of RNA isolation by acid guanidinium thiocyanate phenol chloroform extraction[J]. Analytical Biochemistry, 1987, 162(1): 156-159.
[5]	Liu J H, Xu T T, Liu Y J, et al. A high-grain diet causes massive disruption of ruminal epithelial tight junctions in goats[J]. American Journal of Physiology-Regulatory, Integrative and Comparative Physiology, 2013, 305(3): 232-241.
[6]	Penner G B, Steele M A, Aschenbach J R, et al. Ruminant nutrition symposium: Molecular adaptation of ruminal epithelia to highly fermentable diets[J]. Journal of Animal Science, 2011, 89(4): 1108-1119.
[7]	Steele M A, AlZahal O, Hook S E, et al. Ruminal acidosis and the rapid onset of ruminal parakeratosis in a mature dairy cow: a case report[J]. Acta Veterinaria Scandinavica, 2009, 51: 39.
[8]	Steele M A, Croom J, Kahler M, et al. Bovine rumen epithelium undergoes rapid structural adaptations during grain-induced subacute ruminal acidosis[J]. American Journal of Physiology-Regulatory, Integrative and Comparative Physiology, 2011, 300(6): 1515-1523.
[9]	Khafipour E, Krause D O, Plaizier J C. A grain-based subacute ruminal acidosis challenge causes translocation of lipopolysaccharide and triggers inflammation[J]. Journal of Dairy Science, 2009, 92(3): 1060-1070.
[10]	Graham C, Simmons N L. Functional organization of the bovine rumen epithelium[J]. American Journal of Physiology Regulatory, Integrative and Comparative Physiology, 2005, 288(1): 173-181.
[11]	Li N, Lewis P, Samuelson D, et al. Glutamine regulates Caco 2 cell tight junction proteins[J]. American Journal of Physiology Gastrointestinal and Liver Physiology, 2004, 287(3): 726-733. 
[12]	Basuroy S, Sheth P, Mansbach C M, et al. Acetaldehyde disrupts tight junctions and adherens junctions in human colonic mucosa: protection by EGF and L g1utamine[J]. American Journal of Physiology Gastrointestinal and Liver Physiology, 2005, 289(2): 367-375. 
[13]	Ameho C K, Adjei A A, Harrison E K, et al. Prophylactic effect of dietary glutamine supplementation on interleukin 8 and tumour necrosis factorá production in trinitrobenzene sulphonic acid induced colitis[J]. Gut, 1997, 41(4): 487-493.
[14]	Doepel L, Lessard M, Gagnon N, et al. Effect of postruminal glutamine supplementation on immune response and milk production in dairy cows[J]. Journal of Dairy Science, 2006, 89(8): 3107-3121.
[15]	Ewaschuk J B, Murdoch G K, Johnson I R, et al. Glutamine supplementation improves intestinal barrier function in a weaned piglet model of Escherichia coli infection[J].The British of Journal of Nutrition, 2011, 106(6): 870-877.
[16]	Caroprese M, Albenzio M, Marino R, et al. Immune response and milk production of dairy cows fed graded levels of rumen protected glutamine[J]. Research in Veterinary Science, 2012, 93(1): 202-209.
[17]	Caroprese M, Albenzio M, Marino R, et al. Dietary glutamine enhances immune responses of dairy cows under high ambient temperature[J]. Journal of Dairy Science, 2013, 96(5): 3002-3011.
[18]	Mentschel J, Leiser R, Mulling C, et al. Butyric acid stimulates rumen mucosa development in the calf mainly by a reduction of apoptosis[J]. Archiv für Tierernaehrung, 2001, 55(2): 85-102.
[19]	Sakata T, Tamate H. Rumen epithelial cell proliferation accelerated by rapid increase in intraruminal butyrate[J]. Journal of Dairy Science, 1978, 61(8): 1109-1113.
[20]	参考文献：
[21]	邓露芳, 卜登攀, 王加启, 等. 饲用微生物缓解瘤胃酸中毒机理的研究进展[J]. 中国奶牛, 2008, (3): 16-18.
[22]	Rao R K, Samak G. Role of glutamine in protection of intestinal epithelial tight junctions[J]. Journal of Epithelial Biology and Pharmacology, 2012, 5(1): 47-54. 
[23]	马晓菁, 马兵, 谢东珊, 等. 谷氨酰胺对严重烧伤后肠黏膜和机体免疫功能保护作用的临床观察[J]. 西安交通大学学报, 2009, 30(3): 359-362.
[24]	Reference：
[25]	Deng L F, Bu D P, Wang J Q, et al. Progress of feed microbials ease ruminal acidosis mechanism[J]. China Dairy Cattle, 2008, (3): 16-18.
[26]	Rao R K, Samak G. Role of glutamine in protection of intestinal epithelial tight junctions[J]. Journal of Epithelial Biology and Pharmacology, 2012, 5(1): 47-54. 
[27]	Ma X J, Ma B, Xie D S, et al. Clinical study on the protective effects of glutamine on intestinal mucosa and body immunity after severe burns[J]. Journal of Xi'an Jiaotong University(Medical Sciences), 2009, 30(3): 359-362.
[28]	Gu J C, Ma T, Zhang Z T, et al. The effect of glutamine on gut barrier function in rats with severe abdominal infection[J]. Beijing Medical Journal, 2006, 28(9): 540-543.
[29]	Deng Z Y, Guo G H, Yang Y. Effects of early enteral glutamine supplementation on tight junctions in intestinal mucosa of scalded rats[J]. World Chinese Journal of Digestology, 2009, (20): 2031-2036.
[30]	Rémond D, Ortigues I, Jouany J P. Energy substrates for the rumen epithelium[J]. The Proceedings of the Nutrition Society, 1995, 54(1): 95-105.
[31]	谷俊朝, 马涛, 张忠涛, 等. 谷氨酰胺对腹腔感染肠黏膜屏障的保护作用[J]. 北京医学, 2006, 28(9): 540-543.
[32]	邓志云, 郭光华, 杨毅. 早期肠内谷氨酰胺补给对烫伤大鼠肠黏膜细胞紧密连接的影响[J]. 世界华人消化杂志, 2009, (20): 2031-2036.
[33]	Rémond D, Ortigues I, Jouany J P. Energy substrates for the rumen epithelium[J]. The Proceedings of the Nutrition Society, 1995, 54(1): 95-105.
[34]	周玉香, 张培松, 卢德勋, 等. 谷氨酰胺对犊牛骨骼肌和小肠黏膜蛋白质及其DNA和RNA含量的影响[J]. 畜牧与兽医, 2010, 42(1): 17-20.
[35]	张龙翔, 张庭芳, 李玲媛. 生化试验方法和技术(第二版)[M]. 北京: 高等教育出版社, 1997.
[36]	秦为琳. 应用气相色谱测定挥发性脂肪酸方法的研究改进[J]. 南京农业大学学报, 1982, 5: 110-116.
[37]	Chomczynski P, Sacchi N. Single-step method of RNA isolation by acid guanidinium thiocyanate-phenol-chloroform extraction[J]. Analytical Biochemistry, 1987, 162(1): 156-159.
[38]	Liu J H, Xu T T, Liu Y J, et al. A high-grain diet causes massive disruption of ruminal epithelial tight junctions in goats[J]. American Journal of Physiology-Regulatory, Integrative and Comparative Physiology, 2013, 305(3): 232-241.
[39]	Penner G B, Steele M A, Aschenbach J R, et al. Ruminant nutrition symposium: Molecular adaptation of ruminal epithelia to highly fermentable diets[J]. Journal of Animal Science, 2011, 89(4): 1108-1119.
[40]	Steele M A, AlZahal O, Hook S E, et al. Ruminal acidosis and the rapid onset of ruminal parakeratosis in a mature dairy cow: a case report[J]. Acta Veterinaria Scandinavica, 2009, 51: 39.
[41]	Steele M A, Croom J, Kahler M, et al. Bovine rumen epithelium undergoes rapid structural adaptations during grain-induced subacute ruminal acidosis[J]. American Journal of Physiology-Regulatory, Integrative and Comparative Physiology, 2011, 300(6): 1515-1523.
[42]	Khafipour E, Krause D O, Plaizier J C. A grain-based subacute ruminal acidosis challenge causes translocation of lipopolysaccharide and triggers inflammation[J]. Journal of Dairy Science, 2009, 92(3): 1060-1070.
[43]	Graham C, Simmons N L. Functional organization of the bovine rumen epithelium[J]. American Journal of Physiology-Regulatory, Integrative and Comparative Physiology, 2005, 288(1): 173-181.
[44]	Li N, Lewis P, Samuelson D, et al. Glutamine regulates Caco-2 cell tight junction proteins[J]. American Journal of Physiology Gastrointestinal and Liver Physiology, 2004, 287(3): 726-733. 
[45]	Basuroy S, Sheth P, Mansbach C M, et al. Acetaldehyde disrupts tight junctions and adherens junctions in human colonic mucosa: protection by EGF and L-g1utamine[J]. American Journal of Physiology Gastrointestinal and Liver Physiology, 2005, 289(2): 367-375. 
[46]	Ameho C K, Adjei A A, Harrison E K, et al. Prophylactic effect of dietary glutamine supplementation on interleukin 8 and tumour necrosis factor á production in trinitrobenzene sulphonic acid induced colitis[J]. Gut, 1997, 41(4): 487-493.
[47]	Doepel L, Lessard M, Gagnon N, et al. Effect of postruminal glutamine supplementation on immune response and milk production in dairy cows[J]. Journal of Dairy Science, 2006, 89(8): 3107-3121.
[48]	Ewaschuk J B, Murdoch G K, Johnson I R, et al. Glutamine supplementation improves intestinal barrier function in a weaned piglet model of Escherichia coli infection[J].The British of Journal of Nutrition, 2011, 106(6): 870-877.
[49]	Caroprese M, Albenzio M, Marino R, et al. Immune response and milk production of dairy cows fed graded levels of rumen-protected glutamine[J]. Research in Veterinary Science, 2012, 93(1): 202-209.
[50]	Caroprese M, Albenzio M, Marino R, et al. Dietary glutamine enhances immune responses of dairy cows under high ambient temperature[J]. Journal of Dairy Science, 2013, 96(5): 3002-3011.
[51]	Mentschel J, Leiser R, Mulling C, et al. Butyric acid stimulates rumen mucosa development in the calf mainly by a reduction of apoptosis[J]. Archiv für Tierernaehrung, 2001, 55(2): 85-102.
[52]	Sakata T, Tamate H. Rumen epithelial cell proliferation accelerated by rapid increase in intraruminal butyrate[J]. Journal of Dairy Science, 1978, 61(8): 1109-1113.

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