China Animal Husbandry and Veterinary Medicine ›› 2022, Vol. 49 ›› Issue (1): 150-160.doi: 10.16431/j.cnki.1671-7236.2022.01.016
• Nutrition and Feed • Previous Articles Next Articles
MAO Xinyu, LIANG Hui, WANG Hang, DONG Na
Received:
2021-07-31
Online:
2022-01-05
Published:
2021-12-29
CLC Number:
MAO Xinyu, LIANG Hui, WANG Hang, DONG Na. Protective Effects of Plant Polysaccharides on Animal Intestine and Its Molecular Mechanism[J]. China Animal Husbandry and Veterinary Medicine, 2022, 49(1): 150-160.
[1] 高小莉,黄晓宇,杨巧丽,等.长链非编码RNA在畜禽肠道疾病中的研究进展[J].农业生物技术学报,2020,28(6):1073-1083. GAO X L,HUANG X Y,YANG Q L,et al.Research progress of long non-coding RNA in intestinal diseases of livestock and poultry[J].Journal of Agricultural Biotechnology,2020,28(6):1073-1083.(in Chinese) [2] 易宏波.抗菌肽CWA对断奶仔猪肠道炎症和肠道屏障功能的作用及其机制[D].杭州:浙江大学,2016. YI H B.Effects and mechanisms of antimicrobial peptide CWA on intestinal inflammation and intestinal barrier functions in weaned piglets[D].Hangzhou:Zhejiang University,2016.(in Chinese) [3] CHENG Y,YANG C,TAN Z L,et al.Changes of intestinal oxidative stress,inflammation,and gene expression in neonatal diarrhoea kids[J].Frontiers in Veterinary Science,2021,8:598691. [4] HELLER M C,CHIGERWE M.Diagnosis and treatment of infectious enteritis in neonatal and juvenile ruminants[J].Veterinary Clinics of North America-food Animal Practice,2018,34(1):101-117. [5] REN Y,BAI Y,ZHANG Z,et al.The preparation and structure analysis methods of natural polysaccharides of plants and fungi:A review of recent development[J].Molecules,2019,24(17):3122. [6] YU Y,SHEN M,SONG Q Q,et al.Biological activities and pharmaceutical applications of polysaccharide from natural resources:A review[J].Carbohydrate Polymers,2018,183:91-101. [7] YIN M,ZHANG Y,LI H.Advances in research on immunoregulation of macrophages by plant polysaccharides[J].Frontiers in Immunology,2019,10:145. [8] YANG C M,HAN Q J,WANG K L,et al.Astragalus and ginseng polysaccharides improve developmental,intestinal morphological,and immune functional characters of weaned piglets[J].Frontiers in Physiology,2019,10:418. [9] 王义翠,刘延鑫,孙宇,等.不同水平黄芪多糖对早期断奶犊牛生长性能及抗氧化能力的影响[J].黑龙江畜牧兽医,2018,20:151-153. WANG Y C,LIU Y X,SUN Y,et al.Effects of different levels of Astragalus polysaccharides on growth performance andantioxidant capacity in early weaned calves[J].Heilongjiang Animal Science and Veterinary Medicine,2018,20:151-153.(in Chinese) [10] 谭西,周欣,陈华国.植物多糖构效关系研究进展[J].中国中药杂志,2017,42(21):4104-4109. TAN X,ZHOU X,CHEN H G.Structure-activity relationship of plant polysaccharides[J].China Journal of Chinese Materia Medica,2017,42(21):4104-4109.(in Chinese) [11] 杨小军,王筱霏,尹瑞卿,等.功能性多糖与家禽肠道黏膜免疫调控的构效关系[J].动物营养学报,2011,23(7):1089-1093. YANG X J,WANG X F,YIN R Q,et al.Interactions between the structure of polysaccharides and its modulation on intestinal immune responses in poultry[J].Chinese Journal of Animal Nutrition,2011,23(7):1089-1093.(in Chinese) [12] 解玉怀,尚庆辉,古丽美娜,等.饲料添加剂植物多糖的生物学作用[J].草业科学,2016,33(3):503-511. XIE Y H,SHANG Q H,GU L M N,et al.The biological functions of phytogenic polysaccharides as feed additives[J].Pratacultural Science,2016,33(3):503-511.(in Chinese) [13] KHOSHBIN K,CAMILLERI M.Effects of dietary components on intestinal permeability in health and disease[J].American Journal of Physiology. Gastrointestinal and Liver Physiology,2020,319(5):G589-G608. [14] GLEESON J P,ESTRADA H Q,YAMASHITA M,et al.Development of physiologically responsive human iPSC-derived intestinal epithelium to study barrier dysfunction in IBD[J].International Journal of Molecular Sciences,2020,21(4):1438. [15] REES W D,SLY L M,STEINER T S.How do immune and mesenchymal cells influence the intestinal epithelial cell compartment in inflammatory bowel disease? Let's crosstalk about it![J]. Journal of Leukocyte Biology,2020,108(1):309-321. [16] ZONG X,XIAO X,KAI L X,et al.Atractylodis macrocephalae polysaccharides protect against DSS-induced intestinal injury through a novel lncRNA ITSN1-OT1[J].International Journal of Biological Macromolecules,2021,167(5):76-84. [17] WU Y J,JIANG H H,ZHU E,et al.Hericium erinaceus polysaccharide facilitates restoration of injured intestinal mucosal immunity in Muscovy duck reovirus-infected Muscovy ducklings[J].International Journal of Biological Macromolecules,2018,107(Pt A):1151-1161. [18] 谢红兵,邹云,刘丽莉,等.植物多糖对断奶仔猪小肠黏膜形态及肠黏膜屏障功能的影响[J].中国兽医学报,2019,39(1):150-157. XIE H B,ZOU Y,LIU L L,et al.Effects of plant polysaccharides on the morphology of intestinal mucosa and intestinal mucosal barrier function of weaned piglets[J].Chinese Journal of Veterinary Science,2019,39(1):150-157.(in Chinese) [19] PAONE P,CANI P D.Mucus barrier,mucins and gut microbiota:The expected slimy partners?[J].Gut,2020,69(12):2232-2243. [20] LI J J,ZHANG L,LI Y F,et al.Puerarin improves intestinal barrier function through enhancing goblet cells and mucus barrier[J].Journal of Functional Foods,2020,75:104246. [21] 杨松巍,王亮,李虎进,等.IL-18通过下调KLF4阻碍杯状细胞发育加剧小鼠溃疡性结肠炎[J].重庆医科大学学报,2020,45(9):91-95. YANG S W,WANG L,LI H J,et al.IL-18 inhibits the development of goblet cells by down-regulating KLF4 and exacerbates ulcerative colitis in mice[J].Journal of Chongqing Medical University,2020,45(9):91-95.(in Chinese) [22] XIE S Z,LIU B,YE H Y,et al.Dendrobium huoshanense polysaccharide regionally regulates intestinal mucosal barrier function and intestinal microbiota in mice[J].Carbohydrate Polymers,2018,206:149-162. [23] WANG Q,WANG X F,XING T,et al.The combined impact of xylo-oligosaccharides and gamma-irradiated Astragalus polysaccharides on growth performance and intestinal mucosal barrier function of broilers[J].Poultry Science,2021,100(3):100909. [24] 郭佳裕,孟娟,杜锦辉.甘草泻心汤对抗生素诱导肠道菌群失调小鼠肠道主要菌群及sIgA的影响[J].中国微生态学杂志,2019,31(11):1246-1249. GUO J Y,MENG J,DU J H.Effect of Gancao Xiexin decoction on main intestinal flora and sIgA in mice with antibiotic-induced intestinal flora imbalance[J].Chinese Journal of Microecology,2019,31(11):1246-1249.(in Chinese) [25] NAGAFUSA H,SAYAMA K.Age-related chemokine alterations affect IgA secretion and gut immunity in female mice[J].Biogerontology,2020,21(5):609-618. [26] LIAO L Y,LI J,LI J,et al.Effects of Astragalus polysaccharides on intestinal morphology and intestinal immune cells of Muscovy ducklings infected with Muscovy duck reovirus[J].Poultry Science,2021,100(1):64-72. [27] ZHOU R R,HE D,XIE J,et al.The synergistic effects of polysaccharides and ginsenosides from american ginseng (Panax quinquefolius L.) ameliorating cyclophosphamide-induced intestinal immune disorders and gut barrier dysfunctions based on microbiome-metabolomics analysis[J].Frontiers in Immunology,2021,12:665901. [28] FENG W W,LIU J,TAN Y Z,et al.Polysaccharides from Atractylodes macrocephala Koidz.Ameliorate ulcerative colitis via extensive modification of gut microbiota and host metabolism[J].Food Research International,2020,138:109777. [29] HO DO M,SEO Y S,PARK H Y.Polysaccharides:Bowel health and gut microbiota[J].Critical Reviews in Food Science And Nutrition,2021,61(7):1212-1224. [30] WANG J,FENG W W,ZHANG S Y,et al.Gut microbial modulation in the treatment of chemotherapy-induced diarrhea with Shenzhu Capsule[J].BMC Complementary and Alternative Medicine,2019,19(1):126. [31] RAMOS G P,PAPADAKIS K A.Mechanisms of disease:Inflammatory bowel diseases[J].Mayo Clinic Proceedings,2019,94(1):155-165. [32] TANG C,DING R X,SUN J,et al.The impacts of natural polysaccharides on intestinal microbiota and immune responses——A review[J].Food & Function,2019,10(5):2290-2312. [33] REN Y L,GENG Y,DU Y,et al.Polysaccharide of Hericium erinaceus attenuates colitis in C57BL/6 mice via regulation of oxidative stress,inflammation-related signaling pathways and modulating the composition of the gut microbiota[J].Journal of Nutritional Biochemistry,2018,57:67-76. [34] 张金洲,苗志国,赵伟鑫,等.山药多糖对仔猪生长性能与肠道菌群的影响[J].中国饲料,2020,23:57-61. ZHANG J Z,MIAO Z G,ZHAO W X,et al.Effect of yam polysaccharide on growth performance and intestinal microflora of piglets[J].China Feed,2020,23:57-61.(in Chinese) [35] ZHAO D,DAI W J,TAO H,et al.Polysaccharide isolated from Auricularia auricular-judae (Bull.) prevents dextran sulfate sodium-induced colitis in mice through modulating the composition of the gut microbiota[J].Journal of Food Science,2020,85(9):2943-2951. [36] 徐永杰,张波,张祎腾.牛蒡多糖的提取及对小鼠肠道菌群的调节作用[J].食品科学,2009, 30(23):428-431. XU Y J,ZHANG B,ZHANG Y T.Extraction and modulation on mouse normal intestinal microflora of burdock polysaccharide[J].Food Science,2009,30(23):428-431.(in Chinese) [37] HAO Y T,WANG X D,YUAN S J,et al.Flammulina velutipes polysaccharide improves C57BL/6 mice gut health through regulation of intestine microbial metabolic activity[J].International Journal of Biological Macromolecules,2021,167:1308-1318. [38] WANG F,BAO Y F,SI J J,et al.The Beneficial effects of a polysaccharide from moringa oleifera leaf on gut microecology in mice[J].Journal of Medicinal Food,2019,22(9):907-918. [39] LI Y H,WANG S,SUN Y,et al.Apple polysaccharide protects ICR mice against colitis associated colorectal cancer through the regulation of microbial dysbiosis[J].Carbohydrate Polymers,2020,230:115726. [40] NIU X Y,SHANG H Q,CHEN S Y,et al.Effects of Pinus massoniana pollen polysaccharides on intestinal microenvironment and colitis in mice[J].Food & Function,2021,12(1):252-266. [41] 克里斯,郭建状,冯澜,等.马齿苋多糖对衰老小鼠肠道微生态调节作用的研究[J].中国微生态学杂志,2012,24(3):233-235. KRIS,GUO J Z,FENG L,et al. The role of Portulaca oleracea polysaccharide in regulating intestinal micro flora in aged mice[J].Chinese Journal of Microecology,2012,24(3):233-235.(in Chinese) [42] 石丹,张宇.蒲公英多糖对小鼠肠道微生态的调节作用[J].微生物学免疫学进展,2016,44(3):49-53. SHI D,ZHANG Y.The regulation effect of dandelion polysaccharide on the intestinal microecology of mice[J].Progress in Microbiology and Immunology,2016,44(3):49-53.(in Chinese) [43] CHEN Q Q,REN R R,ZHANG Q Q,et al.Coptis chinensis Franch polysaccharides provide a dynamically regulation on intestinal microenvironment,based on the intestinal flora and mucosal immunity[J].Journal of Ethnopharmacology,2021,267:113542. [44] 李瑶,黄金莉,黄娟,等.肠道菌群与肠道屏障互作在炎症性肠病中的作用研究进展[J].胃肠病学和肝病学杂志,2021,30(1):10-15. LI Y,HUANG J L,HUANG J,et al.Research progress on the interaction of intestinal flora and intestinal barrier in inflammatory bowel disease[J].Chinese Journal of Gastroenterology and Hepatology,2021,30(1):10-15.(in Chinese) [45] FENG W W,AO H,PENG C.Gut microbiota,short-chain fatty acids,and herbal medicines[J].Frontiers in Pharmacology,2018,9:1354. [46] 邱霞,张健,李可昌,等.肠道菌群与植物多糖相关性研究进展[J].中国食物与营养,2021,27(1):54-57. QIU X,ZHANG J,LI K C,et al.Research progress on the correlation between intestinal flora and plant polysaccharides[J].Food and Nutrition in China,2021,27(1):54-57.(in Chinese) [47] GU W,WANG Y F,ZENG L X,et al.Polysaccharides from polygonatum kingianum improve glucose and lipid metabolism in rats fed a high fat diet[J].Biomedicine & Pharmacotherapy,2020,125:109910. [48] WU S J.Effect of dietary Astragalus membranaceus polysaccharide on the growth performance and immunity of juvenile broilers[J].Poultry Science,2018,97(10):3489-3493. [49] LONG L N,KANG B J,JIANG Q,et al.Effects of dietary Lycium barbarum polysaccharides on growth performance,digestive enzyme activities,antioxidant status,and immunity of broiler chickens[J].Poultry Science,2020,99(2):744-751. [50] LONG L N,ZHANG H H,WANG F,et al.Research note:Effects of polysaccharide-enriched Acanthopanax senticosus extract on growth performance,immune function,antioxidation,and ileal microbial populations in broiler chickens[J].Poultry Science,2021,100(4):101028. [51] SHA Z,SHANG H Q,MIAO Y Q,et al.Polysaccharides from Pinus massoniana pollen improve intestinal mucosal immunity in chickens[J].Poultry Science,2021,100(2):507-516. [52] CHEN J S,LONG L N,JIANG Q,et al.Effects of dietary supplementation of Lycium barbarum polysaccharides on growth performance,immune status,antioxidant capacity and selected microbial populations of weaned piglets[J].Journal of Animal Physiology And Animal Nutrition,2020,104(4):1106-1115. [53] DONG N,LI X R,XUE C Y,et al.Astragalus polysaccharides alleviates LPS-induced inflammation via the NF-κB/MAPK signaling pathway[J].Journal of Cellular Physiology,2020,235(7-8):5525-5540. [54] KAWAI T,AKIRA S.Signaling to NF-kappaB by Toll-like receptors[J].Trends in Molecular Medicine,2007,13(11):460-469. [55] COLLINS P E,SOMMA D,KERRIGAN D,et al.The IκB-protein BCL-3 controls Toll-like receptor-induced MAPK activity by promoting TPL-2 degradation in the nucleus[J].Proceedings of the National Academy of Sciences of the United States of America,2019,116(51):25828-25838. [56] LU P D,ZHAO Y H.Targeting NF-kappaB pathway for treating ulcerative colitis:Comprehensive regulatory characteristics of Chinese medicines[J].Chinese Medicine,2020,15:15. [57] SHAO X,SUN C Z,TANG X,et al.Anti-inflammatory and intestinal microbiota modulation properties of Jinxiang garlic (Allium sativum L.) polysaccharides toward dextran sodium sulfate-induced colitis[J].Journal of Agricultural and Food Chemistry,2020,68(44):12295-12309. [58] YE J,YE C Q,HUANG Y Y,et al.Ginkgo biloba sarcotesta polysaccharide inhibits inflammatory responses through suppressing both NF-kappaB and MAPK signaling pathway[J].Journal of the Science of Food and Agriculture,2019,99(5):2329-2339. [59] CORREA L B,SEITO L N,MANCHOPE M F,et al.Methyl gallate attenuates inflammation induced by Toll-like receptor ligands by inhibiting MAPK and NF-κB signaling pathways[J].Inflammation Research,2020,69(12):1257-1270. [60] XU M Y,TAO J,YANG Y D,et al.Ferroptosis involves in intestinal epithelial cell death in ulcerative colitis[J].Cell Death & Disease,2020,11(2):86. [61] 牛佳卉,袁静,魏然,等.红枣多糖对小鼠肠道免疫屏障的保护作用及机制研究[J].食品工业科技,2021,42(4):295-300. NIU J H,YUAN J,WEI R,et al.Study on the protective effect and mechanism of Jujube polysaccharides on the intestinal immune barrier of mice[J].Science and Technology of Food Industry,2021,42(4):295-300.(in Chinese) [62] QU J L,HUANG P,ZHANG L,et al.Hepatoprotective effect of plant polysaccharides from natural resources:A review of the mechanisms and structure-activity relationship[J].International Journal of Biological Macromolecules,2020,161:24-34. [63] MENG Y,XU Y J,CHANG C,et al.Extraction,characterization and anti-inflammatory activities of an inulin-type fructan from Codonopsis pilosula[J].International Journal of Biological Macromolecules,2020,163:1677-1686. [64] TANG S,LIU W,ZHAO Q Q,et al.Combination of polysaccharides from Astragalus membranaceus and Codonopsis pilosula ameliorated mice colitis and underlying mechanisms[J].Journal of Ethnopharma-cology,2020,264:113280. [65] YANG L,LIU G,LIAN K X,et al.Dietary leonurine hydrochloride supplementation attenuates lipopolysaccharide challenge-induced intestinal inflammation and barrier dysfunction by inhibiting the NF-κB/MAPK signaling pathway in broilers[J].Journal of Animal Science,2019,97(4):1679-1692. [66] MEIR M,BURKARD N,UNGEWIß H,et al.Neurotrophic factor GDNF regulates intestinal barrier function in inflammatory bowel disease[J].Journal of Clinical Investigation,2019,129(7):2824-2840. [67] MA G X,KIMATU B M,YANG W J,et al.Preparation of newly identified polysaccharide from Pleurotus eryngii and its anti-inflammation activities potential[J].Journal of Food Science,2020,85(9):2822-2831. [68] ZOU Y F,ZHANG Y Y,PAULSEN B S,et al.Structural features of pectic polysaccharides from stems of two species of Radix codonopsis and their antioxidant activities[J].International Journal of Biological Macromolecules,2020,159:704-713. [69] HU X Y,YU Q,HOU K Y,et al.Regulatory effects of Ganoderma atrum polysaccharides on LPS-induced inflammatory macrophages model and intestinal-like Caco-2/macrophages co-culture inflammation model[J].Food and Chemical Toxicology,2020,140:111321. [70] ZHANG Z L,ZHANG Q P,LI F,et al.Contributions of HO-1-dependent MAPK to regulating intestinal barrier disruption[J].Biomolecules & Therapeutics,2021,29(2):175-183. [71] XIONG W,HUANG J,LI X Y,et al.Icariin and its phosphorylated derivatives alleviate intestinal epithelial barrier disruption caused by enterotoxigenic Escherichia coli through modulate p38 MAPK in vivo and in vitro[J].FASEB Journal,2020,34(1):1783-1801. [72] LIU Y,ZHAO X T,LIN T T,et al.Molecular mechanisms of polysaccharides from Ziziphus jujuba Mill var.spinosa seeds regulating the bioavailability of spinosin and preventing colitis[J].International Journal of Biological Macromolecules,2020,163:1393-1402. [73] CHEN Y F,ZHENG J J,QU C,et al.Inonotus obliquus polysaccharide ameliorates dextran sulphate sodium induced colitis involving modulation of Th1/Th2 and Th17/Treg balance[J].Artificial Cells Nanomedicine and Biotechnology,2019,47(1):757-766. [74] ZHANG L Y,YONG W X,WANG L,et al.Astragalus polysaccharide eases G1 phase-correlative bystander effects through mediation of TGF-βR/MAPK/ROS signal pathway after carbon ion irradiation in BMSCs[J].The American Journal of Chinese Medicine,2019,47(3):595-612. |
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