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菌物学报 2015

红缘拟层孔菌发酵菌丝体对小鼠免疫调节的研究

DOI: DOI:10.13346/j.mycosystema.130248, PP. 287-292

包海鹰,孙琦,黄威,孙雪,图力古尔,李玉

Keywords: 腹腔巨噬细胞,血清溶血素,淋巴细胞转化,碳廓清

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Abstract:

红缘拟层孔菌是具有良好抗肿瘤活性的药用真菌，其抗肿瘤的主要有效成分为3-乙酰氧基-8,24-羊毛甾二烯-21-酸。以红缘拟层孔菌发酵菌丝体及3-乙酰氧基-8,24-羊毛甾二烯-21-酸单体为实验材料，研究了两者对小鼠免疫功能的调节作用，然后测试免疫功能的4个指标来判断红缘拟层孔菌发酵菌丝体和3-乙酰氧基-8,24-羊毛甾二烯-21-酸单体在免疫系统中的影响。结果表明，与对照组比较，红缘层孔菌组的吞噬率、血清溶血素水平、淋巴细胞转化率和吞噬指数均有显著提高；在小鼠淋巴细胞转化实验中，3-乙酰氧基-8,24-羊毛甾二烯-21-酸在低浓度时对小鼠淋巴细胞转化具有良好的促进作用，但随浓度的增加，促进作用逐渐减弱（P<0.05）。因此，红缘层孔菌发酵菌丝体具有良好的增强小鼠免疫功能的作用。

References

[1]	Anon. , 1999. The Chinese materia medica. Edited by State Administration of Traditional Chinese Medicine “Chinese Materia Medica” editorial board. Shanghai Science and Technology Press, Shanghai. 532 (in Chinese) [本文引用:1]
[2]	Dai YC, 2012. Pathogenic wood-decaying fungi on woody plants in China. Mycosystema, 31: 493-509 (in Chinese) [本文引用:1]
[3]	Dai YC, Bau T, Cui BK, Qin GF, 2013. Illustrations of medicinal fungi in China. North Forestry University Press, Harbin. 188-189(in Chinese) [本文引用:1]
[4]	Dai YC, Yang ZL, 2008. A revised checklist of medicinal fungi in China. Mycosystema, 27(6): 801-824 (in Chinese) [本文引用:1]
[5]	Fan XF, 2013. Immunocompetence and VD transformation of ergosterol extracted from medicinal and edible fungi. Master Thesis, Jilin Agricultural University. 1-10 (in Chinese) [本文引用:1]
[6]	Gong XJ, Ji H, Lu SG, Li SP, Li P, 2000. The influence of the artificial Chinese caterpillar fungus polysaccharide on immune function in mice. Journal of China Pharmaceutical University, 31(1): 53-55 (in Chinese) [本文引用:1]
[7]	Huang W, Sun X, 2013. Fermentation technology research of Fomitopsis pinicola and litre tank fermentation. Journal of Fungal Research, 11(2): 129-132 (in Chinese) [本文引用:1]
[8]	Liu B, 1984. Chinese medicinal fungi. Shanxi people’s Press, Taiyuan. 66 (in Chinese) [本文引用:1]
[9]	Ren G, Liu X, Zhu H, Yang S, Fu C, 2006. Evaluation of cytotoxic activities of some medicinal polypore fungi from China. Fitoterapia, 77: 408-410 [本文引用:1]
[10]	Sun X, Zhao XH, 2006. Antitumor active constituent in fruiting body of Fomitopsis pinicola. Lishizhen Medicine and Materia Medicia Research, 23(7): 1634-1637 (in Chinese) [本文引用:1]
[11]	Sun X, 2012. Study on antitumor health products of Fomitopsis pinicola. Master Thesis, Jilin Agricultural University. 1-2 (in Chinese) [本文引用:1]
[12]	Xu ZR, Wang Q, Zhao M, Xu Q, Jia CS, Shi YY, 2007. The research of immunologic enhancement of Dioscorea opposita polysaccharid. Lishizhen Medicine and Materia Medicia Research, 18(5): 1040-1041 (in Chinese) [本文引用:1]
[13]	Zhao XH, 2010. Study on antitumor and antimicrobial activity of the fruiting body of Fomitopsis pinicola. Master Thesis, Jilin Agricultural University. 1-4 (in Chinese) [本文引用:1]
[14]	戴玉成, 图力古尔, 崔宝凯, 秦国夫, 2013. 中国药用真菌图志. 哈尔滨: 东北林业大学出版社. 188-189 [本文引用:1]
[15]	戴玉成, 2012. 中国木本植物病原木材腐朽菌研究. 菌物学报, 31: 493-509 [本文引用:1]
[16]	戴玉成, 杨祝良, 2008. 中国药用真菌名录及部分名称的修订. 菌物学报, 27(6): 801-824 [本文引用:1]
[17]	樊晓飞, 2013. 食药用菌中麦角甾醇的免疫活性及其VD转化. 长春: 吉林农业大学硕士论文. 1-10 [本文引用:1]
[18]	国家中医药管理局《中华本草》编委会, 1999. 中华本草. 上海: 上海科学技术出版社. 532 [本文引用:1]
[19]	龚晓健, 季晖, 卢顺高, 李绍平, 李萍, 2000. 人工虫草多糖对小鼠免疫功能的影响. 中国药科大学学报, 31(1): 53-55 [本文引用:1]
[20]	黄威, 孙雪, 2013. 红缘拟层孔菌发酵工艺的研究及其升罐培养. 菌物研究, 11(2): 129-132 [本文引用:1]
[21]	刘波, 1994. 中国药用真菌. 山西: 山西科学技术出版社. 66 [本文引用:1]
[22]	孙雪, 赵兴华, 2006. 红缘拟层孔菌子实体中抗肿瘤活性成分研究. 时珍国医国药, 23(7): 1634-1637 [本文引用:1]
[23]	孙雪, 2012. 红缘拟层孔菌抑瘤保健品的研制. 长春: 吉林农业大学硕士论文. 1-2 [本文引用:1]
[24]	徐增莱, 汪琼, 赵猛, 徐琴, 贾成森, 史云云, 2007. 淮山药多糖的免疫调节作用研究. 时珍国医国药, 18(5): 1040-1041 [本文引用:1]
[25]	赵兴华, 2010. 红缘拟层孔菌(Fomitopsis pinicola)子实体的抗肿瘤及抑菌活性的研究. 长春: 吉林农业大学硕士论文. 1-4 [本文引用:1]

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