首页 > 过刊浏览>2013年第48卷第6期 >884-893
PDF HTML阅读 XML下载 导出引用 引用提醒
不同月龄虹鳟肝显微及超微结构特征
作者:
基金项目:

甘肃省自然科学基金项目(No. 096RJZA002)


Microstructure and Ultrastructure of the Liver Tissue in Oncorhynchus mykiss at Different Ages
Author:
  • 摘要
    • | |
  • 访问统计
    • |
  • 参考文献 [29]
    • |
  • 相似文献 [20]
    • | | |
  • 文章评论
    摘要:

    应用多种组织化学方法和透射电镜技术,对同一生长条件下8月龄、20月龄及30月龄虹鳟(Oncorhynchus mykiss)肝显微结构和超微结构特征进行研究。结果表明:不同月龄虹鳟肝被膜均为单层扁平上皮,厚度变化明显;肝细胞为单核,8月龄细胞排列不明显,20月龄及30月龄形成完整双层管式排列,胆管及其周围结缔组织随月龄发育尤为明显,血窦分支吻合成网状,窦壁内皮细胞扁平,胞质孔较多,窦腔内巨噬细胞具有典型胞质突,但并没有观察到Kupffer细胞;各月龄组肝星状细胞发育完善,胞突彼此相连;汇管区分为胆管孤管型、胆管动脉型、胆管静脉型、胆管动静脉型4种,8月龄以胆管孤管型为主,20月龄以胆管动脉型为主,30月龄以胆管动脉型、胆管动脉静脉型为主。因此,性成熟前虹鳟肝组织结构与其生理发育密切相关,胆管系统结构形式随月龄变化明显,肝细胞排列逐渐完善,Disse间隙胶原纤维及网状纤维含量逐渐增加,与被膜、中央静脉及汇管区结缔组织互相延伸,构成肝完整骨架,有利于调节肝细胞正常生理功能。

    Abstract:

    The liver microstructure and ultrastructure of 8-month-old, 20-month-old and 30-month-old Oncorhynchus mykiss were observed by both light and electron microscopy. The results showed that the hepatic capsule thickness varied with age. The parenchyma showed tube-like arrangement of two-hepatocytic plates encircling central venous radially. The hepatocytic microvilli extended from hepatocytes into biliary passages and towards the space of Disse. The hepatic stellate cells (HSC) were located in the space of Disse with irregular shape and angular nuclei and rich in heterochromatin and paranuclear lipid droplets. Cytoplasmic processes radiated randomly from the cell body and round sinusoid. There were free ribosomes, rough endoplasmic reticulum, Golgi complex and mitochondria in the cytoplasm and cytoplasmic processes. There were macrophages in the sinusoid, but Kupffer cells were not evident in the liver. The stromal reticular fiber increased with age. HSC and sinusoid developed perfectly in all age groups. Vessels and bile ducts were observed to scatter without any apparent order within the parenchyma. The portal area was arranged as solitary biliary, biliary-arteriole, biliary-venous and venous-biliary-arteriolar tracts. Structural differences of the portal area between different ages were observed. It was mainly the biliary solitary tube at 8-month old, while there were mainly biliary-arteriole type at 20-month-old and venous-biliary-arteriolar type at 30-month-old. These results indicated that the liver structure varied with in O.mykiss.

    参考文献
    Akiyoshi H, Inoue A. 2004. Comparative histological study of teleost livers in relation to phylogeny. Zoological Society, 21(8): 841-850.
    Boorman G A, Botts S, Bunton T E, et al. 1997. Diagnostic criteria for degenerative, inflammatory, proliferative nonneoplastic and neoplastic liver lesions in medaka (Oryzias latipes): consensus of a National Toxicology Program Pathology Working Group. Toxicologic Pathology, 25(2): 202-210.
    Eduardo R, Rogerio A, Monteiro F, et al. 1994. The liver of the brown trout, Salmo truttafario: a light and electron microscope study. Journal of Anatomy, 185(2): 241-249.
    Ferguson H W. 1989. Systemic Pathology of Fish: A Text and Atlas of Comparative Tissue Responses in Diseases of Teleosts. Ames, IA: Iowa State University Press, 263.
    Ferri S, Sesso A. 1981. Ultrastructural study of the endothelial cells in teleost liver sinusoids under normal and experimental conditions. Cell and Tissue Research, 219(3): 649-657.
    Fraser R, Dobbs B R, Rogers G W. 1995. Lipoproteins and the liver sieve: The role of the fenestrated sinusoidal endothelium in lipoprotein metabolism, atherosclerosis and cirrhosis. Hepatology, 21(3): 863-874.
    Geerts A. 2001. History, heterogeneity, developmental biology, and functions of quiescent hepatic stellate cells. Seminars in Liver Disease, 21(3): 311-335.
    Hampton J A, Lantz R C, Goldblatt P J, et al. 1988. Functional units in rainbow trout (Salmo gairdneri, Richardson) liver: II. The biliary system. The Anatomical Record, 221(2): 619-634.
    Hampton J A, Lantz R C, Hinton D E. 1989. Functional units in rainbow trout (Salmo gairdneri, Richardson) liver: Ⅲ. Morphometric analysis of parenchyma, stroma, and component cell types. The American Journal of Anatomy, 185(1): 58-73.
    Hampton J A, McCuskey P A, McCuskey R S, et al. 1985. Functional units in rainbow trout (Salmo gairdneri) liver: I. Arrangement and histochemical properties of hepatocytes. The Anatomical Record, 213(2): 166-175.
    Hinton D E, Segner H, Braunbeck T. 2001. Toxic responses of the liver//Schlenk D, Benson W H. Target Organ Toxicity in Marine and Freshwater Teleosts. London: Taylor & Francis, 224-268.
    Hinton D E, Walker E R, Pinkstaff C A, et al. 1984. Morphological survey of teleost organs important in carcinogenesis with attention to fixation. National Cancer Institute Monograph, 65: 291-320.
    Jeffrey C, Wolf E R, Marilyn J, et al. 2005. A brief overview of nonneoplastic hepatic toxicity in fish. Toxicologic Pathology, 33(1): 75-85.
    Kelly W R. 1993. In Pathology of Domestic Animals. San Diego: Academic Press Inc., 319-406.
    Nagler J J, Cavileer T D, Verducci J S, et al. 2012. Estrogen receptor mRNA expression patterns in the liver and ovary of female rainbow trout over a complete reproductive cycle. General and Comparative Endocrinology, 178(3): 556-561.
    Peek W D, Sidon E W, Youson J H, et al. 1979. Fine structure of the liver in the larval lamprey, Petrornyzon rnarinus: hepatocytes and sinusoids. The American Journal of Anatomy, 156(2): 231-250.
    Polako S, Skiba-Cassy S, Choubert G, et al. 2010. Insulin-induced hypoglycaemia is co-ordinately regulated by liver and muscle during acute and chronic insulin stimulation in rainbow trout (Oncorhynchus mykiss). The Journal of Experimental Biology, 213(19): 1443-1452.
    Polakof S, Mommsen T W, Soengas J L. 2011. Glucosensing and glucose homeostasis: from fish to mammals. Comparative Biochemistry and Physiology Part B: Biochemistry and Molecular Biology, 160(4): 123-149.
    Rossouw G J. 1987. Function of the liver and hepatic lipids of the lesser sand shark, Rhinobatos annulatus (Müller & Henle). Comparative Biochemistry and Physiology, 86(4): 785-790.
    Speilberg L, Evensen, Nafstad P. 1994. Liver of juvenile atlantic salmon, Salmo salar: A light, transmission, and scanning electron microscopic study, with special reference to the sinusoid. Anatomical Record, 240(3): 291-307.
    Subramanian S, Johan W, Schrama1 A. et al. 2012. Constraints on energy intake in fish: the link between diet composition, energy metabolism, and energy intake in rainbow trout. PLoS One, 7(4): e34743.
    William D E, Bailey G S, Reddy A, et al. 2003. The rainbow trout (Oncorhynchus mykiss) tumor model: recent applications in low-dose exposures to tumor initiators and promoters. Oxicologic Pathology, 31(1): 58-61.
    Williams D E. 2012. The rainbow trout liver cancer model: response to environmental chemicals and studies on promotion and chemoprevention. Comparative Biochemistry and Physiology Part C: Toxicology & Pharmacology, 155(1): 121-127.
    方展强, 郑文彪, 符路娣. 2002. 苏氏鲇肝脏的超微结构. 中国水产科学, 9(4): 296-299.
    刘怀如, 潘宝平. 2002. 南方鲇消化道组织形态学的研究. 天津师范大学学报: 自然科学版, 22(4): 38-42.
    楼允东. 2002. 组织胚胎学. 北京: 中国农业出版社, 109-112.
    谢碧文, 岳兴建, 张耀光. 2004. 瓦氏黄颡鱼肝和胰的组织学及超微结构. 西南农业大学学报: 自然科学版, 26(5): 645-653.
    熊洪林. 2006. 翘嘴鲌、大鳍鳠和斑鳜肝脏胰脏的形态学研究. 重庆: 西南大学硕士学位论文, 25-26.
    杨丽丽, 方展强. 2012. 唐鱼肝脏显微和超微结构观察. 四川动物, 31(2): 274-277.
    引证文献
    网友评论
    网友评论
    分享到微博
    发 布
引用本文

袁莉刚,曲亚玲,黄布敏,谷来凤,朱俊峰,田旦增.2013.不同月龄虹鳟肝显微及超微结构特征.动物学杂志,48(6):884-893.

复制
文章指标
  • 点击次数:2628
  • 下载次数: 2166
  • HTML阅读次数: 0
  • 引用次数: 0
历史
  • 收稿日期:2013-02-05
  • 最后修改日期:2013-05-21
  • 在线发布日期: 2013-12-24
  • 邮政编码:100101  电话:010-64807162
  • 通讯地址:北京 朝阳区 北辰西路1号院5号 中国科学院动物研究所
  • E-MAIL
  • journal@ioz.ac.cn

版权所有 ©《动物学杂志》编辑部 技术支持:北京勤云科技发展有限公司 京ICP备05064604号-1