饥饿对胭脂鱼血液指标及造血的影响

Effects of Starvation on Hematological Parameters and Hematogenesis in Myxocyprinus asiaticus

  • 摘要: 对胭脂鱼体长141-178 mm, 体重(94.824.52) g在26.0-27.5℃进行禁食, 研究了不同饥饿时间(0、5、10、20、30、60d)对其血液指标和造血的影响。结果表明, 饥饿对胭脂鱼RBC、Hb、MCV、MCH和MCHC等生理指标都有显著影响, 而对WBC和HCT影响不显著。饥饿5-30d之间, 外周血红细胞中含有较多数量的未成熟红细胞和较年轻的成熟红细胞, 饥饿至60d时新生红细胞的能力严重减弱。饥饿60d的胭脂鱼出现大量断裂核红细胞, 显示了营养不良造成的细胞病理学特征。血红蛋白含量和红细胞压积的变化与红细胞数量变化趋势一致。除胆固醇和谷草转氨酶外, 其余各项生化指标均受到饥饿的显著性影响。血糖对饥饿较敏感。持续饥饿使肾脏、头肾、脾脏、肝脏等造血器官体积减小、内部结构排列疏松、细胞萎缩、造血区解体。随饥饿时间的延长, 造血器官中成熟和趋向衰老的血细胞数量明显增多, 各种原始和幼稚血细胞减少, 造血机能下降, 甚至丧失。饥饿使胭脂鱼造血过程和原有红细胞的衰老过程减缓, 从而降低能量的代谢: 当饥饿对鱼的生存产生胁迫时, 作为能量节省机制, 保存现有红细胞和停止红细胞生成可能是鱼类耐受饥饿的常用对策。

     

    Abstract: Hematological parameters are closely related to the response of the animal to the environment, an indication that the environment where fishes live could exert some influence on the hematological characteristics. Starvation is one of the stress factors that fish often undergo in their life history. There is a direct relationship between the resistance to some diseases and good nutritional state since fish immune systems are affected by nutritional state. Myxocyprinus asiaticus (Bleeker), Chinese suker, is a national protected species and an important resource for culture industry in China. Under this background, we observed the effects of starvation (0 to 60 days) on hematological parameters and hematopoiesis in Chinese suker. The specimens were (94.824.52) g in weight, 141-178 mm in length and maintained in tanks (10 individuals /m3) supplied with a continuous flow of normoxic water, at average temperature of 26.5(26-27.5℃). After the acclimation period (7 days), fish were separated into six groups of 10 individuals each. The control group was sampled just after the acclimation period. The other five groups were distributed over five individual tanks. Each group was then subjected to a different period of food deprivation (5, 10, 20, 30 and 60 days). The result showed that starvation had significant effect on physiological parameters, such as RBC, Hb, MCV, MCH and MCHC, but the influence on WBC and HCT was not significant in Myxocyprinus asiaticus. When Chinese sucker were deprived of food from 5 to 30 days, circulatory erythroid cells included large numbers of immature erythrocytes and young erythrocytes. The decreased number of erythroblasts suggests that food deprivation impaired erythrocyte production in Chinese suker. The ability of generating new erythrocytes almost lost after 60 days of food deprivation. Blood cells had achieved their maximum age concomitant with the low nutrient/energy availability to cell replacement. Bilobed erythrocytes were observed in the blood of healthy fish at a low frequency, but stressed fish at a high frequency. The presence of a high number of erythrocytes with segmented nuclei in Chinese suker starved for 30 days may indicate cell pathology resulting from malnutrition. Changes of hemoglobin content and hematocrit were consistent with the changes in number of erythrocytes. hematological parameters were all effected by starvation except cholesterol and aspartate aminotransferase.blood glucose is a sensitivity index to food deprivation. Continuous starvation caused significant changes of hematopoietic organs such as kidney, head kidney, spleen and liver. These included decreasing of cell volume, loosening of their cell arrangement, cellular atrophy and hematopoietic tissue disintegration. With the prolonging of starvation, the number of mature and degenerative blood cells increased significantly, and hematogonium and immature blood cells decreased in hematopoietic organs. Moreover, the function of hematopoiesis decreased, even lost finally. These changes coincided with the exhaustion of the main endogenous energy reserves. The period of 60 days of starvation seems critical to this species survival. The hematopoiesis and the senescence of existing erythrocyte were slowed down corresponding to starvation to slow down energy metabolism. It is possible that the preservation of existing erythrocytes and cessation of erythropoiesis is a strategy commonly employed by fish to tolerate starvation as an energy-saving mechanism. The biochemical parameters excepting cholesterol and aspartate aminotransferase were affected significantly by starvation.

     

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