Papayannopoulou T, Finch C A
J Clin Invest. 1972 May;51(5):1179-85. doi: 10.1172/JCI106911.
The composite response of the erythron to exogenous erythropoietin has been studied in normal, splenectomized, and polycythemic mice. After stimulation the normal animal doubled its marrow nucleated red cells by the 3rd day with little further change by the 5th. Nucleated red cells within the spleen began to increase sharply on the 2nd day and, by the 5th, exceeded those in the marrow. The total nucleated erythroid response represented a fourfold increase. Reticulocytes lagged behind the expansion of the nucleated red cell mass, but by the 5th day the original ratio was re-established. Hemoglobin synthesis was increased, but the ratio of hemoglobin synthesized in nucleated red cells and reticulocytes was basically unchanged. Early displacement of marrow reticulocytes into circulation and the production of a larger red cell also occurred. No evidence of a change in the number of erythroid mitoses was found; only a slight decrease in the average cell cycle time was demonstrated. Thus, whereas erythropoietin stimulation induced several changes in erythropoiesis, the increased number of cells entering into the maturing pool appeared to be of greatest quantitative significance.Splenectomy reduced the proliferative response of the erythron over 5 days stimulation to three-fourths that found in the normal animal. This difference, also reflected in a proportionately lower reticulocyte response and increment in circulating red cell mass, suggests that erythropoiesis within the mouse marrow is spatially or otherwise restricted and that the spleen provided a supplemental area of erythroid expansion.
已在正常、脾切除和红细胞增多症小鼠中研究了红系对外源性促红细胞生成素的复合反应。刺激后,正常动物在第3天时骨髓有核红细胞数量翻倍,到第5天时几乎没有进一步变化。脾脏内的有核红细胞在第2天开始急剧增加,到第5天时超过了骨髓中的有核红细胞数量。总的有核红细胞反应增加了四倍。网织红细胞的增加落后于有核红细胞数量的增加,但到第5天时恢复了原来的比例。血红蛋白合成增加,但有核红细胞和网织红细胞中合成的血红蛋白比例基本不变。骨髓网织红细胞也早期进入循环,并且产生了更大的红细胞。未发现红系有丝分裂数量有变化;仅显示平均细胞周期时间略有缩短。因此,尽管促红细胞生成素刺激诱导了红细胞生成的几种变化,但进入成熟池的细胞数量增加似乎在数量上具有最大的意义。脾切除使红系在5天刺激后的增殖反应降低至正常动物的四分之三。这种差异也反映在网织红细胞反应相应较低以及循环红细胞数量增加较少,这表明小鼠骨髓内的红细胞生成在空间上或以其他方式受到限制,并且脾脏提供了一个红细胞扩增的补充区域。