BUSH J A, JENSEN W N, ASHENBRUCKER H, CARTWRIGHT G E, WINTROBE M M
J Exp Med. 1956 Jan 1;103(1):161-71. doi: 10.1084/jem.103.1.161.
Ferrokinetic studies were performed on 3 swine given phenylhydrazine, 3 swine deficient in pyridoxine, and 3 swine deficient in pteroylglutamic acid. Body surface radioactivity was measured in 2 pteroylglutamic acid-deficient animals. In the animals given phenylhydrazine, the mean erythrocyte survival time was 5 days. The plasma iron turnover rate was increased about fourfold, and the rate of erythropoiesis was four to five times greater than that in the control pigs. In the pyridoxine-deficient swine, the mean erythrocyte survival time was within the limits of normal. The plasma iron turnover rate was increased fourfold, but the rate of erythropoiesis was approximately one-fourth the normal mean value. These data are interpreted as indicating that the anemia associated with this deficiency is a result of an inability of the bone marrow to produce a normal number of erythrocytes. In the pteroylglutamic acid-deficient swine, the mean erythrocyte survival time was 17 days. The plasma iron turnover rate was 5 times the normal mean value. The rate of erythropoiesis was 1.6 times greater than the mean value in the control pigs. These data are interpreted as indicating that anemia develops in this deficiency as a result of a combination of a shortening of the erythrocyte survival time and a limitation of the capacity of the bone marrow to increase red cell production to the same degree as a normal marrow. The radioactivity in the liver, spleen, and bone marrow of the pteroylglutamic acid-deficient swine, as determined by measurement of the radioactivity over the body surface, declined more slowly than in control pigs.
对3只给予苯肼的猪、3只缺乏维生素B6的猪和3只缺乏蝶酰谷氨酸的猪进行了铁动力学研究。对2只缺乏蝶酰谷氨酸的动物测量了体表放射性。给予苯肼的动物,平均红细胞存活时间为5天。血浆铁周转率增加约四倍,红细胞生成率比对照猪高四至五倍。在缺乏维生素B6的猪中,平均红细胞存活时间在正常范围内。血浆铁周转率增加四倍,但红细胞生成率约为正常平均值的四分之一。这些数据被解释为表明与这种缺乏相关的贫血是骨髓无法产生正常数量红细胞的结果。在缺乏蝶酰谷氨酸的猪中,平均红细胞存活时间为17天。血浆铁周转率是正常平均值的5倍。红细胞生成率比对照猪的平均值高1.6倍。这些数据被解释为表明这种缺乏导致贫血的发生是红细胞存活时间缩短和骨髓增加红细胞生成能力受限与正常骨髓不同程度结合的结果。通过测量体表放射性确定,缺乏蝶酰谷氨酸的猪的肝脏、脾脏和骨髓中的放射性下降比对照猪更慢。