Chlapowski F J, Band R N
J Cell Biol. 1971 Sep;50(3):625-33. doi: 10.1083/jcb.50.3.625.
In order to determine the feasibility of using radioactive precursors as markers for membrane phospholipids in Acanthamoeba palestinensis, the characteristics of phospholipids labeled with choline-(14)C and glycerol-(3)H were examined. Choline-(14)C was found to be a specific label for phosphatidyl choline. There was a turnover of the radioactive moiety of phosphatidyl choline at a rate that varied with the concentration of nonradioactive choline added to the growth medium. Radioactivity was lost from labeled phosphatidyl choline into the acid-soluble intracellular pool and from the pool into the extracellular medium. This loss of radioactivity from cells leveled off and an equilibrium was reached between the label in the cells and in the medium. Radioactive choline was incorporated into phosphatidyl choline by cell-free microsomal suspensions. This incorporation leveled off with the attainment of an equilibrium between the choline-(14)C in the reaction mixture and the choline-(14)C moiety of phosphatidyl choline in the microsomal membranes. Therefore, a choline exchange reaction may occur in cell-free membranes, as well as living A. palestinensis. In contrast to choline-(14)C, the apparent turnover of glycerol-(3)H-labeled phospholipids was not affected by large concentrations of nonradioactive choline or glycerol in the medium. The radioactivity in lipids labeled with glycerol-(3)H consisted of 33% neutral lipids and 67% phospholipids. Phospholipids labeled with glycerol-(3)H turned over slowly, with a concomitant increase in the percentage of label in neutral lipids, indicating a conversion of phospholipids to neutral lipids. Because most ( approximately 96%) of the glycerol-(3)H recovered from microsomal membranes was in phospholipids, whereas only a minor component ( approximately 2%) of the glycerol-(3)H was in the phospholipids isolated from nonmembrane lipids, glycerol-(3)H was judged to be a specific marker for membrane phospholipids.
为了确定使用放射性前体作为巴勒斯坦棘阿米巴细胞膜磷脂标记物的可行性,研究了用胆碱 -(14)C和甘油 -(3)H标记的磷脂的特性。发现胆碱 -(14)C是磷脂酰胆碱的特异性标记物。磷脂酰胆碱的放射性部分存在周转,其速率随添加到生长培养基中的非放射性胆碱浓度而变化。放射性从标记的磷脂酰胆碱中损失到酸溶性细胞内池,并从该池中损失到细胞外培养基中。细胞中放射性的这种损失趋于平稳,细胞和培养基中的标记物达到平衡。放射性胆碱通过无细胞微粒体悬浮液掺入磷脂酰胆碱中。随着反应混合物中胆碱 -(14)C与微粒体膜中磷脂酰胆碱的胆碱 -(14)C部分达到平衡,这种掺入趋于平稳。因此,在无细胞膜以及活的巴勒斯坦棘阿米巴中可能发生胆碱交换反应。与胆碱 -(14)C相反,甘油 -(3)H标记的磷脂的明显周转不受培养基中高浓度非放射性胆碱或甘油的影响。用甘油 -(3)H标记的脂质中的放射性由33%的中性脂质和67%的磷脂组成。用甘油 -(3)H标记的磷脂周转缓慢,同时中性脂质中标记物的百分比增加,表明磷脂转化为中性脂质。因为从微粒体膜中回收的大部分(约96%)甘油 -(3)H存在于磷脂中,而从非膜脂质中分离的甘油 -(3)H仅占一小部分(约2%),所以甘油 -(3)H被认为是膜磷脂的特异性标记物。