培养中的原代禽腱细胞。一种用于理解恶性转化的改进系统。
Primary avian tendon cells in culture. An improved system for understanding malignant transformation.
作者信息
Schwarz R I, Farson D A, Soo W J, Bissell M J
出版信息
J Cell Biol. 1978 Dec;79(3):672-9. doi: 10.1083/jcb.79.3.672.
Abstract
Primary avian tendon (PAT) cells which maintain their differentiated state in culture are rapidly transformed by Rous sarcoma virus. By criteria of morphology, increased rate of 2-deoxyglucose uptake, and loss of density dependent growth control, PAT cells transform as well as their less differentiated counterpart, chick embryo fibroblasts. In addition, the percentage of collagen produced by PAT cells drops on transformation by an order of magnitude, from 23 to 2.5%, but is unaffected by viral replication of a transformation-defective mutant. The responsiveness of normal and transformed PAT cells to various environmental factors changes dramatically upon transformation. Normal PAT cells respond to the presence of ascorbate and high cell density by raising the level of collagen synthesis from 5 to 23%. Transformed PAT cells are totally unresponsive. These and previously reported results lead us to postulate that the break-down in the normal regulatory mechanisms used by the cell to maintain the differentiated state is related to or is responsible for the onset of malignant transformation.
摘要
在培养中维持其分化状态的原代禽腱(PAT)细胞会被劳氏肉瘤病毒迅速转化。根据形态学标准、2-脱氧葡萄糖摄取速率的增加以及密度依赖性生长控制的丧失,PAT细胞与其分化程度较低的对应物鸡胚成纤维细胞一样发生转化。此外,PAT细胞产生的胶原蛋白百分比在转化时下降了一个数量级,从23%降至2.5%,但不受转化缺陷型突变体病毒复制的影响。正常和转化的PAT细胞对各种环境因素的反应性在转化后发生了巨大变化。正常的PAT细胞通过将胶原蛋白合成水平从5%提高到23%来响应抗坏血酸的存在和高细胞密度。转化的PAT细胞则完全无反应。这些以及先前报道的结果使我们推测,细胞用于维持分化状态的正常调节机制的崩溃与恶性转化的发生有关或导致了恶性转化的发生。
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