Christopher C W, Ullrey D, Colby W, Kalckar M
Proc Natl Acad Sci U S A. 1976 Jul;73(7):2429-33. doi: 10.1073/pnas.73.7.2429.
Cellular regulation of hexose uptake was studied in cultures of NIL hamster cells. Enhancements of galactose uptake were elicited most strikingly by maintaining confluent NIL cultures in culture media devoid of glucose. These glucose-starved cultures showed up to 8- or 9-fold enhancements in the galactose uptake test. When these cultures were treated for extended periods with cycloheximide, the enhanced uptake was left unimpaired, whereas the uptake by glucose-fed cells, similarly treated with cycloheximide, was inhibited greater than 90%. Addition of glucose to these starved cultures resulted in a gradual decline of uptake rates to the unenhanced level (t1/2 approximately 3 hr). In surprising contrast, when both glucose and cycloheximide were added simultaneously, the decline was arrested for at least 12 hr. If cytochalasin B (the specific inhibitor of hexose transport) was present, the uptake of galactose by both starved and fed cells was close to completely inhibited. By several criteria, cells maintained for 24 hr in medium containing both glucose and cytochalasin B were glucose-fed. Yet, when the cytochalasin B was removed, the cells were found to have enhanced rates of galactose uptake. The regulation of the hexose uptake system may therefore not be guided by the levels of glucose catabolites. Alternative mechanisms that may control hexose uptake are considered.
在NIL仓鼠细胞培养物中研究了己糖摄取的细胞调节。通过将汇合的NIL培养物维持在不含葡萄糖的培养基中,半乳糖摄取的增强最为显著。这些葡萄糖饥饿的培养物在半乳糖摄取试验中显示出高达8至9倍的增强。当用环己酰亚胺长时间处理这些培养物时,增强的摄取不受影响,而用环己酰亚胺同样处理的葡萄糖喂养细胞的摄取被抑制超过90%。向这些饥饿的培养物中添加葡萄糖导致摄取率逐渐下降至未增强的水平(半衰期约为3小时)。令人惊讶的是,当同时添加葡萄糖和环己酰亚胺时,下降至少停滞12小时。如果存在细胞松弛素B(己糖转运的特异性抑制剂),饥饿和喂养细胞对半乳糖的摄取几乎完全被抑制。根据几个标准,在含有葡萄糖和细胞松弛素B的培养基中维持24小时的细胞是葡萄糖喂养的。然而,当去除细胞松弛素B时,发现这些细胞的半乳糖摄取率有所提高。因此,己糖摄取系统的调节可能不受葡萄糖分解代谢物水平的指导。考虑了可能控制己糖摄取的其他机制。