小鼠成纤维细胞中叶酸还原酶mRNA代谢的细胞周期调控

Cell cycle regulation of dihydrofolate reductase mRNA metabolism in mouse fibroblasts.

作者信息

Hendrickson S L, Wu J S, Johnson L F

出版信息

Proc Natl Acad Sci U S A. 1980 Sep;77(9):5140-4. doi: 10.1073/pnas.77.9.5140.

DOI:10.1073/pnas.77.9.5140

PMID:6933549

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC350012/

Abstract

We have used the technique of DNA-excess filter hybridization to measure directly the content and metabolism of the mRNA for dihydrofolate reductase (DHFR; 5,6,7,8-tetrahydrofolate:NADP+ oxidoreductase, EC 1.5.1.3). The studies were conducted with a methotrexate-resistant derivative of mouse 3T6 fibroblasts (M50L3) that overproduces the enzyme and its mRNA by a factor of 300 but regulates the level of the enzyme during the cell cycle in the same manner as normal 3T6 cells. We found that, when resting (G0) M50L3 cells were serum-stimulated to reenter the cell cycle, the 10-fold increase in the rate of synthesis of DHFR that occurs at the beginning of S phase was the result of a corresponding increase in DHFR mRNA content. In pulse-labeling experiments, we found that there was a similar increase in the rate of production of the mRNA just prior to S phase. However, the half-life of the mRNA was the same (7.5 hr) in resting and exponentially growing cells. Therefore, the increase in DHFR mRNA content was due to an increase in the rate of production rather than an increase in the stability of the message. The delay between addition of [3H]-uridine to the culture medium and the emergence of DHFR mRNA from the nucleus was 15-20 min for both resting and growing M50L3 cells. A similar delay was observed for total mRNA. Therefore, the time required for the processing of newly synthesized DHFR heterogeneous nuclear RNA into DHFR mRNA is about the same as that for the average mRNA.

摘要

我们运用DNA过量滤膜杂交技术直接测定二氢叶酸还原酶（DHFR；5,6,7,8-四氢叶酸：NADP+氧化还原酶，EC 1.5.1.3）mRNA的含量及代谢情况。研究使用的是小鼠3T6成纤维细胞的甲氨蝶呤抗性衍生物（M50L3），该细胞系中该酶及其mRNA的产量比正常水平高300倍，但在细胞周期中对该酶水平的调控方式与正常3T6细胞相同。我们发现，当静止（G0期）的M50L3细胞受到血清刺激重新进入细胞周期时，在S期开始时DHFR合成速率增加10倍是由于DHFR mRNA含量相应增加所致。在脉冲标记实验中，我们发现在S期之前mRNA的产生速率也有类似增加。然而，静止细胞和指数生长细胞中mRNA的半衰期相同（7.5小时）。因此，DHFR mRNA含量的增加是由于产生速率的增加而非信息稳定性的增加。对于静止和生长的M50L3细胞，向培养基中添加[3H]-尿苷与DHFR mRNA从细胞核中出现之间的延迟均为15 - 20分钟。总mRNA也观察到类似的延迟。因此，将新合成的DHFR异质核RNA加工成DHFR mRNA所需的时间与平均mRNA所需时间大致相同。

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