人周期蛋白B1在正常pha刺激T淋巴细胞和白血病T细胞中的不同表达谱。

Cytometry Pub Date : 2000-02-01
J F Viallard, F Lacombe, M Dupouy, H Ferry, F Belloc, J Reiffers
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引用次数: 0

摘要

背景:在之前的工作中,我们用流式细胞术(FCM)方法证明了白血病细胞系中人类细胞周期蛋白B1的积累始于细胞周期的G(1)期(Viallard et al., Exp cell Res 247:208-219, 1999)。本研究采用流式细胞术比较Jurkat白血病细胞系和植物血凝素(phytohemagglutinin, PHA)刺激的正常T淋巴细胞中cyclin B1表达的定位和动力学模式。方法:用正丁酸钠进行G(1)同步,用胸苷进行G(1)/S同步,用秋水仙碱进行有丝分裂同步。细胞(白血病细胞系Jurkat或pha刺激的人t淋巴细胞)染色DNA和细胞周期蛋白B1,并用流式细胞仪分析。Western blotting证实了某些结果。结果:在异步生长条件下,对于两种细胞群体,cyclin B1的表达基本上局限于G(2)/M过渡,在有丝分裂时达到最大水平。当细胞在G(1)/S边界被胸腺嘧啶同步或在G(1)期被正丁酸钠同步时,Jurkat细胞在两种情况下都积累了cyclin B1,而T淋巴细胞只在胸腺嘧啶阻断时表达cyclin B1。当考虑胸苷阻断在G(1)/S相变和指数生长条件下的T淋巴细胞时,pha刺激的T淋巴细胞的cyclin B1荧光动力学是严格相似的。这些FCM结果经Western blotting证实。在细胞周期G(1)期分选的细胞中Western blot检测细胞周期蛋白B1,发现白血病T细胞G(1)期存在细胞周期蛋白B1,正常T淋巴细胞不存在细胞周期蛋白B1。细胞周期蛋白B1的降解在有丝分裂中是有效的,因此排除了细胞周期蛋白B1蛋白水解的缺陷。结论:我们发现白血病T细胞的表现与未转化的T淋巴细胞完全不同。我们的数据支持人类周期蛋白B1存在于白血病T细胞细胞周期的G(1)期而不存在于正常T淋巴细胞的观点。因此,在两种模型中,可以检测到cyclin B1的限制点是不同的。我们假设,在通过T淋巴细胞和白血病细胞中不同的限制性点后,细胞周期蛋白B1的合成速率在S期和G(2)/M期保持不变,独立于DNA复制周期。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Different expression profiles of human cyclin B1 in normal PHA-stimulated T lymphocytes and leukemic T cells.

Background: In a previous work, we demonstrated with flow cytometry (FCM) methods that accumulation of human cyclin B1 in leukemic cell lines begins during the G(1) phase of the cell cycle (Viallard et al. , Exp Cell Res 247:208-219, 1999). In the present study, FCM was used to compare the localization and the kinetic patterns of cyclin B1 expression in Jurkat leukemia cell line and phytohemagglutinin (PHA)-stimulated normal T lymphocytes.

Methods: Cell synchronization was performed in G(1) with sodium n-butyrate, at the G(1)/S transition with thymidine and at mitosis with colchicine. Cells (leukemic cell line Jurkat or PHA-stimulated human T-lymphocytes) were stained for DNA and cyclin B1 and analyzed by FCM. Western blotting was used to confirm certain results.

Results: Under asynchronous growing conditions and for both cell populations, cyclin B1 expression was essentially restricted to the G(2)/M transition, reaching its maximal level at mitosis. When the cells were synchronized at the G(1)/S boundary by thymidine or inside the G(1) phase by sodium n-butyrate, Jurkat cells accumulated cyclin B1 in both situations, whereas T lymphocytes expressed cyclin B1 only during the thymidine block. The cyclin B1 fluorescence kinetics of PHA-stimulated T lymphocytes was strictly similar when considering T lymphocytes blocked at the G(1)/S phase transition by thymidine and in exponentially growing conditions. These FCM results were confirmed by Western blotting. The detection of cyclin B1 by Western blot in cells sorted in the G(1) phase of the cell cycle showed that cyclin B1 was present in the G(1) phase in leukemic T cells but not in normal T lymphocytes. Cyclin B1 degradation was effective at mitosis, thus ruling out a defective cyclin B1 proteolysis.

Conclusions: We found that the leukemic T cells behaved quite differently from the untransformed T lymphocytes. Our data support the notion that human cyclin B1 is present in the G(1) phase of the cell cycle in leukemic T cells but not in normal T lymphocytes. Therefore, the restriction point from which cyclin B1 can be detected is different in the two models studied. We hypothesize that after passage through a restriction point differing in T lymphocytes and in leukemic cells, the rate of cyclin B1 synthesis becomes constant in the S and G(2)/M phases and independent from the DNA replication cycle.

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