Boothman D A, Meyers M, Odegaard E, Wang M
Department of Human Oncology, University of Wisconsin-Madison 53792, USA.
Mutat Res. 1996 Nov 4;358(2):143-53. doi: 10.1016/s0027-5107(96)00115-7.
Adaptive survival responses (ASRs) are observed when cells become more resistant to a high dose of a cytotoxic agent after repeated low dose exposures to that agent or another genotoxic agent. Confluent (G0/G1) human normal (GM2936B, GM2937A, AG2603, IMR-90), cancer-prone (XPV2359), and neoplastic (U1-Mel, HEp-2, HTB-152) cells were primed with repeated low doses of X-rays (ranging from 0.05-10 cGy/day for 4 days), then challenged with a high dose (290-450 cGy) on day 5. U1-Mel and HEp-2 cells showed greater than 2-fold transient survival enhancement when primed with 1-10 cGy. ASRs in U1-Mel or HEp-2 cells were blocked by cycloheximide or actinomycin D. Increases in cyclins A and D1 mRNAs were noted in primed compared to unirradiated U1-Mel and HEp-2 cells; however, only cyclin A protein levels increased. Cyclin D1 and proliferating cell nuclear antigen (PCNA) protein levels were constitutively elevated in HEp-2 and U1-Mel cells, compared to the other human normal and neoplastic cells examined, and were not altered by low or high doses of radiation. Low dose primed U1-Mel cells entered S-phase 4-6 h faster than unprimed U1-Mel cells upon low-density replating. Similar responses in terms of survival recovery, transcript and protein induction, and altered cell cycle regulation were not observed in the other human normal, cancer-prone or neoplastic cells examined. We hypothesize that only certain human cells can adapt to ionizing radiation by progressing to a point later in G1 (the A point) where DNA repair processes and radioresistance can be induced. ASRs in human cells correlated well with constitutively elevated levels of PCNA and cyclin D1, as well as inducibility of cyclin A. We propose that a protein complex composed of cyclin D1, PCNA, and possibly cyclin A may play a role in cell cycle regulation and DNA repair, which determine ASRs in human cells.
当细胞在反复低剂量暴露于一种细胞毒性剂或另一种基因毒性剂后,对高剂量的该种细胞毒性剂产生更高的抗性时,就会观察到适应性存活反应(ASRs)。汇合状态(G0/G1期)的人正常细胞(GM2936B、GM2937A、AG2603、IMR-90)、易患癌细胞(XPV2359)和肿瘤细胞(U1-Mel、HEp-2、HTB-152)先用反复低剂量的X射线(0.05 - 10 cGy/天,共4天)进行预处理,然后在第5天接受高剂量(290 - 450 cGy)照射。当用1 - 10 cGy进行预处理时,U1-Mel和HEp-2细胞的瞬时存活增强超过2倍。U1-Mel或HEp-2细胞中的ASRs被环己酰亚胺或放线菌素D阻断。与未照射的U1-Mel和HEp-2细胞相比,预处理后的细胞中细胞周期蛋白A和D1的mRNA水平有所增加;然而,只有细胞周期蛋白A的蛋白水平升高。与所检测的其他人正常细胞和肿瘤细胞相比,HEp-2和U1-Mel细胞中细胞周期蛋白D1和增殖细胞核抗原(PCNA)的蛋白水平持续升高,且不受低剂量或高剂量辐射的影响。低密度重铺时,低剂量预处理的U1-Mel细胞比未预处理的U1-Mel细胞提前4 - 6小时进入S期。在所检测的其他人正常细胞、易患癌细胞或肿瘤细胞中,未观察到在存活恢复、转录和蛋白诱导以及细胞周期调控改变方面的类似反应。我们假设只有某些人类细胞能够通过进展到G1期后期的某个点(A点)来适应电离辐射,在该点可诱导DNA修复过程和抗辐射性。人类细胞中的ASRs与PCNA和细胞周期蛋白D1的持续升高水平以及细胞周期蛋白A的可诱导性密切相关。我们提出,由细胞周期蛋白D1、PCNA以及可能的细胞周期蛋白A组成的蛋白复合物可能在细胞周期调控和DNA修复中起作用,这决定了人类细胞中的ASRs。
