Tsydenova Irina A, Dolgasheva Daria S, Gaptulbarova Ksenia A, Ibragimova Marina K, Tsyganov Matvei M, Kravtsova Ekaterina A, Nushtaeva Anna A, Litviakov Nikolai V
Cancer Research Institute, Tomsk National Research Medical Center, Russian Academy of Sciences, 634028 Tomsk, Russia.
Biological Institute, National Research Tomsk State University, 634050 Tomsk, Russia.
Cancers (Basel). 2023 May 15;15(10):2765. doi: 10.3390/cancers15102765.
the present study aims to prove or disprove the hypothesis that the state of copy number aberration (CNA) activation of WNT signalling pathway genes accounts for the ability of differentiated tumour cells to emerge from postchemotherapy shock.
In the first step, the CNA genetic landscape of breast cancer cell lines BT-474, BT-549, MDA-MB-231, MDA-MD-468, MCF7, SK-BR-3 and T47D, which were obtained from ATCC, was examined to rank cell cultures according to the degree of ectopic activation of the WNT signalling pathway. Then two lines of T47D with ectopic activation and BT-474 without activation were selected. The differentiated EpCAM+CD44-CD24-/+ cells of these lines were subjected to IL6 de-differentiation with formation of mammospheres on the background of cisplatin and WNT signalling inhibitor ICG-001.
it was found that T47D cells with ectopic WNT signalling activation after cisplatin exposure were dedifferentiated to form mammospheres while BT-474 cells without ectopic WNT-signalling activation did not form mammospheres. The dedifferentiation of T47D cells after cisplatin exposure was completely suppressed by the WNT signalling inhibitor ICG-001. Separately, ICG-001 reduced, but did not abolish, the ability to dedifferentiate in both cell lines.
these data support the hypothesis that the emergence of differentiated tumour cells from postchemotherapy shock after chemotherapy is due to ectopic activation of WNT signalling pathway genes.
本研究旨在验证或反驳以下假设,即WNT信号通路基因的拷贝数畸变(CNA)激活状态决定了分化的肿瘤细胞从化疗后休克状态中恢复的能力。
第一步,检测从美国典型培养物保藏中心(ATCC)获取的乳腺癌细胞系BT-474、BT-549、MDA-MB-231、MDA-MD-468、MCF7、SK-BR-3和T47D的CNA基因图谱,根据WNT信号通路的异位激活程度对细胞培养物进行排名。然后选择两株具有异位激活的T47D细胞系和一株无激活的BT-474细胞系。在顺铂和WNT信号抑制剂ICG-001的背景下,对这些细胞系中分化的EpCAM+CD44-CD24-/+细胞进行IL6去分化处理,形成乳腺球。
发现顺铂处理后具有异位WNT信号激活的T47D细胞去分化形成乳腺球,而无异位WNT信号激活的BT-474细胞未形成乳腺球。顺铂处理后T47D细胞的去分化被WNT信号抑制剂ICG-001完全抑制。另外,ICG-001降低了,但并未消除,两种细胞系的去分化能力。
这些数据支持以下假设,即化疗后分化的肿瘤细胞从化疗后休克状态中恢复是由于WNT信号通路基因的异位激活。
