Department of Cancer Biology, Oncology Institute, Cardinal Bernardin Cancer Center, Loyola University Medical Center, Maywood, IL, USA.
Department of Chemistry and Biochemistry, the Harper Cancer Research Institute, and the Warren Family Research Center for Drug Discovery & Development, University of Notre Dame, Notre Dame, IN, USA.
Br J Cancer. 2022 Jul;127(2):223-236. doi: 10.1038/s41416-022-01796-5. Epub 2022 Apr 14.
Splice modulators have been assessed clinically in treating haematologic malignancies exhibiting splice factor mutations and acute myeloid leukaemia. However, the mechanisms by which such modulators repress leukaemia remain to be elucidated.
The primary goal of this assessment was to assess the molecular mechanism by which the natural splice modulator GEX1A kills leukaemic cells in vitro and within in vivo mouse models.
Using human leukaemic cell lines, we assessed the overall sensitivity these cells have to GEX1A via EC analysis. We subsequently analysed its effects using in vivo xenograft mouse models and examined whether cell sensitivities were correlated to genetic characteristics or protein expression levels. We also utilised RT-PCR and RNAseq analyses to determine splice change and RNA expression level differences between sensitive and resistant leukaemic cell lines.
We found that, in vitro, GEX1A induced an MCL-1 isoform shift to pro-apoptotic MCL-1S in all leukaemic cell types, though sensitivity to GEX1A-induced apoptosis was negatively associated with BCL-xL expression. In BCL-2-expressing leukaemic cells, GEX1A induced BCL-2-dependent apoptosis by converting pro-survival BCL-2 into a cell killer. Thus, GEX1A + selective BCL-xL inhibition induced synergism in killing leukaemic cells, while GEX1A + BCL-2 inhibition showed antagonism in BCL-2-expressing leukaemic cells. In addition, GEX1A sensitised FLT3-ITD leukaemic cells to apoptosis by inducing aberrant splicing and repressing the expression of FLT3-ITD. Consistently, in in vivo xenografts, GEX1A killed the bulk of leukaemic cells via apoptosis when combined with BCL-xL inhibition. Furthermore, GEX1A repressed leukaemia development by targeting leukaemia stem cells through inhibiting FASTK mitochondrial isoform expression across sensitive and non-sensitive leukaemia types.
Our study suggests that GEX1A is a potent anti-leukaemic agent in combination with BCL-xL inhibitors, which targets leukaemic blasts and leukaemia stem cells through distinct mechanisms.
剪接调节剂已在治疗具有剪接因子突变和急性髓性白血病的血液恶性肿瘤的临床中进行了评估。然而,此类调节剂抑制白血病的机制仍有待阐明。
本评估的主要目的是评估天然剪接调节剂 GEX1A 在体外和体内小鼠模型中杀死白血病细胞的分子机制。
使用人类白血病细胞系,我们通过 EC 分析评估了这些细胞对 GEX1A 的总体敏感性。随后,我们使用体内异种移植小鼠模型分析了其效果,并检查了细胞敏感性是否与遗传特征或蛋白表达水平相关。我们还利用 RT-PCR 和 RNAseq 分析来确定敏感和耐药白血病细胞系之间剪接变化和 RNA 表达水平的差异。
我们发现,在体外,GEX1A 在所有白血病细胞类型中诱导 MCL-1 同工型向促凋亡的 MCL-1S 转移,尽管对 GEX1A 诱导的细胞凋亡的敏感性与 BCL-xL 表达呈负相关。在表达 BCL-2 的白血病细胞中,GEX1A 通过将存活的 BCL-2 转化为细胞杀手,诱导 BCL-2 依赖性细胞凋亡。因此,GEX1A+选择性 BCL-xL 抑制在杀死白血病细胞时诱导协同作用,而 GEX1A+BCL-2 抑制在表达 BCL-2 的白血病细胞中表现出拮抗作用。此外,GEX1A 通过诱导异常剪接和抑制 FLT3-ITD 的表达,使 FLT3-ITD 白血病细胞对凋亡敏感。一致地,在体内异种移植中,当与 BCL-xL 抑制联合使用时,GEX1A 通过诱导凋亡杀死了大部分白血病细胞。此外,GEX1A 通过抑制敏感和非敏感白血病类型的 FASTK 线粒体同工型表达,靶向白血病干细胞,从而抑制白血病的发展。
我们的研究表明,GEX1A 与 BCL-xL 抑制剂联合使用是一种有效的抗白血病药物,通过不同的机制靶向白血病母细胞和白血病干细胞。