Integrated stress response (ISR) activation and apoptosis through HRI kinase by PG3 and other p53 pathway-restoring cancer therapeutics.

Q2 Medicine Oncotarget Pub Date : 2024-09-17 DOI:10.18632/oncotarget.28637
Xiaobing Tian, Wafik S El-Deiry
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Abstract

Restoration of the p53 pathway has been a long-term goal in the field of cancer research to treat tumors with mutated p53 and aggressive clinical behavior. p53 pathway restoration in p53-deficient cancers can be achieved by small molecules via p53-dependent or p53-independent processes. Hereafter p53-independent restoration of p53-pathway-signaling in p53-deficient/mutated tumors is referred to as 'restoration of the p53 pathway'. We compare activation of p53 target genes by novel compounds PG3 and PG3-Oc, that activate p53-target genes in a p53-independent manner, and four mutant p53-activating compounds while Nutlin-3a is used as negative control. PG3 and PG3-Oc upregulate p21, PUMA, and DR5 in five cancer cell lines with various p53 mutational statuses through ATF4 (Activating Transcriptional Factor 4) and integrated stress response (ISR) independent of p53. Mutant p53-targeting compounds induce expression of the 3 major downstream p53 target genes and ATF4 in a highly variable and cell-type-dependent manner. PG3 treatment activates ATF4 through ISR via kinase HRI (Heme-Regulated Inhibitor). ATF4 mediates upregulation of PUMA, p21, and NAG-1/GDF15 (Nonsteroidal anti-inflammatory drug-activated gene 1). We note that PUMA mediates apoptosis through activation of caspase-8 in HT29 cells and potentially caspase-10 in SW480 cells. We provide a novel mechanism engaged by PG3 to induce cell death via the HRI/ATF4/PUMA axis. Our results provide unique insights into the mechanism of action of PG3 as a novel cancer therapeutic targeting p53 pathway-like tumor suppression.

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PG3和其他可恢复p53通路的癌症治疗药物通过HRI激酶激活综合应激反应(ISR)和细胞凋亡。
恢复 p53 通路一直是癌症研究领域的一个长期目标,目的是治疗 p53 基因突变并具有侵袭性临床表现的肿瘤。小分子药物可以通过依赖 p53 或不依赖 p53 的过程来实现 p53 通路在 p53 缺失型癌症中的恢复。以下将不依赖于 p53 的 p53 通路信号在 p53 缺失/突变肿瘤中的恢复称为 "p53 通路的恢复"。我们比较了新型化合物 PG3 和 PG3-Oc 和四种突变的 p53 激活化合物对 p53 靶基因的激活情况,PG3 和 PG3-Oc 以不依赖 p53 的方式激活 p53 靶基因,而 Nutlin-3a 则作为阴性对照。PG3 和 PG3-Oc 可通过 ATF4(激活转录因子 4)和独立于 p53 的综合应激反应(ISR)上调具有不同 p53 突变状态的五种癌细胞系中的 p21、PUMA 和 DR5。突变 p53 靶向化合物以高度可变和依赖细胞类型的方式诱导 3 个主要下游 p53 靶基因和 ATF4 的表达。PG3 处理通过激酶 HRI(血红素调节抑制剂)通过 ISR 激活 ATF4。ATF4 介导 PUMA、p21 和 NAG-1/GDF15(非甾体抗炎药激活基因 1)的上调。我们注意到,PUMA 在 HT29 细胞中通过激活 caspase-8 介导细胞凋亡,在 SW480 细胞中可能通过激活 caspase-10 介导细胞凋亡。我们提供了 PG3 通过 HRI/ATF4/PUMA 轴诱导细胞死亡的新机制。我们的研究结果为了解 PG3 的作用机制提供了独特的见解,PG3 是一种新型的癌症治疗药物,以 p53 通路类肿瘤抑制为靶点。
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来源期刊
Oncotarget
Oncotarget Oncogenes-CELL BIOLOGY
CiteScore
6.60
自引率
0.00%
发文量
129
审稿时长
1.5 months
期刊介绍: Information not localized
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