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在表皮生长因子受体(EGFR)扩增的三阴性乳腺癌细胞中,对EGFR和磷脂酰肌醇-3激酶(PI3Kinase)信号通路的双重抑制可诱导细胞凋亡并减少肿瘤生长。

Dual inhibition of EGFR and PI3Kinase signaling in EGFR amplified triple negative breast cancer cells induces apoptosis and reduces tumor growth.

作者信息

Wisniewski David J, Voeller Donna, Addissie Yonit A, Deshmukh Sachin Kumar, Wu Sharon, Lustberg Maryam B, Wangsa Darawalee, Wangsa Danny, Heselmeyer-Haddad Kerstin, Sledge George W, Lipkowitz Stanley

机构信息

Women's Malignancies Branch, Center for Cancer Research, National Cancer Institute, Bethesda MD.

Caris Life Sciences, Phoenix AZ.

出版信息

bioRxiv. 2025 Jun 7:2025.06.03.657674. doi: 10.1101/2025.06.03.657674.

DOI:10.1101/2025.06.03.657674
PMID:40501689
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12157506/
Abstract

BACKGROUND

Epidermal Growth Factor Receptor (EGFR) family signaling is commonly dysregulated in cancer by amplification or activating mutations. We investigated the incidence of EGFR amplification with or without PI3Kinase pathway mutations in breast cancer and whether patients with genetic abnormalities in both pathways can be targeted by dual EGFR/PI3K inhibition.

METHODS

EGFR amplification and PI3K pathway mutations were studied through data sets from cBioPortal and Caris. We used the triple negative breast cancer (TNBC) cell lines BT20 (amplified EGFR, PIK3CA activating mutation), MDA-MB-468 (amplified EGFR, PTEN deletion), and MDA-MB-231 (no amplification of EGFR or PI3K pathway mutations). EGFR amplification was determined by immunoblot and fluorescent in situ hybridization, and PI3K mutations by sequencing. Signaling was determined by immunoblot, drug synergy by cell viability, cell death by propidium iodide staining, cell cycle analysis by flow cytometry, and animal studies through xenografts.

RESULTS

EGFR amplification is found in approximately 1-2.5% of breast cancer patients, more frequently in TNBC (2.45-6.7%) and ER-/HER2+ (1.3-6.5%) breast cancers, and in the molecular basal (2.33-8.1%) and HER2 enriched (1.87-5.4%) subtypes. Overall survival is shorter among patients compared to those with unamplified EGFR. Up to 71% of EGFR amplified tumors have activating mutations in the PI3K pathway. Combination of EGFR and PI3K inhibitors more dramatically reduced mTOR and AKT signaling in the BT20 and MDA-MB-468 cells, whereas the inhibition of downstream signaling was less significant in MDA-MB-231 cells. Combination of EGFR and PI3K inhibitors reduced cell viability in these three cell lines, but inhibition was greater, statistically significant, and synergistic in MDA-MB-468 and BT20 compared to MDA-MB-231. Only MDA-MB-468 and BT20 cells had an increased fraction of apoptotic cells. EGFR or PI3K inhibition alone in a BT20 xenograft model reduced tumor volume, however the combination was the only statistically significant reduction in tumor volume when compared to vehicle control.

CONCLUSIONS

EGFR/PI3K inhibitor combination causes apoptosis and reduction in tumor growth in cells with EGFR amplification and PI3K alteration. Dual inhibition of EGFR/PI3K presents as a potential targeted therapy in patients with EGFR amplification and aberrant PI3K signaling.

摘要

背景

表皮生长因子受体(EGFR)家族信号在癌症中通常因扩增或激活突变而失调。我们研究了乳腺癌中EGFR扩增伴或不伴PI3激酶途径突变的发生率,以及两条途径均存在基因异常的患者是否可通过EGFR/PI3K双重抑制进行靶向治疗。

方法

通过cBioPortal和Caris的数据集研究EGFR扩增和PI3K途径突变。我们使用三阴性乳腺癌(TNBC)细胞系BT20(EGFR扩增,PIK3CA激活突变)、MDA-MB-468(EGFR扩增,PTEN缺失)和MDA-MB-231(EGFR无扩增或PI3K途径无突变)。通过免疫印迹和荧光原位杂交确定EGFR扩增,通过测序确定PI3K突变。通过免疫印迹确定信号传导,通过细胞活力检测药物协同作用,通过碘化丙啶染色检测细胞死亡,通过流式细胞术进行细胞周期分析,并通过异种移植进行动物研究。

结果

在大约1-2.5%的乳腺癌患者中发现EGFR扩增,在TNBC(2.45-6.7%)和ER-/HER2+(1.3-6.5%)乳腺癌中更常见,在分子基底样(2.33-8.1%)和HER2富集型(1.87-5.4%)亚型中也较常见。与EGFR未扩增的患者相比,EGFR扩增患者的总生存期较短。高达71%的EGFR扩增肿瘤在PI3K途径中有激活突变。EGFR和PI3K抑制剂联合使用能更显著地降低BT20和MDA-MB-468细胞中的mTOR和AKT信号,而在MDA-MB-231细胞中,下游信号的抑制作用较小。EGFR和PI3K抑制剂联合使用可降低这三种细胞系的细胞活力,但与MDA-MB-231相比,在MDA-MB-468和BT20中抑制作用更强,具有统计学意义且具有协同作用。只有MDA-MB-468和BT20细胞凋亡细胞比例增加。在BT异种移植模型中,单独抑制EGFR或PI3K可减小肿瘤体积,但与溶媒对照相比,联合使用是唯一在肿瘤体积减小方面具有统计学意义的方法。

结论

EGFR/PI3K抑制剂联合使用可导致EGFR扩增和PI3K改变的细胞发生凋亡并减少肿瘤生长。EGFR/PI3K双重抑制对EGFR扩增和PI3K信号异常的患者而言是一种潜在的靶向治疗方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5e17/12157506/c04c8e374f96/nihpp-2025.06.03.657674v1-f0007.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5e17/12157506/8dac2c269aa6/nihpp-2025.06.03.657674v1-f0006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5e17/12157506/c04c8e374f96/nihpp-2025.06.03.657674v1-f0007.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5e17/12157506/79a60e75e31f/nihpp-2025.06.03.657674v1-f0001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5e17/12157506/c3b5a3986211/nihpp-2025.06.03.657674v1-f0002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5e17/12157506/4eef86a82c44/nihpp-2025.06.03.657674v1-f0003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5e17/12157506/37bcdce9aeab/nihpp-2025.06.03.657674v1-f0004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5e17/12157506/bc28c7bc6611/nihpp-2025.06.03.657674v1-f0005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5e17/12157506/8dac2c269aa6/nihpp-2025.06.03.657674v1-f0006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5e17/12157506/c04c8e374f96/nihpp-2025.06.03.657674v1-f0007.jpg

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