非典型细胞周期调控因子 Spy1 稳定 c-Myc，降低乳腺癌治疗效果。

Stabilization of c-Myc by the atypical cell cycle regulator, Spy1, decreases efficacy of breast cancer treatments.

机构信息

Department of Biomedical Sciences, University of Windsor, Windsor, ON, N9B 3P4, Canada.

WE-SPARK Health Institute, Windsor, ON, N9B 3P4, Canada.

出版信息

Breast Cancer Res Treat. 2022 Nov;196(1):17-30. doi: 10.1007/s10549-022-06715-z. Epub 2022 Aug 27.

DOI:10.1007/s10549-022-06715-z

PMID:36029387

Abstract

PURPOSE

c-Myc is frequently upregulated in breast cancers, however, targeting c-Myc has proven to be a challenge. Targeting of downstream mediators of c-Myc, such as the 'cyclin-like' cell cycle regulator Spy1, may be a viable therapeutic option in a subset of breast cancer subtypes.

METHODS

Mouse mammary tumor cells isolated from MMTV-Myc mice and human breast cancer cell lines were used to manipulate Spy1 levels followed by tamoxifen or chemotherapeutic treatment with a variety of endpoints. Patient samples from TNBC patients were obtained and constructed into a TMA and stained for c-Myc and Spy1 protein levels.

RESULTS

Over time, MMTV-Myc cells show a decreased response to tamoxifen treatment with increasing levels of Spy1 in the tamoxifen-resistant cells. shRNA against Spy1 re-establishes tamoxifen sensitivity. Spy1 was found to be highly elevated in human TNBC cell and patient samples, correlating to c-Myc protein levels. c-Myc was found to be stabilized by Spy1 and knocking down Spy1 in TNBC cells shows a significant increase in response to chemotherapy treatments.

CONCLUSION

Understanding the interplay between protein expression level and response to treatment is a critical factor in developing novel treatment options for breast cancer patients. These data have shown a connection between Spy1 and c-Myc protein levels in more aggressive breast cancer cells and patient samples. Furthermore, targeting c-Myc has proven difficult, these data suggest targeting Spy1 even when c-Myc is elevated can confer an advantage to current chemotherapies.

摘要

目的

c-Myc 在乳腺癌中经常上调，然而，靶向 c-Myc 已被证明是一项挑战。靶向 c-Myc 的下游介质，如“细胞周期类似物”细胞周期调节剂 Spy1，可能是乳腺癌亚型的一种可行的治疗选择。

方法

从 MMTV-Myc 小鼠中分离的鼠乳腺肿瘤细胞和人乳腺癌细胞系用于操纵 Spy1 水平，然后用他莫昔芬或各种终点的化疗药物进行治疗。从三阴性乳腺癌患者中获得患者样本，并构建成 TMA，并对 c-Myc 和 Spy1 蛋白水平进行染色。

结果

随着时间的推移，MMTV-Myc 细胞对他莫昔芬治疗的反应逐渐降低，而耐药细胞中的 Spy1 水平逐渐升高。针对 Spy1 的 shRNA 重新建立了他莫昔芬敏感性。Spy1 在人三阴性乳腺癌细胞和患者样本中高度升高，与 c-Myc 蛋白水平相关。Spy1 稳定了 c-Myc，在三阴性乳腺癌细胞中敲低 Spy1 可显著增加对化疗药物的反应。

结论

了解蛋白表达水平与治疗反应之间的相互作用是为乳腺癌患者开发新治疗方案的关键因素。这些数据表明，Spy1 与更具侵袭性的乳腺癌细胞和患者样本中的 c-Myc 蛋白水平之间存在联系。此外，靶向 c-Myc 已被证明很困难，这些数据表明，即使 c-Myc 升高，靶向 Spy1 也可以为当前的化疗药物带来优势。

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非典型细胞周期调控因子 Spy1 稳定 c-Myc，降低乳腺癌治疗效果。

Stabilization of c-Myc by the atypical cell cycle regulator, Spy1, decreases efficacy of breast cancer treatments.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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