NOTCH信号通路失活可将类干细胞样口腔癌细胞重编程为依赖JAK-STAT的状态，并提供合成致死的机会。

NOTCH pathway inactivation reprograms stem-like oral cancer cells to JAK-STAT dependent state and provides the opportunity of synthetic lethality.

作者信息

Ghosh Subhashis, Mitra Paromita, Saha Uday, Nandi Rimpa, Jena Subhashree, Ghosh Arnab, Roy Shantanu Saha, Acharya Moulinath, Biswas Nidhan Kumar, Singh Sandeep

机构信息

National Institute of Biomedical Genomics, Kalyani, West Bengal 741251, India.

出版信息

Transl Oncol. 2023 Jun;32:101669. doi: 10.1016/j.tranon.2023.101669. Epub 2023 Apr 11.

DOI:10.1016/j.tranon.2023.101669

PMID:37054548

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10122064/

Abstract

BACKGROUND

We have recently provided the evidence of interconvertible cellular states, driving non-genetic heterogeneity among stem-like oral cancer cells (oral-SLCCs). Here, NOTCH pathway-activity status is explored as one of the possible mechanisms behind this stochastic plasticity.

METHODS

Oral-SLCCs were enriched in 3D-spheroids. Constitutively-active and inactive status of NOTCH pathway was achieved by genetic or pharmacological approaches. RNA sequencing and real-time PCR was performed for gene expression studies. in vitro cytotoxicity assessments were performed by AlamarBlue assay and in vivo effects were studied by xenograft growth in zebrafish embryo.

RESULTS

We have observed stochastic plasticity in oral-SLCCs, spontaneously maintaining both NOTCH-active and inactive states. While cisplatin refraction was associated with post-treatment adaptation to the active-state of NOTCH pathway, oral-SLCCs with inactive NOTCH pathway status showed aggressive tumor growth and poor prognosis. RNAseq analysis clearly suggested the upregulation of JAK-STAT pathway in NOTCH pathway-inactive subset. The 3D-spheroids with lower NOTCH-activity status displayed significantly higher sensitivity to JAK-selective drugs, Ruxolitinib or Tofacitinib or siRNA mediated downregulation of tested partners STAT3/4. Oral-SLCCs were programmed to adapt the inactive status of NOTCH pathway by exposing to γ-secretase inhibitors, LY411575 or RO4929097, followed by targeting with JAK-inhibitors, Ruxolitinib or Tofacitinib. This approach resulted in a very significant inhibition in viability of 3D-spheroids as well as xenograft initiation in Zebrafish embryos.

CONCLUSION

Study revealed for the first time that NOTCH pathway-inactive state exhibit activation of JAK-STAT pathways, as synthetic lethal pair. Therefore, co-inhibition of these pathway may serve as novel therapeutic strategy against aggressive oral cancer.

摘要

背景

我们最近提供了可相互转换的细胞状态的证据，这种状态驱动了干细胞样口腔癌细胞（oral-SLCCs）之间的非遗传异质性。在此，探索NOTCH信号通路活性状态作为这种随机可塑性背后的可能机制之一。

方法

通过三维球体富集oral-SLCCs。通过基因或药理学方法实现NOTCH信号通路的组成型激活和失活状态。进行RNA测序和实时PCR以进行基因表达研究。通过AlamarBlue试验进行体外细胞毒性评估，并通过斑马鱼胚胎中的异种移植生长研究体内效应。

结果

我们观察到oral-SLCCs具有随机可塑性，自发维持NOTCH激活和失活状态。虽然顺铂耐药与治疗后对NOTCH信号通路激活状态的适应有关，但NOTCH信号通路失活状态的oral-SLCCs显示出侵袭性肿瘤生长和不良预后。RNAseq分析清楚地表明NOTCH信号通路失活亚组中JAK-STAT信号通路的上调。NOTCH活性状态较低的三维球体对JAK选择性药物、鲁索替尼或托法替布或siRNA介导的受试伙伴STAT3/4的下调表现出明显更高的敏感性。通过暴露于γ-分泌酶抑制剂LY411575或RO4929097，然后用JAK抑制剂鲁索替尼或托法替布靶向，将oral-SLCCs编程为适应NOTCH信号通路的失活状态。这种方法导致三维球体的活力以及斑马鱼胚胎中的异种移植起始受到非常显著的抑制。

结论

研究首次揭示NOTCH信号通路失活状态表现出JAK-STAT信号通路的激活，作为合成致死对。因此，共同抑制这些信号通路可能作为对抗侵袭性口腔癌的新治疗策略。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0707/10122064/a62eb5f9f08b/ga1.jpg

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NOTCH信号通路失活可将类干细胞样口腔癌细胞重编程为依赖JAK-STAT的状态，并提供合成致死的机会。

NOTCH pathway inactivation reprograms stem-like oral cancer cells to JAK-STAT dependent state and provides the opportunity of synthetic lethality.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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