光甘草定通过抑制原位乳腺癌小鼠模型肝脏CYP2C8和肿瘤中CYP2J2/EETs,发挥增强紫杉醇抗转移潜能的双重作用

IF 4.7 2区 医学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Chemico-Biological Interactions Pub Date : 2023-09-01 DOI:10.1016/j.cbi.2023.110605
Ashiya Jamwal , Jagdish Chand , Anshurekha Dash , Shipra Bhatt , Sumit Dhiman , Priya Wazir , Buddh Singh , Anindya Goswami , Utpal Nandi
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引用次数: 1

摘要

尽管现代癌症治疗取得了前所未有的进步,但仍然缺乏针对三阴性乳腺癌(TNBC)的靶向治疗。紫杉醇是治疗TNBC的一线药物,但其治疗的主要限制因素是剂量相关的不良反应和新出现的化疗耐药。在这种情况下,光甘草定(Glycyrrhiza glabra的植物成分)被报道在体外水平上影响多种信号通路,但在体内水平上几乎没有任何信息。我们的目的是在高侵袭性小鼠乳腺癌模型中阐明光甘草定与低剂量紫杉醇联合使用的潜在机制。光甘草定通过显著减少肿瘤负荷和减少肺结节形成来增强紫杉醇的抗转移功效。此外,光甘草定通过上调(E-cadherin &occludin)和下调(Vimentin &Zeb1)重要的EMT标志物。光甘草定通过降低或升高促凋亡的原Caspase-9或Cleaved - Caspase-9,增强了紫杉醇在肿瘤组织中的诱导凋亡作用;Bax)和降低抗凋亡(Bcl-2)标志物。此外,光甘草定和紫杉醇的联合治疗显著降低了CYP2J2的表达,显著降低了肿瘤组织中环氧二碳三烯酸(EET)的水平,从而增强了抗肿瘤作用。光甘草定与紫杉醇同时给药可显著增强血浆暴露,延缓紫杉醇清除,其主要原因是cyp2c8介导的肝脏紫杉醇代谢减慢。用人肝微粒体测定光甘草定对CYP2C8有强烈的抑制作用。简而言之,光甘草定具有双重作用,通过CYP2C8抑制介导的延缓紫杉醇代谢来增加紫杉醇暴露,通过CYP2J2抑制介导的限制EETs水平来限制肿瘤发生,从而增强抗转移活性。考虑到紫杉醇的安全性、已报道的保护效果以及目前研究结果增强的抗转移作用,作为一种有希望的治疗关键紫杉醇化疗耐药和癌症复发的新辅助疗法,值得进一步研究。
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Glabridin plays dual action to intensify anti-metastatic potential of paclitaxel via impeding CYP2C8 in liver and CYP2J2/EETs in tumor of an orthotopic mouse model of breast cancer

In spite of unprecedented advances in modern cancer therapy, there is still a dearth of targeted therapy to circumvent triple-negative breast cancer (TNBC). Paclitaxel is the front-line therapy against TNBC, but the main constraints of its treatment are dose-related adverse effects and emerging chemoresistance. In this context, glabridin (phytoconstituent from Glycyrrhiza glabra) is reported to hit multiple signalling pathways at the in-vitro level, but hardly any information is known at the in-vivo level. We aimed here to elucidate glabridin potential with an underlying mechanism in combination with a low dose of paclitaxel using a highly aggressive mouse mammary carcinoma model. Glabridin potentiated the anti-metastatic efficacy of paclitaxel by substantially curtailing tumor burden and diminishing lung nodule formation. Moreover, glabridin remarkably attenuated epithelial-mesenchymal transition (EMT) traits of hostile cancer cells via up-regulating (E-cadherin & occludin) and down-regulating (Vimentin & Zeb1) vital EMT markers. Besides, glabridin amplified apoptotic induction effect of paclitaxel in tumor tissue by declining or elevating pro-apoptotic (Procaspase-9 or Cleaved Caspase-9 & Bax) and reducing anti-apoptotic (Bcl-2) markers. Additionally, concomitant treatment of glabridin and paclitaxel predominantly lessened CYP2J2 expression with marked lowering of epoxyeicosatrienoic acid (EET)'s levels in tumor tissue to reinforce the anti-tumor impact. Simultaneous administration of glabridin with paclitaxel notably enhanced plasma exposure and delayed clearance of paclitaxel, which was mainly arbitrated by CYP2C8-mediated slowdown of paclitaxel metabolism in the liver. The fact of intense CYP2C8 inhibitory action of glabridin was also ascertained using human liver microsomes. Concisely, glabridin plays a dual role in boosting anti-metastatic activity by augmenting paclitaxel exposure via CYP2C8 inhibition-mediated delaying paclitaxel metabolism and limiting tumorigenesis via CYP2J2 inhibition-mediated restricting EETs level. Considering the safety, reported protective efficacy, and the current study results of boosted anti-metastatic effects, further investigations are warranted as a promising neoadjuvant therapy for crux paclitaxel chemoresistance and cancer recurrence.

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来源期刊
CiteScore
7.70
自引率
3.90%
发文量
410
审稿时长
36 days
期刊介绍: Chemico-Biological Interactions publishes research reports and review articles that examine the molecular, cellular, and/or biochemical basis of toxicologically relevant outcomes. Special emphasis is placed on toxicological mechanisms associated with interactions between chemicals and biological systems. Outcomes may include all traditional endpoints caused by synthetic or naturally occurring chemicals, both in vivo and in vitro. Endpoints of interest include, but are not limited to carcinogenesis, mutagenesis, respiratory toxicology, neurotoxicology, reproductive and developmental toxicology, and immunotoxicology.
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