β-Catenin is reduced in membranes of human prolactinoma cells and it is inhibited by temozolomide in prolactin secreting tumor models.

Q3 Biochemistry, Genetics and Molecular Biology

Tumor Biology Pub Date : 2022-01-01 DOI:10.3233/TUB-211500

Gianina Demarchi, Sofía Valla, Sofía Perrone, Agustina Chimento, Nadia Bonadeo, Daiana Luján Vitale, Fiorella Mercedes Spinelli, Andrés Cervio, Gustavo Sevlever, Laura Alaniz, Silvia Berner, Carolina Cristina

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引用次数: 5

Abstract

Introduction: Prolactinomas are the most frequent pituitary tumor subtype. Despite most of them respond to medical treatment, a proportion are resistant and become a challenge in clinical management. Wnt/β-Catenin pathway has been implicated in several cancers including pituitary tumors and other sellar region malignancies. Interestingly, Wnt/β-Catenin inhibition augments the cytotoxicity of the chemotherapeutic agent Temozolomide (TMZ) in different cancers. TMZ is now being implemented as rescue therapy for aggressive pituitary adenoma treatment. However, the molecular mechanisms associated with TMZ action in pituitary tumors remain unclear.

Objectives: Our aims in the present study were to evaluate differential β-Catenin expression in human resistant prolactinomas and Wnt/β-Catenin signaling activation and involvement in Prolactin (PRL) secreting experimental models treated with TMZ.

Results: We first evaluated by immunohistochemistry β-Catenin localization in human resistant prolactinomas in which we demonstrated reduced membrane β-Catenin in prolactinoma cells compared to normal pituitaries, independently of the Ki-67 proliferation indexes. In turn, in vivo 15 mg/kg of orally administered TMZ markedly reduced PRL production and increased prolactinoma cell apoptosis in mice bearing xenografted prolactinomas. Intratumoral β-Catenin strongly correlated with Prl and Cyclin D1, and importantly, TMZ downregulated both β-Catenin and Cyclin D1, supporting their significance in prolactinoma growth and as candidates of therapeutic targets. When tested in vitro, TMZ directly reduced MMQ cell viability, increased apoptosis and produced G2/M cell cycle arrest. Remarkably, β-Catenin activation and VEGF secretion were inhibited by TMZ in vitro.

Conclusions: We concluded that dopamine resistant prolactinomas undergo a β-Catenin relocalization in relation to normal pituitaries and that TMZ restrains experimental prolactinoma tumorigenicity by reducing PRL production and β-Catenin activation. Together, our findings contribute to the understanding of Wnt/β-Catenin implication in prolactinoma maintenance and TMZ therapy, opening the opportunity of new treatment strategies for aggressive and resistant pituitary tumors.

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泌乳素瘤细胞β-Catenin在泌乳素瘤细胞膜上减少，替莫唑胺抑制泌乳素瘤模型β-Catenin的表达。

简介:催乳素瘤是最常见的垂体肿瘤亚型。尽管大多数对药物治疗有反应，但仍有一部分具有耐药性，成为临床管理的挑战。Wnt/β-Catenin通路涉及多种癌症，包括垂体瘤和其他鞍区恶性肿瘤。有趣的是，Wnt/β-Catenin抑制增强了化疗药物替莫唑胺(TMZ)在不同癌症中的细胞毒性。TMZ目前正在作为侵袭性垂体腺瘤治疗的抢救治疗。然而，TMZ在垂体肿瘤中的作用的分子机制尚不清楚。目的:我们本研究的目的是评估β-Catenin在人耐药催乳素瘤中的差异表达以及Wnt/β-Catenin信号通路的激活和参与催乳素(PRL)分泌的实验模型。结果:我们首先通过免疫组织化学方法评估了β-Catenin在人类耐药催乳素瘤中的定位，结果表明，与正常垂体相比，催乳素瘤细胞中的膜β-Catenin含量降低，与Ki-67增殖指数无关。在体内，口服15 mg/kg的TMZ显著减少了泌乳素瘤小鼠PRL的产生，并增加了泌乳素瘤细胞的凋亡。瘤内β-Catenin与Prl和Cyclin D1密切相关，重要的是，TMZ下调β-Catenin和Cyclin D1，支持它们在催乳素瘤生长和作为候选治疗靶点中的重要意义。在体外实验中，TMZ直接降低MMQ细胞活力，增加凋亡，导致G2/M细胞周期阻滞。TMZ明显抑制β-Catenin的激活和VEGF的分泌。结论:与正常垂体相比，多巴胺耐药的泌乳素瘤经历了β-Catenin的再定位，TMZ通过减少PRL的产生和β-Catenin的激活来抑制实验性泌乳素瘤的致瘤性。总之，我们的研究结果有助于了解Wnt/β-Catenin在催乳素瘤维持和TMZ治疗中的作用，为侵袭性和耐药垂体肿瘤的新治疗策略开辟了机会。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Tumor Biology 医学-肿瘤学

CiteScore

5.40

自引率

0.00%

发文量

审稿时长

1 months

期刊介绍： Tumor Biology is a peer reviewed, international journal providing an open access forum for experimental and clinical cancer research. Tumor Biology covers all aspects of tumor markers, molecular biomarkers, tumor targeting, and mechanisms of tumor development and progression. Specific topics of interest include, but are not limited to: Pathway analyses, Non-coding RNAs, Circulating tumor cells, Liquid biopsies, Exosomes, Epigenetics, Cancer stem cells, Tumor immunology and immunotherapy, Tumor microenvironment, Targeted therapies, Therapy resistance Cancer genetics, Cancer risk screening. Studies in other areas of basic, clinical and translational cancer research are also considered in order to promote connections and discoveries across different disciplines. The journal publishes original articles, reviews, commentaries and guidelines on tumor marker use. All submissions are subject to rigorous peer review and are selected on the basis of whether the research is sound and deserves publication. Tumor Biology is the Official Journal of the International Society of Oncology and BioMarkers (ISOBM).