芋头提取物通过肿瘤细胞自主和免疫依赖机制介导对转移性和癌症干细胞的有效抑制作用。

IF 1.8 Q3 ONCOLOGY
Breast Cancer : Basic and Clinical Research Pub Date : 2021-07-27 eCollection Date: 2021-01-01 DOI:10.1177/11782234211034937
Namita Kundu, Xinrong Ma, Stephen Hoag, Fang Wang, Ahmed Ibrahim, Raquel Godoy-Ruiz, David J Weber, Amy M Fulton
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引用次数: 5

摘要

芋头植物Colocasia esculenta含有生物活性蛋白,具有治疗癌症的潜力。一些研究小组已经报道了芋头提取物(TEs)在体内和体外的抗癌活性。我们报道了TE在三阴性乳腺癌(TNBC)的同基因小鼠模型中抑制转移。目的:我们试图在其他模型中证实我们早期的研究,并确定实现疗效的新机制。方法:我们采用一组小鼠和人类乳腺癌和卵巢癌细胞系来确定TE对肿瘤细胞活力、迁移和支持癌症干细胞能力的影响。两种TNBC的同基因模型被用来证实我们早期的报道,即TE有效地抑制转移。采用肿瘤干细胞试验确定TE抑制肿瘤球形成能力和抑制醛脱氢酶活性的能力。为了确定宿主免疫是否有助于抑制转移的机制,在免疫功能低下的小鼠中评估了疗效。结果:我们证明了一些细胞系的生存能力受到TE的抑制,但不是所有细胞系。同样,TE也能抑制肿瘤细胞的迁移。通过使用2个免疫正常的、同源的TNBC模型,我们证实了我们早期的发现,即TE可以有效地抑制肿瘤转移。我们也首次证明,TE直接抑制乳腺癌干细胞。给小鼠施用TE可引起几种脾细胞群的扩增,但尚不清楚宿主免疫细胞是否参与TE抑制肿瘤细胞扩散的机制。在新的发现中,我们现在表明TE抑制转移的能力依赖于免疫t细胞依赖性,而不是B细胞或自然杀伤(NK)细胞依赖性机制。因此,肿瘤细胞自主和宿主免疫因素都有助于TE疗效的机制。我们的长期目标是在临床试验中评估TE的疗效。我们过去的大多数研究以及本报告中报道的许多结果都是使用前面描述的隔离方案(TE)进行的。为了准备不久的将来的临床试验,我们现在已经开发了一种分离富集的芋头馏分的策略,TE-method 2 (TE-M2)以及更纯化的亚馏分(TE-M2F1),该亚馏分可以在良好生产规范(GMP)条件下扩大规模,用于人体受试者的评估。我们证明TE- m2和TE- m2f1保留了TE的抗转移特性。结论:这些研究为继续研究土芋草的生物活性成分作为潜在的新治疗实体提供了进一步的支持,并确定了一种在GMP条件下分离足够数量进行早期临床研究的方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

An Extract of Taro (<i>Colocasia esculenta</i>) Mediates Potent Inhibitory Actions on Metastatic and Cancer Stem Cells by Tumor Cell-Autonomous and Immune-Dependent Mechanisms.

An Extract of Taro (<i>Colocasia esculenta</i>) Mediates Potent Inhibitory Actions on Metastatic and Cancer Stem Cells by Tumor Cell-Autonomous and Immune-Dependent Mechanisms.

An Extract of Taro (<i>Colocasia esculenta</i>) Mediates Potent Inhibitory Actions on Metastatic and Cancer Stem Cells by Tumor Cell-Autonomous and Immune-Dependent Mechanisms.

An Extract of Taro (Colocasia esculenta) Mediates Potent Inhibitory Actions on Metastatic and Cancer Stem Cells by Tumor Cell-Autonomous and Immune-Dependent Mechanisms.

The taro plant, Colocasia esculenta, contains bioactive proteins with potential as cancer therapeutics. Several groups have reported anti-cancer activity in vitro and in vivo of taro-derived extracts (TEs). We reported that TE inhibits metastasis in a syngeneic murine model of Triple-Negative Breast Cancer (TNBC).

Purpose: We sought to confirm our earlier studies in additional models and to identify novel mechanisms by which efficacy is achieved.

Methods: We employed a panel of murine and human breast and ovarian cancer cell lines to determine the effect of TE on tumor cell viability, migration, and the ability to support cancer stem cells. Two syngeneic models of TNBC were employed to confirm our earlier report that TE potently inhibits metastasis. Cancer stem cell assays were employed to determine the ability of TE to inhibit tumorsphere-forming ability and to inhibit aldehyde dehydrogenase activity. To determine if host immunity contributes to the mechanism of metastasis inhibition, efficacy was assessed in immune-compromised mice.

Results: We demonstrate that viability of some, but not all cell lines is inhibited by TE. Likewise, tumor cell migration is inhibited by TE. Using 2 immune competent, syngeneic models of TNBC, we confirm our earlier findings that tumor metastasis is potently inhibited by TE. We also demonstrate, for the first time, that TE directly inhibits breast cancer stem cells. Administration of TE to mice elicits expansion of several spleen cell populations but it was not known if host immune cells contribute to the mechanism by which TE inhibits tumor cell dissemination. In novel findings, we now show that the ability of TE to inhibit metastasis relies on immune T-cell-dependent, but not B cell or Natural Killer (NK)-cell-dependent mechanisms. Thus, both tumor cell-autonomous and host immune factors contribute to the mechanisms underlying TE efficacy. Our long-term goal is to evaluate TE efficacy in clinical trials. Most of our past studies as well as many of the results reported in this report were carried out using an isolation protocol described earlier (TE). In preparation for a near future clinical trial, we have now developed a strategy to isolate an enriched taro fraction, TE-method 2, (TE-M2) as well as a more purified subfraction (TE-M2F1) which can be scaled up under Good Manufacturing Practice (GMP) conditions for evaluation in human subjects. We demonstrate that TE-M2 and TE-M2F1 retain the anti-metastatic properties of TE.

Conclusions: These studies provide further support for the continued examination of biologically active components of Colocasia esculenta as potential new therapeutic entities and identify a method to isolate sufficient quantities under GMP conditions to conduct early phase clinical studies.

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来源期刊
CiteScore
5.10
自引率
3.40%
发文量
22
审稿时长
8 weeks
期刊介绍: Breast Cancer: Basic and Clinical Research is an international, open access, peer-reviewed, journal which considers manuscripts on all areas of breast cancer research and treatment. We welcome original research, short notes, case studies and review articles related to breast cancer-related research. Specific areas of interest include, but are not limited to, breast cancer sub types, pathobiology, metastasis, genetics and epigenetics, mammary gland biology, breast cancer models, prevention, detection, therapy and clinical interventions, and epidemiology and population genetics.
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