包括串扰、共选择和共依赖在内的协同克隆间合作可以增强遗传远端癌症克隆的侵袭性。

Caroline S Carneiro, Jorian D Hapeman, Aurora M Nedelcu
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引用次数: 1

摘要

背景:尽管研究深入,癌症仍然是一个主要的健康问题。治疗癌症的困难反映了这种疾病的复杂性,包括肿瘤内部的高度异质性。肿瘤内异质性为克隆间竞争和选择创造了条件,这可能导致选择性扫描和异质性水平的降低。然而,除了竞争之外,癌症克隆也可以相互合作,这些相互作用对克隆适应性的积极影响实际上可能有助于维持肿瘤的异质性。因此,了解这些活动的进化机制和途径对癌症治疗具有重要意义。这与转移(即肿瘤细胞迁移、侵袭、扩散和传播)尤其相关,这是癌症进展中最致命的阶段。为了探索遗传上遥远的克隆是否以及如何在迁移和侵袭过程中合作,本研究使用了三种具有不同转移潜力的不同癌细胞系。结果:我们发现:(i)来自两种侵袭细胞系(乳腺和肺)的条件培养基增加了低转移细胞系(乳腺)的迁移和侵袭潜力,(ii)这种克隆间的合作相互作用涉及TGF-β1信号通路。此外,当侵袭性较低的细胞系与高转移性乳腺细胞系共培养时,两种细胞系的侵袭潜力都得到增强,而这一结果取决于弱转移性克隆的共选择(通过TGF-β1自分泌-旁分泌信号传导),从而表达一种增强的恶性表型,使两种克隆受益(即“帮我帮你”策略)。结论:基于我们的研究结果,我们提出了一个模型,在这个模型中,相声、共同选择和共同依赖可以促进遗传上遥远的克隆之间协同合作相互作用的进化。具体来说,我们认为,无论整体遗传/系谱关系的程度如何,通过涉及转移性克隆的串扰,协同合作相互作用很容易出现,这些转移性克隆能够组成性地分泌诱导和维持其自身恶性状态的分子(生产者-应答者克隆)和有能力响应这些信号的克隆(应答者克隆)并表达协同转移行为。考虑到缺乏直接影响转移过程的治疗方法,在转移级联的早期阶段干扰这种合作相互作用可以提供额外的策略来提高患者的生存率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Synergistic inter-clonal cooperation involving crosstalk, co-option and co-dependency can enhance the invasiveness of genetically distant cancer clones.

Synergistic inter-clonal cooperation involving crosstalk, co-option and co-dependency can enhance the invasiveness of genetically distant cancer clones.

Synergistic inter-clonal cooperation involving crosstalk, co-option and co-dependency can enhance the invasiveness of genetically distant cancer clones.

Synergistic inter-clonal cooperation involving crosstalk, co-option and co-dependency can enhance the invasiveness of genetically distant cancer clones.

Background: Despite intensive research, cancer remains a major health problem. The difficulties in treating cancer reflect the complex nature of this disease, including high levels of heterogeneity within tumours. Intra-tumour heterogeneity creates the conditions for inter-clonal competition and selection, which could result in selective sweeps and a reduction in levels of heterogeneity. However, in addition to competing, cancer clones can also cooperate with each other, and the positive effects of these interactions on the fitness of clones could actually contribute to maintaining the heterogeneity of tumours. Consequently, understanding the evolutionary mechanisms and pathways involved in such activities is of great significance for cancer treatment. This is particularly relevant for metastasis (i.e., tumor cell migration, invasion, dispersal and dissemination), which is the most lethal phase during cancer progression. To explore if and how genetically distant clones can cooperate during migration and invasion, this study used three distinct cancer cell lines with different metastatic potentials.

Results: We found that (i) the conditioned media from two invasive lines (breast and lung) increased the migration and invasion potential of a poorly metastatic line (breast), and (ii) this inter-clonal cooperative interaction involved the TGF-β1 signalling pathway. Furthermore, when the less aggressive line was co-cultured with the highly metastatic breast line, the invasive potential of both lines was enhanced, and this outcome was dependent on the co-option (through TGF-β1 autocrine-paracrine signalling) of the weakly metastatic clone into expressing an enhanced malignant phenotype that benefited both clones (i.e., a "help me help you" strategy).

Conclusions: Based on our findings, we propose a model in which crosstalk, co-option, and co-dependency can facilitate the evolution of synergistic cooperative interactions between genetically distant clones. Specifically, we suggest that synergistic cooperative interactions can easily emerge, regardless of the degree of overall genetic/genealogical relatedness, via crosstalk involving metastatic clones able to constitutively secrete molecules that induce and maintain their own malignant state (producer-responder clones) and clones that have the ability to respond to those signals (responder clones) and express a synergistic metastatic behaviour. Taking into account the lack of therapies that directly affect the metastatic process, interfering with such cooperative interactions during the early steps in the metastatic cascade could provide additional strategies to increase patient survival.

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