Screening activity of brain cancer-derived factors on primary human brain pericytes

bioRxiv - Cancer Biology Pub Date : 2024-09-16 DOI:10.1101/2024.09.11.612547

Samuel JC McCullough, Eliene Albers, Akshata Anchan, Jane Yu, Bronwen Connor, Scott Graham

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Abstract

Brain cancers offer poor prognoses to patients accompanied by symptoms that drastically impact the patient and their family. Brain tumours recruit local non-transformed cells to provide trophic support and immunosuppression within the tumour microenvironment, supporting tumour progression. Given the localization and supportive role of pericytes at the brain vasculature, we explored the potential for brain pericytes to contribute to the brain cancer microenvironment. To investigate this, primary brain pericytes were treated with factors commonly upregulated in brain cancers. Changes to brain pericyte cell signalling, inflammatory secretion, and phagocytosis were investigated. The TGFβ superfamily cytokines TGFβ and GDF-15 activated SMAD2/3 and inhibited C/EBP-δ, revealing a potential mechanism behind the pleiotropic action of TGFβ on brain pericytes. IL-17 induced secretion of IL-6 without activating NFκB, STAT1, SMAD2/3, or C/EBP-δ signalling pathways. IL-27 and IFNγ induced STAT1 signalling and significantly reduced pericyte phagocytosis. The remaining brain cancer-derived factors did not induce a measured response, indicating that these factors may act on other cell types or require co-stimulation with other factors to produce significant effects. Together, these findings show potential mechanisms by which brain pericytes contribute to aspects of inflammation and starts to uncover the supportive role brain pericytes may play in brain cancers.

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筛选脑癌衍生因子对原发性人脑周细胞的活性

脑癌患者的预后较差，并伴有严重影响患者及其家庭的症状。脑肿瘤会招募局部非转化细胞，在肿瘤微环境中提供营养支持和免疫抑制，从而支持肿瘤的进展。鉴于周细胞在脑血管的定位和支持作用，我们探索了脑周细胞对脑癌微环境做出贡献的可能性。为了研究这一点，我们用脑癌中常见的上调因子处理原代脑周细胞。我们研究了脑周质细胞信号、炎症分泌和吞噬作用的变化。TGFβ超家族细胞因子TGFβ和GDF-15激活了SMAD2/3并抑制了C/EBP-δ，揭示了TGFβ对脑周细胞的多效应背后的潜在机制。IL-17 可诱导 IL-6 的分泌，但不会激活 NFκB、STAT1、SMAD2/3 或 C/EBP-δ 信号通路。IL-27 和 IFNγ 可诱导 STAT1 信号传导，并显著降低周细胞的吞噬能力。其余的脑癌衍生因子没有诱导出可测量的反应，这表明这些因子可能作用于其他类型的细胞，或需要与其他因子共同刺激才能产生显著效果。这些发现共同显示了脑周质对炎症方面起作用的潜在机制，并开始揭示脑周质在脑癌中可能发挥的支持作用。

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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bioRxiv - Cancer Biology

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