Han T N Nguyen, Bailey H. Duhon, Hsuan-Chih Kuo, Melanie Fisher, Olivia M Brickey, Lisa Zhang, José J. Otero, Daniel M. Prevedello, O. Adunka, Yin Ren
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引用次数: 0
摘要
前庭裂隙瘤(VS)的发展与裂隙瘤细胞和细胞外基质之间的相互作用密切相关。由于肿瘤与脑干和颅神经粘连,前庭裂隙瘤的手术切除存在很大风险。我们评估了基质金属蛋白酶9(MMP9)在VS中的作用,并探讨了其作为生物标记物对粘附性VS进行分类的潜力。 我们对小鼠分裂瘤异体移植模型进行了转录组分析,并对 17 例人类 VS 进行了免疫组化分析。在小鼠和人类裂隙瘤细胞系中评估了 MMP9 的丰度。进行了透孔研究,以评估 MMP9 对体外侵袭 schwannoma 的影响。通过对 45 名前瞻性 VS 患者进行多重蛋白质组分析,确定了血浆生物标志物,并在原代培养中进行了验证。在小鼠血吸虫瘤模型中评估了抑制 MMP9 的疗效。 MMP9是小鼠裂隙瘤中上调率最高的蛋白酶,在粘附的VS中明显富集,尤其是在肿瘤血管周围。在粘连性 VS 患者的血浆中发现了高水平的 MMP9。在对粘连性 VS 进行分类时,MMP9 的鉴别能力优于临床和放射学变量。人类裂隙瘤细胞在 TNF-α 的作用下分泌 MMP9,从而促进了体外细胞侵袭和粘附蛋白的表达。最后,MMP9抑制剂可减少小鼠裂隙瘤在体内的生长。 我们发现 MMP9 是一种术前生物标记物,可用于对粘附的 VS 进行分类。对于手术效果不佳、缺乏其他可行治疗方案的粘连性 VS,MMP9 可能是一个新的治疗靶点。
Matrix metalloproteinase 9: an emerging biomarker for classification of adherent vestibular schwannoma
The progression of vestibular schwannoma (VS) is intricately linked with interactions between schwannoma cells and the extracellular matrix. Surgical resection of VS is associated with substantial risks as tumors are adherent to the brainstem and cranial nerves. We evaluate the role of matrix metalloproteinase 9 (MMP9) in VS and explore its potential as a biomarker to classify adherent VS.
Transcriptomic analysis of a murine schwannoma allograft model and immunohistochemical analysis of 17 human VS were performed. MMP9 abundance was assessed in mouse and human schwannoma cell lines. Transwell studies were performed to evaluate the effect of MMP9 on schwannoma invasion in vitro. Plasma biomarkers were identified from a multiplexed proteomic analysis in 45 prospective VS patients and validated in primary culture. The therapeutic efficacy of MMP9 inhibition was evaluated in a mouse schwannoma model.
MMP9 was the most highly upregulated protease in mouse schwannomas and was significantly enriched in adherent VS, particularly around tumor vasculature. High levels of MMP9 were found in plasma of patients with adherent VS. MMP9 outperformed clinical and radiographic variables to classify adherent VS with outstanding discriminatory ability. Human schwannoma cells secreted MMP9 in response to TNF-α which promoted cellular invasion and adhesion protein expression in vitro. Lastly, MMP9 inhibition decreased mouse schwannoma growth in vivo.
We identify MMP9 as a pre-operative biomarker to classify adherent VS. MMP9 may represent a new therapeutic target in adherent VS associated with poor surgical outcomes that lack other viable treatment options.
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