血清和组织的大规模靶向蛋白质组学显示了对高级别和低级别脑膜瘤肿瘤进行分类的实用性。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Ankit Halder, Deeptarup Biswas, Aparna Chauhan, Adrita Saha, Shreeman Auromahima, Deeksha Yadav, Mehar Un Nissa, Gayatri Iyer, Shashwati Parihari, Gautam Sharma, Sridhar Epari, Prakash Shetty, Aliasgar Moiyadi, Graham Roy Ball, Sanjeeva Srivastava
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引用次数: 2

摘要

背景:脑膜瘤是最常见的原发性脑肿瘤。由于脑膜瘤对医疗保健的负担越来越大,它已成为全球转化研究的重点。尽管在发现蛋白质组学领域进行了许多研究,但脑膜瘤分级特异性标志物的鉴定仍然是一个悖论,需要彻底研究。不同研究中报告的标志物的潜力需要在大样本和独立样本队列中进行进一步验证,以更好地从临床角度确定最佳标志物集。方法:分别从脑膜瘤患者和健康对照中获得53份新鲜冷冻肿瘤组织和51份血清样本,以验证从大量手稿和知识库中提取的差异表达蛋白和声称的脑膜瘤标志物的前景。还包括一小部分胶质瘤/胶质母细胞瘤样本,以研究肿瘤间分离。此外,进行了基于简单机器学习(ML)的分析,以评估蛋白质列表的分类准确性。结果:15种来自组织的蛋白质和12种来自血清的蛋白质被发现是使用基于特征选择的机器学习策略的最佳分离器,在预测低级别(世界卫生组织I级)和高级别(世界卫生组织II级和世界卫生组织III级)脑膜瘤方面的准确率约为80%。此外,判别分析还可以从分离模式揭示脑膜瘤分级的复杂性,从而了解分级之间的过渡阶段。结论:已确定的经验证的标志物列表可以在脑膜瘤的分类中发挥重要作用,并为预后和治疗靶点提供新的临床前景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

A large-scale targeted proteomics of serum and tissue shows the utility of classifying high grade and low grade meningioma tumors.

A large-scale targeted proteomics of serum and tissue shows the utility of classifying high grade and low grade meningioma tumors.

A large-scale targeted proteomics of serum and tissue shows the utility of classifying high grade and low grade meningioma tumors.

A large-scale targeted proteomics of serum and tissue shows the utility of classifying high grade and low grade meningioma tumors.

Background: Meningiomas are the most prevalent primary brain tumors. Due to their increasing burden on healthcare, meningiomas have become a pivot of translational research globally. Despite many studies in the field of discovery proteomics, the identification of grade-specific markers for meningioma is still a paradox and requires thorough investigation. The potential of the reported markers in different studies needs further verification in large and independent sample cohorts to identify the best set of markers with a better clinical perspective.

Methods: A total of 53 fresh frozen tumor tissue and 51 serum samples were acquired from meningioma patients respectively along with healthy controls, to validate the prospect of reported differentially expressed proteins and claimed markers of Meningioma mined from numerous manuscripts and knowledgebases. A small subset of Glioma/Glioblastoma samples were also included to investigate inter-tumor segregation. Furthermore, a simple Machine Learning (ML) based analysis was performed to evaluate the classification accuracy of the list of proteins.

Results: A list of 15 proteins from tissue and 12 proteins from serum were found to be the best segregator using a feature selection-based machine learning strategy with an accuracy of around 80% in predicting low grade (WHO grade I) and high grade (WHO grade II and WHO grade III) meningiomas. In addition, the discriminant analysis could also unveil the complexity of meningioma grading from a segregation pattern, which leads to the understanding of transition phases between the grades.

Conclusions: The identified list of validated markers could play an instrumental role in the classification of meningioma as well as provide novel clinical perspectives in regard to prognosis and therapeutic targets.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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