Maria Skłodowska-Curie National Research Institute of Oncology, Gliwice Branch, 44-102 Gliwice, Poland.
Faculty of Automatic Control, Electronics and Computer Science, Silesian University of Technology, 44-100 Gliwice, Poland.
Int J Mol Sci. 2020 Aug 31;21(17):6289. doi: 10.3390/ijms21176289.
The primary diagnosis of thyroid tumors based on histopathological patterns can be ambiguous in some cases, so proper classification of thyroid diseases might be improved if molecular biomarkers support cytological and histological assessment. In this work, tissue microarrays representative for major types of thyroid malignancies-papillary thyroid cancer (classical and follicular variant), follicular thyroid cancer, anaplastic thyroid cancer, and medullary thyroid cancer-and benign thyroid follicular adenoma and normal thyroid were analyzed by mass spectrometry imaging (MSI), and then different computation approaches were implemented to test the suitability of the registered profiles of tryptic peptides for tumor classification. Molecular similarity among all seven types of thyroid specimens was estimated, and multicomponent classifiers were built for sample classification using individual MSI spectra that corresponded to small clusters of cells. Moreover, MSI components showing the most significant differences in abundance between the compared types of tissues detected and their putative identity were established by annotation with fragments of proteins identified by liquid chromatography-tandem mass spectrometry in corresponding tissue lysates. In general, high accuracy of sample classification was associated with low inter-tissue similarity index and a high number of components with significant differences in abundance between the tissues. Particularly, high molecular similarity was noted between three types of tumors with follicular morphology (adenoma, follicular cancer, and follicular variant of papillary cancer), whose differentiation represented the major classification problem in our dataset. However, low level of the intra-tissue heterogeneity increased the accuracy of classification despite high inter-tissue similarity (which was exemplified by normal thyroid and benign adenoma). We compared classifiers based on all detected MSI components ( = 1536) and the subset of the most abundant components ( = 147). Despite relatively higher contribution of components with significantly different abundance and lower overall inter-tissue similarity in the latter case, the precision of classification was generally higher using all MSI components. Moreover, the classification model based on individual spectra (a single-pixel approach) outperformed the model based on mean spectra of tissue cores. Our result confirmed the high feasibility of MSI-based approaches to multi-class detection of cancer types and proved the good performance of sample classification based on individual spectra (molecular image pixels) that overcame problems related to small amounts of heterogeneous material, which limit the applicability of classical proteomics.
基于组织病理学模式的甲状腺肿瘤的主要诊断在某些情况下可能存在模糊性,如果分子生物标志物支持细胞学和组织学评估,那么对甲状腺疾病的适当分类可能会得到改善。在这项工作中,通过质谱成像(MSI)分析了代表主要类型甲状腺恶性肿瘤(经典和滤泡变体甲状腺癌、滤泡状甲状腺癌、间变性甲状腺癌和髓样甲状腺癌)以及良性甲状腺滤泡性腺瘤和正常甲状腺的组织微阵列,然后实施了不同的计算方法来测试注册的肽段图谱用于肿瘤分类的适用性。估计了所有七种甲状腺标本之间的分子相似性,并使用对应于小细胞簇的单个 MSI 光谱构建了用于样本分类的多分量分类器。此外,通过用对应组织裂解物中通过液相色谱-串联质谱鉴定的蛋白质片段注释来建立在比较组织类型之间检测到的丰度存在显著差异的 MSI 成分及其可能的身份。一般来说,样本分类的高准确性与组织间相似性指数低和组织间丰度存在显著差异的成分数量高有关。特别是,具有滤泡形态的三种肿瘤(腺瘤、滤泡癌和滤泡变体乳头状癌)之间具有很高的分子相似性,它们的分化是我们数据集分类的主要问题。然而,尽管组织间相似性高,但由于组织内异质性水平低,分类准确性提高了(良性腺瘤和正常甲状腺就是例证)。我们比较了基于所有检测到的 MSI 成分(= 1536)和最丰富成分子集(= 147)的分类器。尽管在后一种情况下,具有显著差异丰度的成分的贡献相对较高,整体组织间相似性较低,但使用所有 MSI 成分进行分类的精度通常更高。此外,基于单个光谱的分类模型(单像素方法)优于基于组织芯平均光谱的模型。我们的结果证实了基于 MSI 的多类癌症检测方法具有很高的可行性,并证明了基于单个光谱(分子图像像素)的样本分类具有良好的性能,克服了与小量异质材料相关的问题,限制了经典蛋白质组学的适用性。
