选定实体瘤中单个循环肿瘤细胞的可测量形态特征--一项试验研究。

IF 2.5 4区 生物学 Q3 BIOCHEMICAL RESEARCH METHODS
Robert Wenta, Julia Richert, Anna Muchlińska, Elżbieta Senkus, Grażyna Suchodolska, Sylwia Łapińska-Szumczyk, Paweł Domżalski, Kevin Miszewski, Marcin Matuszewski, Rafał Dziadziuszko, Anna Supernat, Anna Żaczek, Natalia Bednarz-Knoll
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引用次数: 0

摘要

液体活检发展成为一系列灵敏的技术,旨在分析外周血中的循环肿瘤细胞(CTCs)等,这大大加深了对转移过程的了解。然而,对 CTCs 的检查大多仅限于对其进行计数,通常只进行 2-3 个标记物的表型分析,还不能充分了解其生物学特性。相比之下,对其形态细节的定量分析可能会扩展我们对其传播的了解,甚至改进 CTC 分离或无标记识别方法,这取决于它们的物理特征,如大小和可变形性。目前的研究旨在描述不同类型癌症(肺癌,n = 29;卵巢癌,n = 24;乳腺癌,n = 54;前列腺癌,n = 33)中的 CTC 及其大小、形状、是否存在突起和微核。上皮(泛角蛋白)、间质(波形蛋白)和两种排他性标记物被用来识别 CTC,并通过标准化和高通量的成像流式细胞术将其分为四种上皮和上皮-间质转化相关表型。利用开源软件 QuPath 确定了 CTC 的形态特征,包括其核的圆度、对角线的最大值和最小值。平均而言,与白细胞/内皮细胞(n = 400)相比,检测到的 CTC(n = 1156)体积更大,形状更不规则。上皮细胞和间质细胞的 CTC 直径分别最大(中位数 = 18.2 μm)和最小(中位数 = 10.4 μm)。就癌症特异性差异而言,肺癌中的 CTCs 最大,而前列腺癌和乳腺癌中的 CTCs 最小。上皮细胞和上皮细胞与间质细胞标记物均阴性的 CTCs 延伸程度最高,而间质细胞 CTCs 的形状最不规则。在乳腺癌和前列腺癌的 CTC 中极少观察到突起和微核(占 CTC 的 0.6%-0.8%)。只有在上皮细胞和上皮细胞-间质细胞的 CTC 中观察到微核。这项研究强调,CTCs 的形态特征与它们的表型分类甚至与特定的原发器官有关,具有显著的变异性,这可能会影响依赖于大小的 CTC 分离方法等。它首次展示了上皮-间充质转化过程中 CTC 的形态测量结果,以及一般 CTC 的一些特定形态细节(如突起、微核)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Measurable morphological features of single circulating tumor cells in selected solid tumors—A pilot study

Measurable morphological features of single circulating tumor cells in selected solid tumors—A pilot study

Liquid biopsies developed into a range of sensitive technologies aiming to analyze for example, circulating tumor cells (CTCs) in peripheral blood, which significantly deepens understanding of the metastatic process. Nevertheless, examination of CTCs is mostly limited to their enumeration and usually only 2–3 markers-based phenotyping, not offering yet sufficient insight into their biology. In contrast, quantitative analysis of their morphological details might extend our knowledge about dissemination and even improve CTC isolation or label-free identification methods dependent on their physical features such as size, and deformability. Current study was conducted to describe CTCs' and their size, shape, presence of protrusions, and micronuclei across various types of cancers (lung, n = 29; ovarian, n = 24, breast, n = 54; and prostate, n = 33). Epithelial (pan-keratins), mesenchymal (vimentin), and two exclusion markers were used to identify CTCs and classify them into four epithelial and epithelial-mesenchymal transition-related phenotypes using standardized and throughput method, imaging flow cytometry. The morphological characteristics of CTCs, including their nuclei, such as circularity, the maximum, and minimum diagonal values were determined using an open-source software QuPath. On average, detected CTCs (n = 1156) were larger, and more irregular in shape compared to leukocytes/endothelial cells (n = 400). Epithelial and mesenchymal CTCs had the largest (median = 18.2 μm) and the smallest diameter (median = 10.4 μm), respectively. In terms of cancer-specific variations, the largest CTCs were identified in lung cancer, whereas the smallest—in prostate and breast cancers. Epithelial CTCs and those negative for both epithelial and mesenchymal markers exhibited the highest degree of elongation, whereas mesenchymal CTCs were the most irregular in shape. Protrusions and micronuclei were observed extremely rarely within CTCs of breast and prostate cancer (0.6%–0.8% of CTCs). Micronuclei were observed only in epithelial and epithelial-mesenchymal CTCs. This study underscores the significant variability in the morphological features of CTCs in relation to their phenotypic classification or even the particular organ of origin, potentially influencing for example, size-dependent CTC isolation methods. It demonstrates for the first time the morphological measurements of CTCs undergoing epithelial-mesenchymal transition, and some specific morphological details (i.e., protrusions, micronuclei) within CTCs in general.

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来源期刊
Cytometry Part A
Cytometry Part A 生物-生化研究方法
CiteScore
8.10
自引率
13.50%
发文量
183
审稿时长
4-8 weeks
期刊介绍: Cytometry Part A, the journal of quantitative single-cell analysis, features original research reports and reviews of innovative scientific studies employing quantitative single-cell measurement, separation, manipulation, and modeling techniques, as well as original articles on mechanisms of molecular and cellular functions obtained by cytometry techniques. The journal welcomes submissions from multiple research fields that fully embrace the study of the cytome: Biomedical Instrumentation Engineering Biophotonics Bioinformatics Cell Biology Computational Biology Data Science Immunology Parasitology Microbiology Neuroscience Cancer Stem Cells Tissue Regeneration.
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