DNA条形码竞争性克隆启动细胞分析揭示了癌症移植模型中转移性生长的新特征。

NAR Cancer Pub Date : 2022-09-01 DOI:10.1093/narcan/zcac022
Syed Mohammed Musheer Aalam, Xiaojia Tang, Jianning Song, Upasana Ray, Stephen J Russell, S John Weroha, Jamie Bakkum-Gamez, Viji Shridhar, Mark E Sherman, Connie J Eaves, David J H F Knapp, Krishna R Kalari, Nagarajan Kannan
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引用次数: 3

摘要

许多人类癌症的一个有问题的特征是缺乏对控制器官特异性转移模式的机制的理解,尽管最近在识别许多突变和转录程序方面取得了进展,这些突变和转录程序显示了这种潜力。为了解决这一差距,我们开发了一种方法,使转移过程的不同方面能够在克隆分辨率下全面表征。我们的方法利用计算管道的应用来分析和可视化从移植实验中获得的克隆数据,其中细胞DNA条形码策略用于区分两个或多个竞争细胞群体的单独克隆贡献。为了说明这种方法的力量,我们证明了它能够区分一种成熟的人类转移癌细胞系及其共移植的LRRC15敲低衍生物的免疫缺陷小鼠的转移行为。我们还展示了如何使用机器学习来量化克隆起始细胞(CIC)数量及其随后在不同位点产生的转移子代,从而揭示不同细胞基因型与其初始植入位点及其随后各自的传播模式之间先前未知的关系。这些发现强调了这种结合基因组和计算方法的潜力,以确定新的位点特异性转移模式的克隆相关驱动因素。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

DNA barcoded competitive clone-initiating cell analysis reveals novel features of metastatic growth in a cancer xenograft model.

DNA barcoded competitive clone-initiating cell analysis reveals novel features of metastatic growth in a cancer xenograft model.

DNA barcoded competitive clone-initiating cell analysis reveals novel features of metastatic growth in a cancer xenograft model.

DNA barcoded competitive clone-initiating cell analysis reveals novel features of metastatic growth in a cancer xenograft model.

A problematic feature of many human cancers is a lack of understanding of mechanisms controlling organ-specific patterns of metastasis, despite recent progress in identifying many mutations and transcriptional programs shown to confer this potential. To address this gap, we developed a methodology that enables different aspects of the metastatic process to be comprehensively characterized at a clonal resolution. Our approach exploits the application of a computational pipeline to analyze and visualize clonal data obtained from transplant experiments in which a cellular DNA barcoding strategy is used to distinguish the separate clonal contributions of two or more competing cell populations. To illustrate the power of this methodology, we demonstrate its ability to discriminate the metastatic behavior in immunodeficient mice of a well-established human metastatic cancer cell line and its co-transplanted LRRC15 knockdown derivative. We also show how the use of machine learning to quantify clone-initiating cell (CIC) numbers and their subsequent metastatic progeny generated in different sites can reveal previously unknown relationships between different cellular genotypes and their initial sites of implantation with their subsequent respective dissemination patterns. These findings underscore the potential of such combined genomic and computational methodologies to identify new clonally-relevant drivers of site-specific patterns of metastasis.

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