Marker-free characterization of full-length transcriptomes of single live circulating tumor cells

生物 计算生物学 转录组 基因 基因表达 遗传学
作者
Sarita Poonia,Anurag Goel,Smriti Chawla,N Bhattacharya,Priyadarshini Rai,Yi Fang Lee,Yoon Sim Yap,Jay West,Ali Asgar S. Bhagat,Juhi Tayal,Anurag Mehta,Gaurav Ahuja,Angshul Majumdar,Naveen Ramalingam,Debarka Sengupta
出处
期刊:Genome Research [Cold Spring Harbor Laboratory Press]
卷期号:33 (1): 80-95 被引量:12
标识
DOI:10.1101/gr.276600.122
摘要

The identification and characterization of circulating tumor cells (CTCs) are important for gaining insights into the biology of metastatic cancers, monitoring disease progression, and medical management of the disease. The limiting factor in the enrichment of purified CTC populations is their sparse availability, heterogeneity, and altered phenotypes relative to the primary tumor. Intensive research both at the technical and molecular fronts led to the development of assays that ease CTC detection and identification from peripheral blood. Most CTC detection methods based on single-cell RNA sequencing (scRNA-seq) use a mix of size selection, marker-based white blood cell (WBC) depletion, and antibodies targeting tumor-associated antigens. However, the majority of these methods either miss out on atypical CTCs or suffer from WBC contamination. We present unCTC, an R package for unbiased identification and characterization of CTCs from single-cell transcriptomic data. unCTC features many standard and novel computational and statistical modules for various analyses. These include a novel method of scRNA-seq clustering, named deep dictionary learning using k-means clustering cost (DDLK), expression-based copy number variation (CNV) inference, and combinatorial, marker-based verification of the malignant phenotypes. DDLK enables robust segregation of CTCs and WBCs in the pathway space, as opposed to the gene expression space. We validated the utility of unCTC on scRNA-seq profiles of breast CTCs from six patients, captured and profiled using an integrated ClearCell FX and Polaris workflow that works by the principles of size-based separation of CTCs and marker-based WBC depletion.
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