TY - JOUR
T1 - Pancreatic circulating tumor cell detection by targeted single-cell next-generation sequencing
AU - Yu, Jun
AU - Gemenetzis, Georgios
AU - Kinny-Köster, Benedict
AU - Habib, Joseph R.
AU - Groot, Vincent P.
AU - Teinor, Jonathan
AU - Yin, Lingdi
AU - Pu, Ning
AU - Hasanain, Alina
AU - van Oosten, Floortje
AU - Javed, Ammar A.
AU - Weiss, Matthew J.
AU - Burkhart, Richard A.
AU - Burns, William R.
AU - Goggins, Michael
AU - He, Jin
AU - Wolfgang, Christopher L.
N1 - Publisher Copyright:
© 2020
PY - 2020/11/28
Y1 - 2020/11/28
N2 - Background and aims: Single-cell next-generation sequencing (scNGS) technology has been widely used in genomic profiling, which relies on whole-genome amplification (WGA). However, WGA introduces errors and is especially less accurate when applied to single nucleotide variant (SNV) analysis. Targeted scNGS for SNV without WGA has not been described. We aimed to develop a method to detect circulating tumor cells (CTCs) with DNA SNVs. Methods: We tested this targeted scNGS method with three driver mutant genes (KRAS/TP53/SMAD4) on one pancreatic cancer cell line AsPC-1 and then applied it to patients with metastatic PDAC for the validation. Results: All single-cell of AsPC-1 and spiked-in AsPC-1 cells in healthy donor blood, which were isolated by the filtration with size or by flow cytometry, were detected by targeted scNGS method. All blood samples from six patients with metastatic PDAC, for the validation of target scNGS method, showed CTCs with SNVs of KRAS/TP53/SMAD4 and the positive confirmation of immunofluorescent stainings with Pan-CK/Vimentin/CD45. Four patients with early stage disease, one patient with benign pancreatic cyst and a healthy control sample all showed concordant results between targeted scNGS and CTC enumeration. Conclusions: The novel technique of targeted scNGS for SNV analysis, without pre-amplification, is a promising method for identifying and characterizing circulating tumor cells.
AB - Background and aims: Single-cell next-generation sequencing (scNGS) technology has been widely used in genomic profiling, which relies on whole-genome amplification (WGA). However, WGA introduces errors and is especially less accurate when applied to single nucleotide variant (SNV) analysis. Targeted scNGS for SNV without WGA has not been described. We aimed to develop a method to detect circulating tumor cells (CTCs) with DNA SNVs. Methods: We tested this targeted scNGS method with three driver mutant genes (KRAS/TP53/SMAD4) on one pancreatic cancer cell line AsPC-1 and then applied it to patients with metastatic PDAC for the validation. Results: All single-cell of AsPC-1 and spiked-in AsPC-1 cells in healthy donor blood, which were isolated by the filtration with size or by flow cytometry, were detected by targeted scNGS method. All blood samples from six patients with metastatic PDAC, for the validation of target scNGS method, showed CTCs with SNVs of KRAS/TP53/SMAD4 and the positive confirmation of immunofluorescent stainings with Pan-CK/Vimentin/CD45. Four patients with early stage disease, one patient with benign pancreatic cyst and a healthy control sample all showed concordant results between targeted scNGS and CTC enumeration. Conclusions: The novel technique of targeted scNGS for SNV analysis, without pre-amplification, is a promising method for identifying and characterizing circulating tumor cells.
KW - CTC
KW - Pancreatic cancer
KW - Single-cell DNA sequencing
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U2 - 10.1016/j.canlet.2020.08.043
DO - 10.1016/j.canlet.2020.08.043
M3 - Article
C2 - 32896616
AN - SCOPUS:85090714834
SN - 0304-3835
VL - 493
SP - 245
EP - 253
JO - Cancer Letters
JF - Cancer Letters
ER -