LC-FACSeq is a method for detecting rare clones in leukemia

Eileen Y. Hu; James S. Blachly; Caner Saygin; Hatice G. Ozer; Stephanie E. Workman; Arletta Lozanski; Tzyy Jye Doong; Chi Ling Chiang; Seema Bhat; Kerry A. Rogers; Jennifer A. Woyach; Kevin R. Coombes; Daniel Jones; Natarajan Muthusamy; Gerard Lozanski; John C. Byrd

doi:10.1172/jci.insight.134973

LC-FACSeq is a method for detecting rare clones in leukemia

Eileen Y. Hu, James S. Blachly, Caner Saygin, Hatice G. Ozer, Stephanie E. Workman, Arletta Lozanski, Tzyy Jye Doong, Chi Ling Chiang, Seema Bhat, Kerry A. Rogers, Jennifer A. Woyach, Kevin R. Coombes, Daniel Jones, Natarajan Muthusamy, Gerard Lozanski, John C. Byrd

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

Detecting, characterizing, and monitoring rare populations of cells can increase testing sensitivity, give insight into disease mechanism, and inform clinical decision making. One area that can benefit from increased resolution is management of cancers in clinical remission but with measurable residual disease (MRD) by multicolor FACS. Detecting and monitoring genomic clonal resistance to treatment in the setting of MRD is technically difficult and resource intensive due to the limited amounts of disease cells. Here, we describe limited-cell FACS sequencing (LC-FACSeq), a reproducible, highly sensitive method of characterizing clonal evolution in rare cells relevant to different types of acute and chronic leukemias. We demonstrate the utility of LC-FACSeq for broad multigene gene panels and its application for monitoring sequential acquisition of mutations conferring therapy resistance and clonal evolution in long-term ibrutinib treatment of patients with chronic lymphocytic leukemia. This technique is generalizable for monitoring of other blood and marrow infiltrating cancers.

Original language	English (US)
Article number	e134973
Journal	JCI Insight
Volume	5
Issue number	12
DOIs	https://doi.org/10.1172/jci.insight.134973
State	Published - Jun 18 2020
Externally published	Yes

ASJC Scopus subject areas

General Medicine

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1172/jci.insight.134973

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title = "LC-FACSeq is a method for detecting rare clones in leukemia",

abstract = "Detecting, characterizing, and monitoring rare populations of cells can increase testing sensitivity, give insight into disease mechanism, and inform clinical decision making. One area that can benefit from increased resolution is management of cancers in clinical remission but with measurable residual disease (MRD) by multicolor FACS. Detecting and monitoring genomic clonal resistance to treatment in the setting of MRD is technically difficult and resource intensive due to the limited amounts of disease cells. Here, we describe limited-cell FACS sequencing (LC-FACSeq), a reproducible, highly sensitive method of characterizing clonal evolution in rare cells relevant to different types of acute and chronic leukemias. We demonstrate the utility of LC-FACSeq for broad multigene gene panels and its application for monitoring sequential acquisition of mutations conferring therapy resistance and clonal evolution in long-term ibrutinib treatment of patients with chronic lymphocytic leukemia. This technique is generalizable for monitoring of other blood and marrow infiltrating cancers.",

author = "Hu, {Eileen Y.} and Blachly, {James S.} and Caner Saygin and Ozer, {Hatice G.} and Workman, {Stephanie E.} and Arletta Lozanski and Doong, {Tzyy Jye} and Chiang, {Chi Ling} and Seema Bhat and Rogers, {Kerry A.} and Woyach, {Jennifer A.} and Coombes, {Kevin R.} and Daniel Jones and Natarajan Muthusamy and Gerard Lozanski and Byrd, {John C.}",

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year = "2020",

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day = "18",

doi = "10.1172/jci.insight.134973",

language = "English (US)",

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T1 - LC-FACSeq is a method for detecting rare clones in leukemia

AU - Hu, Eileen Y.

AU - Blachly, James S.

AU - Saygin, Caner

AU - Ozer, Hatice G.

AU - Workman, Stephanie E.

AU - Lozanski, Arletta

AU - Doong, Tzyy Jye

AU - Chiang, Chi Ling

AU - Bhat, Seema

AU - Rogers, Kerry A.

AU - Woyach, Jennifer A.

AU - Coombes, Kevin R.

AU - Jones, Daniel

AU - Muthusamy, Natarajan

AU - Lozanski, Gerard

AU - Byrd, John C.

PY - 2020/6/18

Y1 - 2020/6/18

N2 - Detecting, characterizing, and monitoring rare populations of cells can increase testing sensitivity, give insight into disease mechanism, and inform clinical decision making. One area that can benefit from increased resolution is management of cancers in clinical remission but with measurable residual disease (MRD) by multicolor FACS. Detecting and monitoring genomic clonal resistance to treatment in the setting of MRD is technically difficult and resource intensive due to the limited amounts of disease cells. Here, we describe limited-cell FACS sequencing (LC-FACSeq), a reproducible, highly sensitive method of characterizing clonal evolution in rare cells relevant to different types of acute and chronic leukemias. We demonstrate the utility of LC-FACSeq for broad multigene gene panels and its application for monitoring sequential acquisition of mutations conferring therapy resistance and clonal evolution in long-term ibrutinib treatment of patients with chronic lymphocytic leukemia. This technique is generalizable for monitoring of other blood and marrow infiltrating cancers.

AB - Detecting, characterizing, and monitoring rare populations of cells can increase testing sensitivity, give insight into disease mechanism, and inform clinical decision making. One area that can benefit from increased resolution is management of cancers in clinical remission but with measurable residual disease (MRD) by multicolor FACS. Detecting and monitoring genomic clonal resistance to treatment in the setting of MRD is technically difficult and resource intensive due to the limited amounts of disease cells. Here, we describe limited-cell FACS sequencing (LC-FACSeq), a reproducible, highly sensitive method of characterizing clonal evolution in rare cells relevant to different types of acute and chronic leukemias. We demonstrate the utility of LC-FACSeq for broad multigene gene panels and its application for monitoring sequential acquisition of mutations conferring therapy resistance and clonal evolution in long-term ibrutinib treatment of patients with chronic lymphocytic leukemia. This technique is generalizable for monitoring of other blood and marrow infiltrating cancers.

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LC-FACSeq is a method for detecting rare clones in leukemia

Abstract

ASJC Scopus subject areas

UN SDGs

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