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SJPedPanel: A Pan-Cancer Gene Panel for Childhood Malignancies to Enhance Cancer Monitoring and Early Detection.

Authors :
Kolekar P
Balagopal V
Dong L
Liu Y
Foy S
Tran Q
Mulder H
Huskey ALW
Plyler E
Liang Z
Ma J
Nakitandwe J
Gu J
Namwanje M
Maciaszek J
Payne-Turner D
Mallampati S
Wang L
Easton J
Klco JM
Ma X
Source :
Clinical cancer research : an official journal of the American Association for Cancer Research [Clin Cancer Res] 2024 Sep 13; Vol. 30 (18), pp. 4100-4114.
Publication Year :
2024

Abstract

Purpose: The purpose of the study was to design a pan-cancer gene panel for childhood malignancies and validate it using clinically characterized patient samples.<br />Experimental Design: In addition to 5,275 coding exons, SJPedPanel also covers 297 introns for fusions/structural variations and 7,590 polymorphic sites for copy-number alterations. Capture uniformity and limit of detection are determined by targeted sequencing of cell lines using dilution experiment. We validate its coverage by in silico analysis of an established real-time clinical genomics (RTCG) cohort of 253 patients. We further validate its performance by targeted resequencing of 113 patient samples from the RTCG cohort. We demonstrate its power in analyzing low tumor burden specimens using morphologic remission and monitoring samples.<br />Results: Among the 485 pathogenic variants reported in RTCG cohort, SJPedPanel covered 86% of variants, including 82% of 90 rearrangements responsible for fusion oncoproteins. In our targeted resequencing cohort, 91% of 389 pathogenic variants are detected. The gene panel enabled us to detect ∼95% of variants at allele fraction (AF) 0.5%, whereas the detection rate is ∼80% at AF 0.2%. The panel detected low-frequency driver alterations from morphologic leukemia remission samples and relapse-enriched alterations from monitoring samples, demonstrating its power for cancer monitoring and early detection.<br />Conclusions: SJPedPanel enables the cost-effective detection of clinically relevant genetic alterations including rearrangements responsible for subtype-defining fusions by targeted sequencing of ∼0.15% of human genome for childhood malignancies. It will enhance the analysis of specimens with low tumor burdens for cancer monitoring and early detection.<br /> (©2024 The Authors; Published by the American Association for Cancer Research.)

Details

Language :
English
ISSN :
1557-3265
Volume :
30
Issue :
18
Database :
MEDLINE
Journal :
Clinical cancer research : an official journal of the American Association for Cancer Research
Publication Type :
Academic Journal
Accession number :
39047169
Full Text :
https://doi.org/10.1158/1078-0432.CCR-24-1063