Multiarm High-Throughput Integration Site Detection: Limitations of LAM-PCR Technology and Optimization for Clonal Analysis

Retroviral integration provides a unique and heritable genomic tag for a target cell and its progeny, enabling studies of clonal composition and repopulation kinetics after gene transfer into hematopoietic stem cells. The clonal tracking method, linear amplification-mediated polymerase chain reaction (LAM-PCR) is widely employed to follow the hematopoietic output of retrovirally marked stem cells. Here we examine the capabilities and limitations of conventional LAM-PCR to track individual clones in a complex multiclonal mix. Using artificial mixtures of retrovirally marked, single-cell–derived clones, we demonstrate that LAM-PCR fails to detect 30–40% of the clones, even after exhaustive analysis. Furthermore, the relative abundance of specific clones within a mix is not accurately represented, deviating by as much as 60-fold from their true abundance. We describe an optimized, multiarm, high-throughput modification of LAM-PCR that improves the global detection capacity to greater than 90% with exhaustive...