Concurrent L1 retrotransposition events promote reciprocal translocations in human tumorigenesis
Summary
LINE-1 (L1) retrotransposition generates somatic genomic variation in human cancer, but short-read sequencing has limited our understanding of its structural consequences and dynamics. Using long-read sequencing, we analyzed 10 tumors with exceptionally high retrotransposition activity, comprising more than 6000 somatic events. We reveal that L1-mediated reciprocal translocations occur frequently, typically driven by two concurrent L1 retrotransposition events on nonhomologous chromosomes.
Content
# Concurrent L1 retrotransposition events promote reciprocal translocations in human tumorigenesis
*Published: 2026 Apr 2*
LINE-1 (L1) retrotransposition generates somatic genomic variation in human
cancer, but short-read sequencing has limited our understanding of its
structural consequences and dynamics. Using long-read sequencing, we analyzed 10
tumors with exceptionally high retrotransposition activity, comprising more than
6000 somatic events. We reveal that L1-mediated reciprocal translocations occur
frequently, typically driven by two concurrent L1 retrotransposition events on
nonhomologous chromosomes. Using an independent tumor cohort spanning low to
high L1 activity, we estimate that retrotransposon-mediated rearrangements arise
at a frequency of one event per 60 somatic retrotranspositions. Molecular timing
analyses indicate that these events arise early in tumorigenesis, establishing
L1 activity as an early driver of chromosomal instability. Our findings
demonstrate that L1 contributes substantially to cancer genome evolution in
certain tumors.
DOI: 10.1126/science.aee4513