APOBEC3B-dependent kataegis and TREX1-driven chromothripsis in telomere crisis
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Abstract
Chromothripsis and kataegis are frequently observed in cancer and can arise from telomere crisis, a period of genome instability during tumorigenesis when depletion of the telomere reserve generates unstable dicentric chromosomes 1–5 . Here we report on the mechanism underlying chromothripsis and kataegis using an in vitro telomere crisis model. We show that the cytoplasmic exonuclease TREX1, which promotes the resolution of dicentric chromosomes 4 , plays a prominent role in chromothriptic fragmentation. In absence of TREX1, the genome alterations induced by telomere crisis primarily involve Breakage-Fusion-Bridge cycles and simple genome rearrangements rather than chromothripsis. Furthermore, we show that the kataegis observed at chromothriptic breakpoints is the consequence of cytosine deamination by APOBEC3B. In addition, APOBEC3B increased the frequency of chromothriptic fragmentation, possibly due to strand breakage after cytosine deamination. These data reveal that chromothripsis and kataegis arise from a combination of nucleolytic processing by TREX1 and cytosine editing by APOBEC3B.
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- last seen: 2026-05-19T01:45:01.086888+00:00