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Integrated one- and two-photon imaging platform reveals clonal expansion as a major driver of mutation load.


ABSTRACT: The clonal expansion of mutant cells is hypothesized to be an important first step in cancer formation. To understand the earliest stages of tumorigenesis, a method to identify and analyze clonal expansion is needed. We have previously described transgenic Fluorescent Yellow Direct Repeat (FYDR) mice in which cells that have undergone sequence rearrangements (via homologous recombination events) express a fluorescent protein, enabling fluorescent labeling of phenotypically normal cells. Here, we develop an integrated one- and two-photon imaging platform that spans four orders of magnitude to permit rapid quantification of clonal expansion in the FYDR pancreas in situ. Results show that as mice age there is a significant increase in the number of cells within fluorescent cell clusters, indicating that pancreatic cells can clonally expand with age. Importantly, >90% of fluorescent cells in aged mice result from clonal expansion, rather than de novo sequence rearrangements at the FYDR locus. The spontaneous frequency of sequence rearrangements at the FYDR locus is on par with that of other classes of mutational events. Therefore, we conclude that clonal expansion is one of the most important mechanisms for increasing the burden of mutant cells in the mouse pancreas.

SUBMITTER: Wiktor-Brown DM 

PROVIDER: S-EPMC2492490 | biostudies-literature | 2008 Jul

REPOSITORIES: biostudies-literature

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Integrated one- and two-photon imaging platform reveals clonal expansion as a major driver of mutation load.

Wiktor-Brown Dominika M DM   Kwon Hyuk-Sang HS   Nam Yoon Sung YS   So Peter T C PT   Engelward Bevin P BP  

Proceedings of the National Academy of Sciences of the United States of America 20080722 30


The clonal expansion of mutant cells is hypothesized to be an important first step in cancer formation. To understand the earliest stages of tumorigenesis, a method to identify and analyze clonal expansion is needed. We have previously described transgenic Fluorescent Yellow Direct Repeat (FYDR) mice in which cells that have undergone sequence rearrangements (via homologous recombination events) express a fluorescent protein, enabling fluorescent labeling of phenotypically normal cells. Here, we  ...[more]

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