Summary of ssbd-repos-000254

SSBD:database
URL

Name
ssbd-repos-000254 (254-Seita-GrowthDyn)
URL
DOI
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Title
Time-lapse images of L1210 cells growth and division in the mammalian mother machine microfluidic device.
Description
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Submited Date
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Release Date
2023-08-29
Updated Date
-
License
Funding information
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File formats
Data size
248.4 GB

Organism
Mus musculus
Strain
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Cell Line
L1210 cell
Genes
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Proteins
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GO Molecular Function (MF)
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GO Biological Process (BP)
growth, cell division
GO Cellular Component (CC)
nucleus
Study Type
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Imaging Methods
time lapse microscopy

Method Summary
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Related paper(s)

Akihisa Seita, Hidenori Nakaoka, Reiko Okura, Yuichi Wakamoto (2021) Intrinsic growth heterogeneity of mouse leukemia cells underlies differential susceptibility to a growth-inhibiting anticancer drug., PloS one, Volume 16, Number 2, pp. e0236534

Published in 2021 (Electronic publication in Feb. 1, 2021, midnight )

(Abstract) Cancer cell populations consist of phenotypically heterogeneous cells. Growing evidence suggests that pre-existing phenotypic differences among cancer cells correlate with differential susceptibility to anticancer drugs and eventually lead to a relapse. Such phenotypic differences can arise not only externally driven by the environmental heterogeneity around individual cells but also internally by the intrinsic fluctuation of cells. However, the quantitative characteristics of intrinsic phenotypic heterogeneity emerging even under constant environments and their relevance to drug susceptibility remain elusive. Here we employed a microfluidic device, mammalian mother machine, for studying the intrinsic heterogeneity of growth dynamics of mouse lymphocytic leukemia cells (L1210) across tens of generations. The generation time of this cancer cell line had a distribution with a long tail and a heritability across generations. We determined that a minority of cell lineages exist in a slow-cycling state for multiple generations. These slow-cycling cell lineages had a higher chance of survival than the fast-cycling lineages under continuous exposure to the anticancer drug Mitomycin C. This result suggests that heritable heterogeneity in cancer cells' growth in a population influences their susceptibility to anticancer drugs.
(MeSH Terms)

Contact(s)
Yuichi Wakamoto, Hidenori Nakaoka
Organization(s)
The University of Tokyo, Kyoto University , Graduate School of Arts and Sciences , Graduate School of Biostudies
Image Data Contributors
Quantitative Data Contributors

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