“Beyond transcription: How post‐transcriptional mechanisms drive neural crest<scp>EMT</scp>”

Guzman‐Espinoza, Mariann; Kim, Minyoung; Ow, Cindy; Hutchins, Erica J.

doi:10.1002/dvg.23553

Genesis

2023

DOI: 10.1002/dvg.23553

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“Beyond transcription: How post‐transcriptional mechanisms drive neural crestEMT”

Mariann Guzman‐Espinoza,

Minyoung Kim,

Cindy Ow

et al.

Abstract: SummaryThe neural crest is a stem cell population that originates from the ectoderm during the initial steps of nervous system development. Neural crest cells delaminate from the neuroepithelium by undergoing a spatiotemporally regulated epithelial‐mesenchymal transition (EMT) that proceeds in a coordinated wave head‐to‐tail to exit from the neural tube. While much is known about the transcriptional programs and membrane changes that promote EMT, there are additional levels of gene expression control that neur… Show more

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2024

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Cited by 2 publications

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Post-transcriptional regulation as a conserved driver of neural crest and cancer-cell migration

Rajan,

Hutchins

2024

Current Opinion in Cell Biology

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Post-transcriptional regulation as a conserved driver of neural crest and cancer-cell migration

Rajan,

Hutchins

2024

Current Opinion in Cell Biology

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The Vimentin-Targeting Drug ALD-R491 Partially Reverts the Epithelial-to-Mesenchymal Transition and Vimentin Interactome of Lung Cancer Cells

Rosier,

Krstulović,

Kim

et al. 2024

Cancers

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Background: The epithelial-to-mesenchymal transition (EMT) is a common feature in early cancer invasion. Increased vimentin is a canonical marker of the EMT; however, the role of vimentin in EMT remains unknown. Methods: To clarify this, we induced EMT in lung cancer cells with TGF-β1, followed by treatment with the vimentin-targeting drug ALD-R491, live-cell imaging, and quantitative proteomics. Results: We identified 838 proteins in the intermediate filament fraction of cells. TGF-β1 treatment increased the proportion of vimentin in this fraction and the levels of 24 proteins. Variants of fibronectin showed the most pronounced increase (137-fold), followed by regulators of the cytoskeleton, cell motility, and division, such as the mRNA-splicing protein SON. TGF-β1 increased cell spreading and cell migration speed, and changed a positive correlation between cell migration speed and persistence to negative. ALD-R491 reversed these mesenchymal phenotypes to epithelial and the binding of RNA-binding proteins, including SON. Conclusions: These findings present many new interactors of intermediate filaments, describe how EMT and vimentin filament dynamics influence the intermediate filament interactome, and present ALD-R491 as a possible EMT-inhibitor. The observations support the hypothesis that the dynamic turnover of vimentin filaments and their interacting proteins govern mesenchymal cell migration, EMT, cell invasion, and cancer metastasis.

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“Beyond transcription: How post‐transcriptional mechanisms drive neural crestEMT”

Cited by 2 publications

References 79 publications

Post-transcriptional regulation as a conserved driver of neural crest and cancer-cell migration

Post-transcriptional regulation as a conserved driver of neural crest and cancer-cell migration

The Vimentin-Targeting Drug ALD-R491 Partially Reverts the Epithelial-to-Mesenchymal Transition and Vimentin Interactome of Lung Cancer Cells

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