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Using CRISPR-Cas9 To Explore Epigenetic Editing in Different Tumor Settings
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Using CRISPR-Cas9 To Explore Epigenetic Editing in Different Tumor Settings

Using CRISPR-Cas9 To Explore Epigenetic Editing in Different Tumor Settings
News

Using CRISPR-Cas9 To Explore Epigenetic Editing in Different Tumor Settings

Credit: Arek Socha/ Pixabay
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Oncotarget published "Diverse transcriptional regulation and functional effects revealed by CRISPR/Cas9-directed epigenetic editing" which reported that the adequate functioning of this process is indispensable for tissue homeostasis and cell fate determination. Here, the authors have taken advantage of CRISPR/dCas9 technology adapted for epigenetic editing through site-specific targeting of DNA methylation to characterize the transcriptional changes of the candidate gene and the functional effects on cell fate in different tumor settings.

Strikingly, this modification led to opposing expression profiles of the target gene in different cancer cell models and affected the expression of mesenchymal genes CDH1, VIM1, TGFB1 and apoptotic marker BCL2. Moreover, methylation-induced changes in expression profiles was also accompanied by a phenotypic switch in cell migration and cell morphology.

Dr. Miguel Vizoso and Dr. Jacco van Rheenen said, "Increasing number of studies report that proteins do not work in isolation but are part of a complex network of biomolecules, that may differ at various settings (e.g., different tumor types [1, 2] or stages of tumor progression."

Various examples of genes with opposing roles, e. DNA methylation may be one of the drivers of these opposing roles. For example, the same DNA methylation mark can lead to very opposite outcomes depending on which allele is tagged with this modification. Here they test whether the same epigenetic modification could also orchestrate molecular and phenotypic diversity in non-imprinted genes.

In this study, the authors focus on the insulin-like growth factor binding protein 2, a recently discovered multitasked gene regulated by DNA methylation which has also been reported to function both as a tumor-promoting and -suppressing gene. The diverse phenotypes upon single alterations in cancer driver genes may simply reflect the various roles of these genes in distinct signaling pathways, but it may also be caused by differential gene expression patterns of these genes.

DNA methylation comprises a significant mechanism involved in transcriptomic regulation based on the occupancy of CpG dinucleotides by 5′-methylcytosine chemical groups. Whether the consequence of DNA methylation on the expression of the target genes and cell fate is uniform regardless of the cell type or can drive to opposing phenotypes depending on the tumor cell context is still unknown, and it has remained elusive for many years due to the lack of technologies to target DNA methylation in-situ.

The Vizoso/van Rheenen Research Team concluded in their Oncotarget Research Output, "our study highlights the significance of exploring the effects of the epigenetic editing in different tumor settings by revealing the important consequences that this can have on transcriptomic regulation and tumor cell behavior."

Reference:
 Vizoso M, Rheenen J van. Diverse transcriptional regulation and functional effects revealed by CRISPR/Cas9-directed epigenetic editing. Oncotarget. 2021;12(17):1651-1662. doi: 10.18632/oncotarget.28037

This article has been republished from the following materials. Note: material may have been edited for length and content. For further information, please contact the cited source.


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