Nicholas Sim scite author profile

It is becoming increasingly evident that the non-coding genome and transcriptome exert great influence over their coding counterparts through complex molecular interactions. Among non-coding RNAs (ncRNA), long non-coding RNAs (lncRNAs) in particular present increased potential to participate in dysregulation of post-transcriptional processes through both RNA and protein interactions. Since such processes can play key roles in contributing to cancer progression, it is desirable to continue expanding the search for lncRNAs impacting cancer through post-transcriptional mechanisms. The sheer diversity of mechanisms requires diverse resources and methods that have been developed and refined over the past decade. We provide an overview of computational resources as well as proven low-to-high throughput techniques to enable identification and characterisation of lncRNAs in their complex interactive contexts. As more cancer research strategies evolve to explore the non-coding genome and transcriptome, we anticipate this will provide a valuable primer and perspective of how these technologies have matured and will continue to evolve to assist researchers in elucidating post-transcriptional roles of lncRNAs in cancer.

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NF-κB/p52 augments ETS1 binding genome-wide to promote glioma progression

Sim

2023

Preprint

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Gliomas are among the most invasive and chemo-resistant cancers, making them challenging to treat. Chronic inflammation is one of the key drivers of glioma progression as it promotes the aberrant activation of inflammatory pathways such as NF-κB signalling which drives cancer cell invasion, angiogenesis and tissue remodelling. NF-κB factors typically dimerize with its own family members, but emerging evidence of their promiscuous interactions with other oncogenic factors have been reported to activate the transcription of new target genes and function. Here, we show that non-canonical NF-κB activation directly regulates p52 at the ETS1 promoter to activate its expression. This in turn impacts the genomic and transcriptional landscape of ETS1 in a glioma-specific manner. We further show that enhanced non-canonical NF-κB signalling promotes the co-localization of p52 and ETS1, resulting in the transcriptional activation of non-κB and/or non-ETS glioma-promoting genes. We conclude that p52-induced ETS1 overexpression in glioma cells remodels the genome-wide regulatory network of p52 and ETS1 to transcriptionally drive cancer progression.

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NF-κB/p52 augments ETS1 binding genome-wide to promote glioma progression

Sim

2023

Commun Biol

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Gliomas are highly invasive and chemoresistant cancers, making them challenging to treat. Chronic inflammation is a key driver of glioma progression as it promotes aberrant activation of inflammatory pathways such as NF-κB signalling, which drives cancer cell invasion and angiogenesis. NF-κB factors typically dimerise with its own family members, but emerging evidence of their promiscuous interactions with other oncogenic factors has been reported to promote transcription of new target genes and function. Here, we show that non-canonical NF-κB activation directly regulates p52 at the ETS1 promoter, activating its expression. This impacts the genomic and transcriptional landscape of ETS1 in a glioma-specific manner. We further show that enhanced non-canonical NF-κB signalling promotes the co-localisation of p52 and ETS1, resulting in transcriptional activation of non-κB and/or non-ETS glioma-promoting genes. We conclude that p52-induced ETS1 overexpression in glioma cells remodels the genome-wide regulatory network of p52 and ETS1 to transcriptionally drive cancer progression.

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Nicholas Sim

Approaches to Identify and Characterise the Post-Transcriptional Roles of lncRNAs in Cancer

NF-κB/p52 augments ETS1 binding genome-wide to promote glioma progression

NF-κB/p52 augments ETS1 binding genome-wide to promote glioma progression

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