Long Non-Coding RNA NEAT1 Is Upregulated By Heat Shock Factor 1 (HSF1) and Associated with Multiple Myeloma Progression

Watanabe, Saki; Oda, Tsukasa; Kuroda, Yuko; Homma, Kazuki; Murakami, Yuki; Ishihara, Rei; Yamane, Eiko; Sunaga, Masanobu; Kobayashi, Nobuhiko; Osaki, Yohei; Ishizaki, Takuma; Shimizu, Hiroaki; Koiso, Hiromi; Iriuchishima, Hirono; Takizawa, Makiko; Yokohama, Akihiko; Tsukamoto, Norifumi; Gotoh, Nanami; Ino, Rumi; Saitoh, Takayuki; Murakami, Hirokazu; Handa, Hiroshi

doi:10.1182/blood-2018-99-113720

Cited by 3 publications

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“…The ~20% proportion of SatIII‐nSBs still colocalizes with HSF1 in the colon and breast cancer cells suggests HSF1 potentiates lncRNAs to drive tumor cell growth. This appeared to be similar with the report HSF1 empowers NEAT1 to confer oncogenic activity (Watanabe et al, 2018). An HSF1 independent SatIII transcription however indicates involvement of other transcriptional factors (Sengupta et al, 2009; Valgardsdottir et al, 2008), or tumor‐specific kinases for the transcription of SatIII loci in human cancer cells.…”

Section: Discussionsupporting

confidence: 92%

Human satellite III long noncoding RNA imparts survival benefits to cancer cells

Chatterjee

Sengupta

2022

Cell Biology International

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Long noncoding RNAs (lncRNAs) are heterogeneous group of transcripts that lack coding potential and have essential roles in gene regulations. Recent days have seen an increasing association of noncoding RNAs with human diseases, especially cancers. One interesting group of noncoding RNAs strongly linked to cancers are heterochromatic repetitive Satellite RNAs. Satellite RNAs are transcribed from pericentromeric heterochromatic region of the human chromosomes. Satellite II RNA, most extensively studied, is upregulated in wide variety of epithelial cancer. Similarly, alpha satellite is over expressed in BRCA1‐deficient tumors. Though much is known about alpha satellites and SatII repeats, little is known about Satellite III (SatIII) lncRNAs in human cancers. SatIII repeats, though transcriptionally silent in normal conditions is actively transcribed under condition of stress, mainly heat shock. In this study, we show that colon and breast cancer cells aberrantly transcribes SatIII, in a heat shock factor I (HSF1)‐independent manner. Our study also reveals that, the overexpression of SatIII RNA favors cancer cell survival by overriding chemo drug‐induced cell death. Interestingly, knockdown of SatIII sensitizes cells toward chemotherapeutic drugs. This sensitization is possibly mediated by restoration of p53 protein expression that facilitates cell death. Heat shock however helps SatIII to continue with its pro‐cell survival function. Our results, therefore suggest SatIII to be an important regulator of human cancers. Induction of SatIII is not only a response to the oncogenic stress but also facilitates cancer progression by a distinct pathway that is different from heat stress pathway.

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Section: Discussionsupporting

confidence: 92%

Human satellite III long noncoding RNA imparts survival benefits to cancer cells

Chatterjee

Sengupta

2022

Cell Biology International

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HSP90 and Noncoding RNAs

Xu,

Qiao,

et al. 2023

DNA and Cell Biology

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Human Satellite III long non-coding RNA imparts survival benefits to cancer cells

Chatterjee

Sengupta

2021

Preprint

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Long non-coding RNAs are heterogeneous group of transcripts that lack coding potential and have crucial roles in gene regulations. Recent days have seen an increasing association of non-coding RNAs with human diseases, especially cancers. Satellite III (SatIII) lncRNAs are transcribed from pericentromeric heterochromatic region of the human chromosome. Though transcriptionally silent in normal conditions, SatIII is actively transcribed under condition of stress, mainly heat shock. SatII repeat, another component of pericentromeric region of human chromosome, has been associated with wide variety of epithelial cancer. Overexpression of Satellite RNAs induces breast cancer in mice. Though much is known about Satellite RNAs, which includes alpha satellites and SatII repeats, however little is known about SatIII in human cancers. Hence we directed our study to understand the role of human Satellite III repeats in cancerous conditions. In the present study, we show that colon and breast cancer cells transcribe SatIII independent of heat shock, in an HSF1-independent manner. Our study also reveals that, overexpression of SatIII RNA favours cancer cell survival by overriding chemo drug-induced cell death. Knockdown of SatIII sensitizes cells towards chemotherapeutic drugs. SatIII transcript knockdown restores the expression of p53 protein, which in turn facilitates cell death. Heat shock however helps SatIII to continue with its pro-cell survival function. Our results, therefore suggest SatIII to be an important regulator of human cancers. Induction of SatIII is not only a response to the oncogenic stress but also facilitates cancer progression by a distinct pathway that is different from heat stress pathway.

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Long Non-Coding RNA NEAT1 Is Upregulated By Heat Shock Factor 1 (HSF1) and Associated with Multiple Myeloma Progression

Cited by 3 publications

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Human satellite III long noncoding RNA imparts survival benefits to cancer cells

Human satellite III long noncoding RNA imparts survival benefits to cancer cells

HSP90 and Noncoding RNAs

Human Satellite III long non-coding RNA imparts survival benefits to cancer cells

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