The Noncoding RNA MALAT1 Is a Critical Regulator of the Metastasis Phenotype of Lung Cancer Cells
Tony Gutschner,Monika Hämmerle,Moritz Eißmann,Jeff Hsu,Youngsoo Kim,Gene Hung,Alexey S. Revenko,Gayatri Arun,Marion Stentrup,Matthias Groß,Martin Zörnig,A. Robert MacLeod,David L. Spector,Sven Diederichs +13 more
TLDR
A loss-of-function model unravels the active function of MALAT1 as a regulator of gene expression governing hallmarks of lung cancer metastasis with this ncRNA serving as both predictive marker and therapeutic target.Abstract:
The long non-coding RNA MALAT1, also known as MALAT-1 or NEAT2, is a highly conserved nuclear ncRNA and a predictive marker for metastasis development in lung cancer. To uncover its functional importance, we developed a MALAT1 knockout model in human lung tumor cells by genomically integrating RNA destabilizing elements using Zinc Finger Nucleases. The achieved 1000-fold MALAT1 silencing provides a unique loss-of-function model. Proposed mechanisms of action include regulation of splicing or gene expression. In lung cancer, MALAT1 does not alter alternative splicing but actively regulates gene expression including a set of metastasis-associated genes. Consequently, MALAT1-deficient cells are impaired in migration and form fewer tumor nodules in a mouse xenograft. Antisense oligonucleotides blocking MALAT1 prevent metastasis formation after tumor implantation. Thus, targeting MALAT1 with antisense oligonucleotides provides a potential therapeutic approach to prevent lung cancer metastasis with MALAT1 serving as both, predictive marker and therapeutic target. Lastly, regulating gene expression, but not alternative splicing is the critical function of MALAT1 in lung cancer metastasis. In summary, ten years after the discovery of the lncRNA MALAT1 as a biomarker for lung cancer metastasis, our loss-of-function model unravels the active function of MALAT1 as a regulator of gene expression governing hallmarks of lung cancer metastasis.read more
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LncRNA MALAT1 Promotes Lung Cancer Proliferation and Gefitinib Resistance by Acting as a miR-200a Sponge
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LncRNAs as Chromatin Regulators in Cancer: From Molecular Function to Clinical Potential.
TL;DR: It is shown that aberrant expression of lncRNAs that interact with epigenetic modifiers can cause severe epigenetic disruption and is thus is closely associated with altered gene function, cellular dysregulation, and malignant transformation.
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MiR-320a-3p/ELF3 axis regulates cell metastasis and invasion in non-small cell lung cancer via PI3K/Akt pathway
Wen Zhao,Qiang Sun,Zepeng Yu,Shuai Mao,Yingkang Jin,Jiajun Li,Zhiyi Jiang,Yongqiang Zhang,Mian Chen,Peiran Chen,Dongdong Chen,Hailin Xu,Shangwei Ding,Zhiqi Yu +13 more
TL;DR: There is evidence that miR-320a-3p might work as a tumor suppressor in NSCLC both in vivo and in vitro, and data from luciferase reporter assay proved the direct binding of miR+3p on the 3'UTR region of ELF3 mRNA, this could further decrease ELF 3 expression transcriptionally.
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The emerging role of long non-coding RNAs in cutaneous melanoma
TL;DR: Recent data highlighting the importance of lncRNAs in the biology of melanoma and their potential utility as biomarkers and therapeutic targets are summarized.
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Long non-coding RNA growth arrest specific transcript 5 acts as a tumour suppressor in colorectal cancer by inhibiting interleukin-10 and vascular endothelial growth factor expression.
Yuan Li,Yuan Li,Yan Li,Shengkai Huang,Kun He,Mei Zhao,Hong Lin,Dongdong Li,J M Qian,Caihong Zhou,Yuhua Chen,Changzhi Huang +11 more
TL;DR: A novel mechanism of lncRNA GAS5 in suppressing colorectal carcinogenesis is delineated, and the cytokines IL-10 and VEGF-A inhibited by GAS 5 may provide targets for lnc RNA-based therapies for CRC.
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TL;DR: Detailed polling of transcription start and termination sites and analysis of previously unidentified full-length complementary DNAs derived from the mouse genome provide a comprehensive platform for the comparative analysis of mammalian transcriptional regulation in differentiation and development.
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TL;DR: Three potentially functional classes of RNAs have been identified, two of which are syntenically conserved and correlate with the expression state of protein-coding genes and support a highly interleaved organization of the human transcriptome.
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