The long noncoding RNA NEAT1_1 is seemingly dispensable for normal tissue homeostasis and cancer cell growth

NEAT1 is one of the most studied lncRNAs, in part because its silencing in mice causes defects in mammary gland development and corpus luteum formation and protects them from skin cancer development. Moreover, depleting NEAT1 in established cancer cell lines reduces growth and sensitizes cells to DNA damaging agents. However, NEAT1 produces two isoforms and because the short isoform, NEAT1_1, completely overlaps the 5′ part of the long NEAT1_2 isoform; the respective contributions of each of the isoforms to these phenotypes has remained unclear. Whereas NEAT1_1 is highly expressed in most tissues, NEAT1_2 is the central architectural component of paraspeckles, which are nuclear bodies that assemble in specific tissues and cells exposed to various forms of stress. Using dual RNA-FISH to detect both NEAT1_1 outside of the paraspeckles and NEAT1_2/NEAT1 inside this nuclear body, we report herein that NEAT1_1 levels are dynamically regulated during the cell cycle and targeted for degradation by the nuclear RNA exosome. Unexpectedly, however, cancer cells engineered to lack NEAT1_1, but not NEAT1_2, do not exhibit cell cycle defects. Moreover, Neat1_1-specific knockout mice do not exhibit the phenotypes observed in Neat1-deficient mice. We propose that NEAT1 functions are mainly, if not exclusively, attributable to NEAT1_2 and, by extension, to paraspeckles.

[1]  T. Chiba,et al.  Forced isoform switching of Neat1_1 to Neat1_2 leads to the loss of Neat1_1 and the hyperformation of paraspeckles but does not affect the development and growth of mice , 2019, bioRxiv.

[2]  D. Cacchiarelli,et al.  Cross-Regulation between TDP-43 and Paraspeckles Promotes Pluripotency-Differentiation Transition , 2019, Molecular cell.

[3]  Piero Carninci,et al.  AGO1 in association with NEAT1 lncRNA contributes to nuclear and 3D chromatin architecture in human cells , 2019, bioRxiv.

[4]  M. Zernicka-Goetz,et al.  CARM1 and Paraspeckles Regulate Pre-implantation Mouse Embryo Development , 2018, Cell.

[5]  Erik Knutsen,et al.  The long noncoding RNA NEAT1 and nuclear paraspeckles are up-regulated by the transcription factor HSF1 in the heat shock response , 2018, The Journal of Biological Chemistry.

[6]  Ling-Ling Chen,et al.  Genome-wide screening of NEAT1 regulators reveals cross-regulation between paraspeckles and mitochondria , 2018, Nature Cell Biology.

[7]  Yunlong Liu,et al.  Long noncoding RNA NEAT1 (nuclear paraspeckle assembly transcript 1) is critical for phenotypic switching of vascular smooth muscle cells , 2018, Proceedings of the National Academy of Sciences.

[8]  K. Flaherty,et al.  Toward Minimal Residual Disease-Directed Therapy in Melanoma , 2018, Cell.

[9]  C. Bond,et al.  Functional Domains of NEAT1 Architectural lncRNA Induce Paraspeckle Assembly through Phase Separation. , 2018, Molecular cell.

[10]  T. Jensen,et al.  The RNA Exosome Adaptor ZFC3H1 Functionally Competes with Nuclear Export Activity to Retain Target Transcripts , 2018, Cell reports.

[11]  C. Bond,et al.  Paraspeckles: Where Long Noncoding RNA Meets Phase Separation. , 2017, Trends in biochemical sciences.

[12]  Kankan Wang,et al.  Pan-cancer analysis of long non-coding RNA NEAT1 in various cancers , 2017, Genes & diseases.

[13]  Gene W. Yeo,et al.  NEAT1 Scaffolds RNA Binding Proteins and the Microprocessor to Globally Enhance Pri-miRNA Processing , 2017, Nature Structural &Molecular Biology.

[14]  O. Schwartz,et al.  HEXIM1 and NEAT1 Long Non-coding RNA Form a Multi-subunit Complex that Regulates DNA-Mediated Innate Immune Response. , 2017, Molecular cell.

[15]  Y. Sasaki,et al.  Long non‐coding RNA NEAT1 is a transcriptional target of p53 and modulates p53‐induced transactivation and tumor‐suppressor function , 2017, International journal of cancer.

[16]  A. Harvey,et al.  Functional dissection of NEAT1 using genome editing reveals substantial localization of the NEAT1_1 isoform outside paraspeckles , 2017, RNA.

[17]  J. Rinn,et al.  Neat1 is a p53-inducible lincRNA essential for transformation suppression , 2017, Genes & development.

[18]  T. Takumi,et al.  Unusual semi‐extractability as a hallmark of nuclear body‐associated architectural noncoding RNAs , 2017, The EMBO journal.

[19]  W. Wu,et al.  NEAT1: A novel cancer‐related long non‐coding RNA , 2017, Cell proliferation.

[20]  Xingan Wu,et al.  The Long Noncoding RNA NEAT1 Exerts Antihantaviral Effects by Acting as Positive Feedback for RIG-I Signaling , 2017, Journal of Virology.

[21]  C. Lima,et al.  Targeting RNA for processing or destruction by the eukaryotic RNA exosome and its cofactors. , 2017, Genes & development.

[22]  Yong-jie Xu,et al.  The Cell Killing Mechanisms of Hydroxyurea , 2016, Genes.

[23]  Jinhua Lu,et al.  NEAT1 modulates herpes simplex virus-1 replication by regulating viral gene transcription , 2016, Cellular and Molecular Life Sciences.

[24]  R. Kingston,et al.  Structural, super-resolution microscopy analysis of paraspeckle nuclear body organization , 2016, The Journal of cell biology.

[25]  J. Franc,et al.  Circadian RNA expression elicited by 3’-UTR IRAlu-paraspeckle associated elements , 2016, eLife.

[26]  S. Aerts,et al.  p53 induces formation of NEAT1 lncRNA-containing paraspeckles that modulate replication stress response and chemosensitivity , 2016, Nature Medicine.

[27]  Howard Y. Chang,et al.  Unique features of long non-coding RNA biogenesis and function , 2015, Nature Reviews Genetics.

[28]  A. Jauch,et al.  p53-dependent non-coding RNA networks in chronic lymphocytic leukemia , 2015, Leukemia.

[29]  Y. Ohkawa,et al.  SWI/SNF chromatin-remodeling complexes function in noncoding RNA-dependent assembly of nuclear bodies , 2015, Proceedings of the National Academy of Sciences.

[30]  Ye Xu,et al.  Protein arginine methyltransferase CARM1 attenuates the paraspeckle-mediated nuclear retention of mRNAs containing IRAlus , 2015, Genes & development.

[31]  Shinichi Nakagawa,et al.  The long noncoding RNA Neat1 is required for mammary gland development and lactation , 2014, RNA.

[32]  Eiki Takahashi,et al.  The lncRNA Neat1 is required for corpus luteum formation and the establishment of pregnancy in a subpopulation of mice , 2014, Development.

[33]  F Buffa,et al.  Tumor hypoxia induces nuclear paraspeckle formation through HIF-2α dependent transcriptional activation of NEAT1 leading to cancer cell survival , 2014, Oncogene.

[34]  Eugenia G. Giannopoulou,et al.  The oestrogen receptor alpha-regulated lncRNA NEAT1 is a critical modulator of prostate cancer , 2014, Nature Communications.

[35]  Michael Y Tolstorukov,et al.  The long noncoding RNAs NEAT1 and MALAT1 bind active chromatin sites. , 2014, Molecular cell.

[36]  Yutaka Suzuki,et al.  Long noncoding RNA NEAT1-dependent SFPQ relocation from promoter region to paraspeckle mediates IL8 expression upon immune stimuli. , 2014, Molecular cell.

[37]  Takahide Yokoi,et al.  NEAT1 long noncoding RNA regulates transcription via protein sequestration within subnuclear bodies , 2014, Molecular biology of the cell.

[38]  K. Jeang,et al.  NEAT1 Long Noncoding RNA and Paraspeckle Bodies Modulate HIV-1 Posttranscriptional Expression , 2013, mBio.

[39]  N. Goshima,et al.  Alternative 3′‐end processing of long noncoding RNA initiates construction of nuclear paraspeckles , 2012, The EMBO journal.

[40]  S. Nakagawa,et al.  Paraspeckles are subpopulation-specific nuclear bodies that are not essential in mice , 2011, The Journal of cell biology.

[41]  D. Spector,et al.  Direct Visualization of the Co-transcriptional Assembly of a Nuclear Body by Noncoding RNAs , 2010, Nature Cell Biology.

[42]  A. Fox,et al.  Highly Ordered Spatial Organization of the Structural Long Noncoding NEAT1 RNAs within Paraspeckle Nuclear Bodies , 2010, Molecular biology of the cell.

[43]  G. Carmichael,et al.  Altered nuclear retention of mRNAs containing inverted repeats in human embryonic stem cells: functional role of a nuclear noncoding RNA. , 2009, Molecular cell.

[44]  E. Andrulis,et al.  Core exosome-independent roles for Rrp6 in cell cycle progression. , 2009, Molecular biology of the cell.

[45]  John N. Hutchinson,et al.  An architectural role for a nuclear noncoding RNA: NEAT1 RNA is essential for the structure of paraspeckles. , 2009, Molecular cell.

[46]  T. Mituyama,et al.  MENε/β noncoding RNAs are essential for structural integrity of nuclear paraspeckles , 2009, Proceedings of the National Academy of Sciences.

[47]  C. Maki,et al.  Transient nutlin-3a treatment promotes endoreduplication and the generation of therapy-resistant tetraploid cells. , 2008, Cancer research.

[48]  Š. Vaňáčová,et al.  The exosome and RNA quality control in the nucleus , 2007, EMBO reports.

[49]  P. Rangarajan,et al.  Identification and characterization of a virus-inducible non-coding RNA in mouse brain. , 2006, The Journal of general virology.

[50]  A. Lamond,et al.  P54nrb forms a heterodimer with PSP1 that localizes to paraspeckles in an RNA-dependent manner. , 2005, Molecular biology of the cell.

[51]  Michael Q. Zhang,et al.  Regulating Gene Expression through RNA Nuclear Retention , 2005, Cell.

[52]  Paulo P. Amaral,et al.  MEN epsilon/beta nuclear-retained non-coding RNAs are up-regulated upon muscle differentiation and are essential components of paraspeckles. , 2009, Genome research.