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5. Long Non-coding RNA MIAT Controls Advanced Atherosclerotic Lesion Formation and Plaque Destabilization

Author

Fasolo, Francesca, Jin, Hong, Winski, Greg, Chernogubova, Ekaterina, Pauli, Jessica, Winter, Hanna, Li, Daniel Y., Glukha, Nadiya, Bauer, Sabine, Metschl, Susanne, Wu, Zhiyuan, Koschinsky, Marlys L., Reilly, Muredach, Pelisek, Jaroslav, Kempf, Wolfgang, Eckstein, Hans-Henning, Soehnlein, Oliver, Matic, Ljubica, Hedin, Ulf, Bäcklund, Alexandra, Bergmark, Claes, Paloschi, Valentina, and Maegdefessel, Lars more...

Published
2021
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6. Long Noncoding RNA MIAT Controls Advanced Atherosclerotic Lesion Formation and Plaque Destabilization

Author

Fasolo, Francesca, Jin, Hong, Winski, Greg, Chernogubova, Ekaterina, Pauli, Jessica, Winter, Hanna, Li, Daniel Y., Glukha, Nadiya, Bauer, Sabine, Metschl, Susanne, Wu, Zhiyuan, Koschinsky, Marlys L., Reilly, Muredach, Pelisek, Jaroslav, Kempf, Wolfgang, Eckstein, Hans-Henning, Soehnlein, Oliver, Matic, Ljubica, Hedin, Ulf, Bäcklund, Alexandra, Bergmark, Claes, Paloschi, Valentina, and Maegdefessel, Lars more...

Published
2021
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8. Targeting long non-coding RNANUDT6enhances smooth muscle cell survival and limits vascular disease progression

Author

Winter, Hanna, primary, Winski, Greg, additional, Busch, Albert, additional, Chernogubova, Ekaterina, additional, Fasolo, Francesca, additional, Wu, Zhiyuan, additional, Bäcklund, Alexandra, additional, Khomtchouk, Bohdan B., additional, Van Booven, Derek J., additional, Sachs, Nadja, additional, Eckstein, Hans-Henning, additional, Wittig, Ilka, additional, Boon, Reinier A., additional, Jin, Hong, additional, and Maegdefessel, Lars, additional more...

Published
2022
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10. The RNA‐binding protein ILF3 binds to transposable element sequences in SINEUP lncRNAs

Author

Fasolo, Francesca, primary, Patrucco, Laura, additional, Volpe, Massimiliano, additional, Bon, Carlotta, additional, Peano, Clelia, additional, Mignone, Flavio, additional, Carninci, Piero, additional, Persichetti, Francesca, additional, Santoro, Claudio, additional, Zucchelli, Silvia, additional, Sblattero, Daniele, additional, Sanges, Remo, additional, Cotella, Diego, additional, and Gustincich, Stefano, additional more...

Published
2019
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13. Identification of functional features of synthetic SINEUPs, antisense lncRNAs that specifically enhance protein translation

Author

Takahashi, Hazuki, primary, Kozhuharova, Ana, additional, Sharma, Harshita, additional, Hirose, Masakazu, additional, Ohyama, Takako, additional, Fasolo, Francesca, additional, Yamazaki, Toshio, additional, Cotella, Diego, additional, Santoro, Claudio, additional, Zucchelli, Silvia, additional, Gustincich, Stefano, additional, and Carninci, Piero, additional more...

Published
2018
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15. Engineering mammalian cell factories with SINEUP noncoding RNAs to improve translation of secreted proteins

Author

Patrucco, Laura, primary, Chiesa, Andrea, additional, Soluri, Maria Felicia, additional, Fasolo, Francesca, additional, Takahashi, Hazuki, additional, Carninci, Piero, additional, Zucchelli, Silvia, additional, Santoro, Claudio, additional, Gustincich, Stefano, additional, Sblattero, Daniele, additional, and Cotella, Diego, additional more...

Published
2015
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16. SINEUPs are modular antisense long non-coding RNAs that increase synthesis of target proteins in cells

Author

Zucchelli, Silvia, primary, Fasolo, Francesca, additional, Russo, Roberta, additional, Cimatti, Laura, additional, Patrucco, Laura, additional, Takahashi, Hazuki, additional, Jones, Michael H., additional, Santoro, Claudio, additional, Sblattero, Daniele, additional, Cotella, Diego, additional, Persichetti, Francesca, additional, Carninci, Piero, additional, and Gustincich, Stefano, additional more...

Published
2015
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17. Epstein-Barr virus-specific intrathecal oligoclonal IgG production in relapsing-remitting multiple sclerosis is limited to a subset of patients and is composed of low-affinity antibodies

Author

Castellazzi, Massimiliano, primary, Contini, Carlo, additional, Tamborino, Carmine, additional, Fasolo, Francesca, additional, Roversi, Gloria, additional, Seraceni, Silva, additional, Rizzo, Roberta, additional, Baldi, Eleonora, additional, Tola, Maria Rosaria, additional, Bellini, Tiziana, additional, Granieri, Enrico, additional, and Fainardi, Enrico, additional more...

Published
2014
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18. Targeting long non-coding RNA NUDT6enhances smooth muscle cell survival and limits vascular disease progression

Author

Winter, Hanna, Winski, Greg, Busch, Albert, Chernogubova, Ekaterina, Fasolo, Francesca, Wu, Zhiyuan, Bäcklund, Alexandra, Khomtchouk, Bohdan B., Van Booven, Derek J., Sachs, Nadja, Eckstein, Hans-Henning, Wittig, Ilka, Boon, Reinier A., Jin, Hong, and Maegdefessel, Lars more...

Abstract

Long non-coding RNAs (lncRNAs) orchestrate various biological processes and regulate the development of cardiovascular diseases. Their potential therapeutic benefit to tackle disease progression has recently been extensively explored. Our study investigates the role of lncRNA Nudix Hydrolase 6 (NUDT6)and its antisense target fibroblast growth factor 2 (FGF2)in two vascular pathologies: abdominal aortic aneurysms (AAA) and carotid artery disease. Using tissue samples from both diseases, we detected a substantial increase of NUDT6,whereas FGF2was downregulated. Targeting Nudt6 in vivowith antisense oligonucleotides in three murine and one porcine animal model of carotid artery disease and AAA limited disease progression. Restoration of FGF2 upon Nudt6knockdown improved vessel wall morphology and fibrous cap stability. Overexpression of NUDT6 in vitroimpaired smooth muscle cell (SMC) migration, while limiting their proliferation and augmenting apoptosis. By employing RNA pulldown followed by mass spectrometry as well as RNA immunoprecipitation, we identified Cysteine and Glycine Rich Protein 1 (CSRP1) as another direct NUDT6interaction partner, regulating cell motility and SMC differentiation. Overall, the present study identifies NUDT6as a well-conserved antisense transcript of FGF2. NUDT6silencing triggers SMC survival and migration and could serve as a novel RNA-based therapeutic strategy in vascular diseases. more...

Published
2023
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19. SINEUPs are modular antisense long non-coding RNAs that increase synthesis of target proteins in cells

Author

Silvia eZucchelli, Francesca eFasolo, Roberta eRusso, Laura eCimatti, Laura ePatrucco, Hazuki eTakahashi, Michael H. Jones, Claudio eSantoro, Daniele eSblattero, Diego eCotella, Francesca ePersichetti, Piero eCarninci, Stefano eGustincich, Zucchelli, Silvia, Fasolo, Francesca, Russo, Roberta, Cimatti, Laura, Patrucco, Laura, Takahashi, Hazuki, Jones, Michael H., Santoro, Claudio, Sblattero, Daniele, Cotella, Diego, Persichetti, Francesca, Carninci, Piero, and Gustincich, Stefano more...

Subjects
Antisense, Cell lines, Long non-coding RNA, Protein expression, SINEUP, Cellular and Molecular Neuroscience, antisense, Computational biology, cell lines, Biology, lcsh:RC321-571, Settore BIO/13 - Biologia Applicata, Sense (molecular biology), Enhancer, Gene, protein expression, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Original Research, Genetics, Messenger RNA, long non-coding RNA, Effector, RNA, Translation (biology), Cell line, Neuroscience
Abstract

Despite recent efforts in discovering novel long non-coding RNAs (lncRNAs) and unveiling their functions in a wide range of biological processes their applications as biotechnological or therapeutic tools are still at their infancy. We have recently shown that AS Uchl1, a natural lncRNA antisense to the Parkinson's disease-associated gene Ubiquitin carboxyl-terminal esterase L1 (Uchl1), is able to increase UchL1 protein synthesis at post-transcriptional level. Its activity requires two RNA elements: an embedded inverted SINEB2 sequence to increase translation and the overlapping region to target its sense mRNA. This functional organization is shared with several mouse lncRNAs antisense to protein coding genes. The potential use of AS Uchl1-derived lncRNAs as enhancers of target mRNA translation remains unexplored. Here we define AS Uchl1 as the representative member of a new functional class of natural and synthetic antisense lncRNAs that activate translation. We named this class of RNAs SINEUPs for their requirement of the inverted SINEB2 sequence to UP-regulate translation in a gene-specific manner. The overlapping region is indicated as the Binding Doman (BD) while the embedded inverted SINEB2 element is the Effector Domain (ED). By swapping BD, synthetic SINEUPs are designed targeting mRNAs of interest. SINEUPs function in an array of cell lines and can be efficiently directed toward N-terminally tagged proteins. Their biological activity is retained in a miniaturized version within the range of small RNAs length. Its modular structure was exploited to successfully design synthetic SINEUPs targeting endogenous Parkinson's disease-associated DJ-1 and proved to be active in different neuronal cell lines. In summary, SINEUPs represent the first scalable tool to increase synthesis of proteins of interest. We propose SINEUPs as reagents for molecular biology experiments, in protein manufacturing as well as in therapy of haploinsufficiencies. more...

Published
2015
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20. SINEUPs: A new class of natural and synthetic antisense long non-coding RNAs that activate translation

Author

M. H. Jones, Hazuki Takahashi, Piero Carninci, Remo Sanges, Francesca Fasolo, Daniele Sblattero, Francesca Persichetti, Claudia Carrieri, Claudio Santoro, Stefano Gustincich, Diego Cotella, Laura Cimatti, Silvia Zucchelli, Zucchelli, S., Cotella, D., Takahashi, H., Carrieri, C., Cimatti, L., Fasolo, Francesca, Jones, M. H., Sblattero, Daniele, Sanges, R., Santoro, C., Persichetti, Francesca, Carninci, Piero, and Gustincich, Stefano more...

Subjects
Translation, protein synthesis, transposon, complementary RNA, Embedded repetitive element, Genome, Transcription (biology), Settore BIO/13 - Biologia Applicata, Sense (molecular biology), Protein biosynthesis, molecular biology, Point-of-View, RNA structure, Genetics, messenger RNA, article, RNA therapeutic, Embedded repetitive elements, protein function, Long non-coding RNA, Antisense RNA, unclassified drug, genetic code, Antisense transcript, RNA, Long Noncoding, Transposable element, Transcripts NATs, long untranslated RNA, Computational biology, Biology, translation initiation, SINEUP, Protein production, Animals, Humans, RNA, Antisense, RNA, Messenger, human, Gene, Molecular Biology, protein expression, Repetitive Sequences, Nucleic Acid, Binding Sites, nonhuman, Models, Genetic, Antisense transcript, Embedded repetitive elements, Long non-coding RNA, Protein production, RNA therapeutics, SINEUP, Translation, complementary RNA, long untranslated RNA, messenger RNA, protein, SINEUP, unclassified drug, article, gene expression, genetic code, haploinsufficiency, human, molecular biology, nonhuman, protein expression, protein function, protein synthesis, RNA structure, translation initiation, transposon, upregulation, RNA therapeutics, Cell Biology, haploinsufficiency, Genes, Protein Biosynthesis, gene expression, protein, upregulation
Abstract

Over the past 10 years, it has emerged that pervasive transcription in mammalian genomes has a tremendous impact on several biological functions. Most of transcribed RNAs are lncRNAs and repetitive elements. In this review, we will detail the discovery of a new functional class of natural and synthetic antisense lncRNAs that stimulate translation of sense mRNAs. These molecules have been named SINEUPs since their function requires the activity of an embedded inverted SINEB2 sequence to UP-regulate translation. Natural SINEUPs suggest that embedded Transposable Elements may represent functional domains in long non-coding RNAs. Synthetic SINEUPs may be designed by targeting the antisense sequence to the mRNA of choice representing the first scalable tool to increase protein synthesis of potentially any gene of interest. We will discuss potential applications of SINEUP technology in the field of molecular biology experiments, in protein manufacturing as well as in therapy of haploinsufficiencies. more...

Published
2015

21. Engineering mammalian cell factories with SINEUP noncoding RNAs to improve translation of secreted proteins

Author

Diego Cotella, Andrea Chiesa, Maria Felicia Soluri, Hazuki Takahashi, Silvia Zucchelli, Laura Patrucco, Piero Carninci, Francesca Fasolo, Stefano Gustincich, Daniele Sblattero, Claudio Santoro, Patrucco, Laura, Chiesa, Andrea, Soluri, Maria Felicia, Fasolo, Francesca, Takahashi, Hazuki, Carninci, Piero, Zucchelli, Silvia, Santoro, Claudio, Gustincich, Stefano, Sblattero, Daniele, and Cotella, Diego more...

Subjects
Signal peptide, Cell factory, Luciferase assay, Molecular Sequence Data, Computational biology, CHO Cells, Biology, Cricetulus, Genetic, SINEUP, Settore BIO/13 - Biologia Applicata, Sense (molecular biology), Protein biosynthesis, Genetics, Animals, Humans, RNA, Antisense, Antisense, Cell Engineering, CHO cell, Secretory Pathway, Protein Biosynthesi, Base Sequence, Animal, Chinese hamster ovary cell, Medicine (all), RNA, Elastin, Long noncoding RNA, Serum-free, Cell Adhesion Molecules, RNA, Long Noncoding, Recombinant Proteins, Protein Biosynthesis, Translation (biology), General Medicine, Recombinant Protein, Long non-coding RNA, Cell Adhesion Molecule, Long Noncoding, Cricetulu, Function (biology), Human
Abstract

Whenever the function of a recombinant protein depends on post-translational processing, mammalian cells become an indispensable tool for their production. This is particularly true for biologics and therapeutic monoclonal antibodies (MAbs). Despite some drawbacks, Chinese Hamster Ovary (CHO) cells are the workhorse for MAbs production in academia and industry. Several methodologies have been adopted to improve expression and stability, including methods based on selective pressure or cell engineering. We have previously identified SINEUPs as a new functional class of natural and synthetic long non-coding RNAs that through the activity of an inverted SINEB2 element are able to promote translation of partially overlapping sense coding mRNAs. Here we show that by taking advantage of their modular structure, synthetic SINEUPs can be designed to increase production of secreted proteins. Furthermore, by experimentally validating antisense to elastin (AS-eln) RNA as a natural SINEUP, we show that SINEUP-mediated control may target extracellular proteins. These results lead us to propose synthetic SINEUPs as new versatile tools to optimize production of secreted proteins in manufacturing pipelines and natural SINEUPs as new regulatory RNAs in the secretory pathways. more...

Published
2015