Riboswitch-mediated Attenuation of Transgene Cytotoxicity Increases Adeno-associated Virus Vector Yields in HEK-293 Cells

Strobel, Benjamin; Klauser, Benedikt; Hartig, Jörg S.; Lamla, Thorsten; Gantner, Florian; Kreuz, Sebastian

doi:10.1038/mt.2015.123

Cited by 50 publications

(54 citation statements)

References 52 publications

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“…Using the Lipofectamine-3000 kit (Thermo Fisher Scientific), cells were transfected with 35 ng of plasmid DNA and subsequently supplied with stimulation media containing increasing amounts of tetracycline. In case of Gua-responsive constructs, cells were calcium-phosphate transfected by mixing 70 ng DNA with 10 µL 300 mmol/l CaCl 2 and 10 µL 2× HBS buffer (50 mmol/l HEPES, 280 mmol/l NaCl, 1.5 mmol/l Na 2 HPO 4 ) and adding 20 µL of this mix per well of a 96-well plate 3 . The media was changed to Gua-containing media approximately 4 h after addition of the transfection mix.…”

Section: Methodsmentioning

confidence: 99%

“…Self-cleavage within the 3′-UTR can be exploited for the post-transcriptional control of gene expression by decreasing mRNA stability via conditional poly(A) tail cleavage. Utilization of riboswitches to control gene expression has been demonstrated in cells [2][3][4] , C. elegans 5 and in a viral vectormediated fashion in mice 6,7 . In addition to ribozyme-based switches, further synthetic mechanisms for gene expression control have been described in recent years including splicing control 8 and microRNA switches 9 .…”

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confidence: 99%

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High-throughput identification of synthetic riboswitches by barcode-free amplicon-sequencing in human cells

et al. 2020

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Synthetic riboswitches mediating ligand-dependent RNA cleavage or splicing-modulation represent elegant tools to control gene expression in various applications, including nextgeneration gene therapy. However, due to the limited understanding of context-dependent structure-function relationships, the identification of functional riboswitches requires largescale-screening of aptamer-effector-domain designs, which is hampered by the lack of suitable cellular high-throughput methods. Here we describe a fast and broadly applicable method to functionally screen complex riboswitch libraries (~1.8 × 10 4 constructs) by cDNAamplicon-sequencing in transiently transfected and stimulated human cells. The selfbarcoding nature of each construct enables quantification of differential mRNA levels without additional pre-selection or cDNA-manipulation steps. We apply this method to engineer tetracycline-and guanine-responsive ON-and OFF-switches based on hammerhead, hepatitis-delta-virus and Twister ribozymes as well as U1-snRNP polyadenylation-dependent RNA devices. In summary, our method enables fast and efficient high-throughput riboswitch identification, thereby overcoming a major hurdle in the development cascade for therapeutically applicable gene switches.

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Section: Methodsmentioning

confidence: 99%

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confidence: 99%

High-throughput identification of synthetic riboswitches by barcode-free amplicon-sequencing in human cells

et al. 2020

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“…In contrast to the translational block imposed by the TRiP system described here, others have attempted to suppress vector transgene expression by utilizing transcriptional control293637 or through use of a ligand-induced riboswitch38. Employment of transcriptional repressor systems may be limited in the magnitude of repression due to upstream read-through from the 5′LTR during generation of full length packageable RNA (for example, retroviral vectors), or by ITR-driven genome replication (for example, AAV/Adeno vectors).…”

Section: Discussionmentioning

confidence: 99%

Enhancing titres of therapeutic viral vectors using the transgene repression in vector production (TRiP) system

et al. 2017

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A key challenge in the field of therapeutic viral vector/vaccine manufacturing is maximizing production. For most vector platforms, the ‘benchmark' vector titres are achieved with inert reporter genes. However, expression of therapeutic transgenes can often adversely affect vector titres due to biological effects on cell metabolism and/or on the vector virion itself. Here, we exemplify the novel ‘Transgene Repression In vector Production' (TRiP) system for the production of both RNA- and DNA-based viral vectors. The TRiP system utilizes a translational block of one or more transgenes by employing the bacterial tryptophan RNA-binding attenuation protein (TRAP), which binds its target RNA sequence close to the transgene initiation codon. We report enhancement of titres of lentiviral vectors expressing Cyclo-oxygenase-2 by 600-fold, and adenoviral vectors expressing the pro-apoptotic gene Bax by >150,000-fold. The TRiP system is transgene-independent and will be a particularly useful platform in the clinical development of viral vectors expressing problematic transgenes.

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“…Utilizing the HDV ribozyme as expression platform the group of Yokobayashi generated a NOR logic gate in mammalian cells by inserting theophylline‐ and guanine‐dependent HDV aptazymes into the 3′‐UTR of the reporter gene . The guanine switch was subsequently applied for optimizing transgene expression in an AAV construct . An alternative strategy to control gene expression in mammalian cells consists in coupling a ligand‐dependent HHR to a pri‐miRNA sequence .…”

Section: Artificial Ligand‐dependent Ribozymesmentioning

confidence: 99%

Ligand‐dependent ribozymes

Felletti

Hartig

2016

WIREs RNA

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The discovery of catalytic RNA (ribozymes) more than 30 years ago significantly widened the horizon of RNA-based functions in natural systems. Similarly to the activity of protein enzymes that are often modulated by the presence of an interaction partner, some examples of naturally occurring ribozymes are influenced by ligands that can either act as cofactors or allosteric modulators. Recent discoveries of new and widespread ribozyme motifs in many different genetic contexts point toward the existence of further ligand-dependent RNA catalysts. In addition to the presence of ligand-dependent ribozymes in nature, researchers have engineered ligand dependency into natural and artificial ribozymes. Because RNA functions can often be assembled in a truly modular way, many different systems have been obtained utilizing different ligand-sensing domains and ribozyme activities in diverse applications. We summarize the occurrence of ligand-dependent ribozymes in nature and the many examples realized by researchers that engineered ligand-dependent catalytic RNA motifs. We will also highlight methods for obtaining ligand dependency as well as discuss the many interesting applications of ligand-controlled catalytic RNAs. WIREs RNA 2017, 8:e1395. doi: 10.1002/wrna.1395 For further resources related to this article, please visit the WIREs website.

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Riboswitch-mediated Attenuation of Transgene Cytotoxicity Increases Adeno-associated Virus Vector Yields in HEK-293 Cells

Cited by 50 publications

References 52 publications

High-throughput identification of synthetic riboswitches by barcode-free amplicon-sequencing in human cells

High-throughput identification of synthetic riboswitches by barcode-free amplicon-sequencing in human cells

Enhancing titres of therapeutic viral vectors using the transgene repression in vector production (TRiP) system

Ligand‐dependent ribozymes

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