Generation of Destabilized Green Fluorescent Protein as a Transcription Reporter

Li, Xianqiang; Zhao, Xiaoning; Fang, Yu; Jiang, Xin; Duong, Tommy; Fan, Connie; Huang, Chiao-Chain; Kain, Steven R.

doi:10.1074/jbc.273.52.34970

Cited by 762 publications

(687 citation statements)

References 33 publications

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“…Notably, introduction of dsRNA‐ GFP but not dsRNA‐ RL led to a reduction in GFP expression at 2 days post‐transfection (Fig 1C). To increase temporal resolution, we switched to mESCs expressing a destabilised form of GFP (d2GFP), which has a reduced half‐life (Li et al , 1998). At 6 h post‐transfection (h.p.t.…”

Section: Resultsmentioning

confidence: 99%

Inactivation of the type I interferon pathway reveals long double‐stranded RNA‐mediated RNA interference in mammalian cells

et al. 2016

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RNA interference (RNAi) elicited by long double‐stranded (ds) or base‐paired viral RNA constitutes the major mechanism of antiviral defence in plants and invertebrates. In contrast, it is controversial whether it acts in chordates. Rather, in vertebrates, viral RNAs induce a distinct defence system known as the interferon (IFN) response. Here, we tested the possibility that the IFN response masks or inhibits antiviral RNAi in mammalian cells. Consistent with that notion, we find that sequence‐specific gene silencing can be triggered by long dsRNAs in differentiated mouse cells rendered deficient in components of the IFN pathway. This unveiled response is dependent on the canonical RNAi machinery and is lost upon treatment of IFN‐responsive cells with type I IFN. Notably, transfection with long dsRNA specifically vaccinates IFN‐deficient cells against infection with viruses bearing a homologous sequence. Thus, our data reveal that RNAi constitutes an ancient antiviral strategy conserved from plants to mammals that precedes but has not been superseded by vertebrate evolution of the IFN system.

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Section: Resultsmentioning

confidence: 99%

Inactivation of the type I interferon pathway reveals long double‐stranded RNA‐mediated RNA interference in mammalian cells

et al. 2016

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“…Mobilized CD34 þ cells were transduced with the SEW, MEW and UrMEW constructs expressing the destabilized version of GFP (d2eGFP). 32 D2eGFP expression was monitored in vitro 3 days post-transduction in HSPCs (CD133 þ /CD34 þ ) or after granulocytic differentiation 1 week later (CD11b þ /CD15 þ /CD66c þ ) (Supplementary Figure 5). Consistent with the observations made in murine cells, the SFFV-containing vector mediated d2eGFP expression in both cell subsets analyzed, whereas the MRP8 promoter was inactive in CD133 þ /CD34 þ cells, but the signal intensity was also moderate Figure 6).…”

Section: Resultsmentioning

confidence: 99%

Physiological regulation of transgene expression by a lentiviral vector containing the A2UCOE linked to a myeloid promoter

et al. 2011

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Protection against epigenetic silencing is a desirable feature of future gene therapy vectors, in particular for those applications in which transgene expression will not confer growth advantage to gene-transduced cells. The ubiquitous chromatin opening element (UCOE) consisting of the methylation-free CpG island encompassing the dual divergently transcribed promoters of the human HNRPA2B1-CBX3 housekeeping genes (A2UCOE) has been shown to shield constitutive active heterologous promoters from epigenetic modifications and chromosomal position effects. However, it is unclear if this element can be used to improve expression from tissue-specific enhancer/promoters, while maintaining tissue specificity in hematopoietic cells. Here, we evaluated the potential of the A2UCOE in combination with the myeloid-specific myeloid related protein 8 (MRP8) promoter to target transgene expression specifically to myeloid cells in vitro and in vivo from a self-inactivating lentiviral vector. The inclusion of the A2UCOE did not interfere with specific upregulation of MRP8 promoter activity during myeloid differentiation and mediated sustained and vector copy-dependent expression in myeloid cells. Notably, the A2UCOE did not protect the MRP8 promoter from methylation in the P19 embryonal carcinoma cell line, suggesting that this element maintains the inherent epigenetic state and transcriptional activity of cellular promoters in their native configuration. Thus, the A2UCOE could represent a useful protective genetic element in gene therapy vectors, ensuring physiological transcriptional regulation of tissue-specific promoters independent of the chromosomal integration site.

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“…26 This region contains a PEST amino-acid sequence that targets the protein for degradation and results in rapid protein turnover. ECFP-PEST has a half-life of approximately 2 h. 26 In our experiments, the ECFP-PEST vector was cotransfected with a conventional EYFP expression vector to allow normalization of ECFP-PEST fluorescence to concentration differences within (i.e., compartmentalization) and between (i.e., transfection efficiency) cells. The image intensity values were corrected for the laser power setting needed to obtain proper photon statistics under the various conditions.…”

Section: Methodsmentioning

confidence: 99%

“…In order to find evidence for altered proteasome function in intact single cells expressing mtSOD1, we utilized a destabilized ECFP containing a PEST sequence (ECFP-PEST) for degradation targeting and, consequently, rapid turnover (t 1/2 ¼ 72 h 26 ). Transfection of ECFP-PEST results in negligible steadystate levels and only faint ECFP fluorescence, unless proteasomal degradation is impaired 26 ; Figure 4a and b). A concentration reference was provided by coexpression of (non-destabilized) EYFP to standardize ECFP-PEST fluorescence against concentration differences.…”

Section: -Egfp-sod1mentioning

confidence: 99%

Mutant SOD1 detoxification mechanisms in intact single cells

et al. 2007

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Mutant superoxide dismutase 1 (mtSOD1) causes dominantly inherited amyotrophic lateral sclerosis (ALS). The mechanism for mtSOD1 toxicity remains unknown. Two main hypotheses are the impairment of proteasomal function and chaperone depletion by misfolded mtSOD1. Here, we employed FRET/FLIM and biosensor imaging to quantitatively localize ubiquitination, as well as chaperone binding of mtSOD1, and to assess their effect on proteasomal and protein folding activities. We found large differences in ubiquitination and chaperone interaction levels for wild-type (wt) SOD1 versus mtSOD1 in intact single cells. Moreover, SOD1 ubiquitination levels differ between proteasomal structures and cytoplasmic material. Hsp70 binding and ubiquitination of wt and mtSOD1 species are highly correlated, demonstrating the coupled upregulation of both cellular detoxification mechanisms upon mtSOD1 expression. Biosensor imaging in single cells revealed that mtSOD1 expression alters cellular protein folding activity but not proteasomal function in the neuronal cell line examined. Our results provide the first cellby-cell-analysis of SOD1 ubiquitination and chaperone interaction. Moreover, our study opens new methodological avenues for cell biological research on ALS. Amyotrophic lateral sclerosis (ALS) is a progressive fatal neurodegenerative disease caused by the selective loss of motoneurons. 1 While ALS mostly occurs sporadically, 5-10% of cases are hereditary. About 20% of familial and few sporadic cases show point or frameshift mutations within the superoxide dismutase 1 (SOD1) gene. 2 The principle underlying mutant superoxide dismutase 1 (mtSOD1) toxicity seems to be a toxic gain -rather than loss -of function, since symptomatic mtSOD1-transgenic mice still express wild-type (wt), SOD1, some SOD1 mutants retain their enzymatic activity, 2,3 and neither knockout of endogenous SOD1 nor transgenic overexpression of wtSOD1 affect the course of disease in mtSOD1-transgenic mice. 4 Nonetheless, the downstream events in mtSOD1-mediated motoneuron death have not yet been resolved, although several hypotheses have been proposed that are based on properties that are specific for mtSOD1: altered protein folding, decreased solubility, and the propensity to form cytoplasmic aggregates. 5-10 One of the major hypotheses states that misfolded mtSOD1, through binding, depletes neuroprotective chaperones. 5-7 Accordingly, recombinant mtSOD1 inhibited chaperone activity in vitro. 11 Moreover, expression of Hsp70, Hsp27, or Hsp40 decreased aggregation of mtSOD1 and protected against mtSOD1 toxicity in cell lines and primary motoneurons. 6,12 However, overexpression of Hsp70 alone did not improve motoneuron survival in mtSOD1-transgenic mice. 13 This is possibly explained by a requirement, in vivo, for correction of further cellular functions or the combined action of different chaperones in the prevention of motoneuron cell death. Indeed, arimoclomol treatment, known to upregulate both Hsp70 and Hsp90 in the spinal cord, extended the lifespan of SOD1 ...

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Generation of Destabilized Green Fluorescent Protein as a Transcription Reporter

Cited by 762 publications

References 33 publications

Inactivation of the type I interferon pathway reveals long double‐stranded RNA‐mediated RNA interference in mammalian cells

Inactivation of the type I interferon pathway reveals long double‐stranded RNA‐mediated RNA interference in mammalian cells

Physiological regulation of transgene expression by a lentiviral vector containing the A2UCOE linked to a myeloid promoter

Mutant SOD1 detoxification mechanisms in intact single cells

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