To construct a eukaryotic expression plasmid containing the luciferase reporter gene (Fluc) to quickly detect apoptosis. Four amino acids, Asp-Glu-Val-Asp (DEVD), the recognize motif of Caspase-3, were introduced into the middle of the Fluc-C and N fragment. Meanwhile, four amino acids, Asp-Glu-Val-Gly (DEVG), were selected as a negative control. Subsequently, the recombinant gene was cloned into the N and C terminal end of the split intein, and named as pFluc-DEVD and pFluc-DEVG. Then the plasmids were transfected into cells and renilla luciferase was co-transfected in each sample as an internal control for transfection efficiency. Then the apoptosis level was detected by the double luciferase reporter gene and the Western blotting analysis. The results showed that when apoptosis occurred, the content of firefly luciferase expressed in the pFluc-DEVD plasmid transfected group was about 3 times higher than pFluc-DEVG plasmid transfected group. Furthermore, Western blotting detection indicated that the Fluc level was significantly increased in pFluc-DEVD transfected group when pre-treated by apoptosis stimulants. The activation degree of Caspase-3 was closely related to the expression of Fluc, and had a significant statistical difference. These results confirmed that firefly luciferase protein expressed by pFluc-DEVD plasmid can be cleaved by the intracellular Caspase-3 enzyme, and this plasmid can accurately reflect the cell apoptosis level, which provides a useful method for quantitative detection of apoptosis.
Apoptosis ; Genes, Reporter ; Luciferases, Firefly ; Transfection

The rapid progress of molecular genetic methods over the past two decades has necessitated the development of methods to detect and quantify genetic activity within living bodies. Reporter genes provide a rapid and convenient tool to monitor gene expression by yielding a readily measurable phenotype upon expression when introduced into a biological system. Conventional reporter systems, however, are limited in their usefulness for in vivo experiments or human gene therapy because of its invasive nature which requires cell damage before assays can be performed. This offers an unique opportunity for nuclear imaging techniques to develope a novel method for imaging both the location and amount of gene expression noninvasively. Current developments to achieve this goal rely on utilizing either reporter enzymes that accumulate radiolabeled substrates or reporter receptors that bind specific radioligands. This overview includes a brief introduction to the background for such research, a summary of publis hed results, and an outlook for future directions.
Gene Expression* ; Genes, Reporter ; Genetic Therapy ; Humans ; Molecular Biology ; Phenotype

Recent progress in the development of non-invasive imaging technologies continues to strengthen the role of molecular imaging biological research. These tools have been validated recently in variety of research models, and have been shown to provide continuous quantitative monitoring of the location (s), magnitude, and time-variation of gene expression. This article reviews the principles, characteristics, categories and the use of radionuclide reporter gene imaging technologies as they have been used in imaging cell trafficking, imaging gene therapy, imaging endogenous gene expression and imaging molecular interactions. The studies published to date demonstrate that reporter gene imaging technologies will help to accelerate pre-clinical model validation as well as allow for clinical monitoring of human diseases.
Gene Expression ; Genes, Reporter* ; Genetic Therapy ; Humans ; Molecular Imaging

OBJECTIVE: The transfection efficiencies of gynecologic cancer cell lines were investigated by different mediated transfection methods using recombinant LacZ plasmid (pRcCMVLacZ and pAAVCMVLacZ). METHODS: In this study, the gynecologic cancer cell lines were used CaSki, SiHa (cervical, HPV16+, wild type p53 gene), HeLa, HeLa S3 (cervical, HPV18+, wild type p53 gene), C33A, HT3 (cervical, HPV-, p53 mutant), HckE6/E7 (cervical, HPV16 immortalized keratocyte), PA-1 (ovary, wild type p53), SKOV-3, A2774 (ovary, p53del) and OVCAR-3 (ovary, p53 mutant). The pRcCMVLacZ and pAAVCMVLacZ plasmid transfection were performed by using liposome system such as Ca2+-phosphate, Fugen6(TM), Lipofection(TM), Lipogen(TM) and N-stearyl lactobionamide (N-SLBA) with X-gal staining. The LacZ gene was used the reporter gene for the transfection efficiencies evaluation. RESULTS: Each of cell lines were showed different transfection efficiencies by Ca2+-phosphate, Fugen6(TM), Lipofectin(TM), Lipogen(TM) and N-SLBA. Each of cell were revealed that HeLa S3, HT3 and A2774 were high transfection efficiency using the pRcCMVLacZ by the Lipogen(TM), SiHa, HeLa, QGU, OVCAR-3 and PA-1 were high efficiency using the pAAVCMVLacZ by Lipofectin(TM), CaSki was high efficiency using the pRcCMVLacZ by the Lipogen(TM), A2774 and Cx16.2 were high efficiency using the pRcCMVLacZ by the Lipofectin(TM), SKOV-3 and HkcE6/E7 were high efficiency using pAAVCMVLacZ by the Lipogen(TM). CONCLUSION: As a result, We proved that each of cell lines differed trasnfection efficiencies according to mediated transfection and recombinant LacZ plasmid style. Above all, Lipofectin(TM) mediated transfection was showed high efficiency at the most of cell lines.
Cell Line* ; Genes, Reporter ; Humans* ; Lac Operon* ; Liposomes ; Plasmids* ; Transfection*

The major issue in the development of nucleic acid based therapeutics is the inefficient delivery of these agents into cells. We prepared cholesterol conjugated spermine and evaluated its usefulness as a delivery modality for antisense oligonucleotides in HeLa-Luc cells. A 2'-O-methyl antisense oligonucleotide sequence, designed to correct splicing at an aberrant intron inserted into a normal luciferase reporter gene, was used for complex formation with cholesterol conjugated spermine. Effective delivery of this antisense agent into nucleus would results in the expression of a luciferasereporter gene product. The cholesterol-spermine formed stable complexes with the antisense oligonucleotide and showed modest delivery activity. Furthermore, this delivery activity was maintained even in the presence of serum proteins, mimicking in vivo conditions. Cholesterol-spermine thus has potential as a delivery system for antisense oligonucleotides into cells.
Blood Proteins ; Cholesterol* ; Genes, Reporter ; Introns ; Luciferases ; Oligonucleotides, Antisense ; Spermine*

Stem cell therapy for acute myocardial infarction is drawing great attention. However,the biological behavior and function mechanism of implanted stem cells remain controversial, as well as their clinical benefits. With the development of imaging probes and devices, molecular imaging enables noninvasive, dynamic tracking of stem cells in vivo. In this review, we summarize the use of various markers,especially the technique of reporter gene labeling, in the field of stem cell therapy, and highlight some recent preclinical and clinical achievements.
Genes, Reporter ; Genetic Therapy ; Humans ; Myocardial Infarction ; Stem Cell Transplantation

Assessing the cell-type expression pattern of a certain gene can be achieved by using cell-type-specific gene manipulation. Recently, cre-recombinase-dependent gene-silencing tool, pSico has become popular in neuroscientific research. However, pSico has a critical limitation that gene-silenced cell cannot be identified by fluorescence, due to an excision of the reporter gene for green fluorescence protein (GFP). To overcome this limitation, we newly developed pSico-Red, with mCherry gene as a reporter outside two loxP sites, so that red mCherry signal is detected in all transfected cells. When a cell expresses cre, GFP is excised and shRNA is enabled, resulting in disappearance of GFP. This feature of pSico-Red provides not only cell-type-specific gene-silencing but also identification of cre expressing cells. Using this system, we demonstrated for the first time the neuronal expression of the Bestrophin-1 (Best1) in thalamic reticular nucleus (TRN) and TRN-neuron-specific gene-silencing of Best1. We combined adeno-associated virus (AAV) carrying Best1-shRNA in pSico-Red vector and transgenic mouse expressing cre under the promoter of distal-less homeobox 5/6 (DLX5/6), a marker for inhibitory neurons. Firstly, we found that almost all of inhibitory neurons in TRN express Best1 by immunohistochemistry. Using pSico-Red virus, we found that 80% of infected TRN neurons were DLX5/6-cre positive but parvalbumin negative. Finally, we found that Best1 in DLX5/6-cre positive neurons were significantly reduced by Best1-shRNA. Our study demonstrates that TRN neurons strongly express Best1 and that pSico-Red is a valuable tool for cell-type-specific gene manipulation and identification of specific cell population.
Animals ; Dependovirus ; Fluorescence ; Genes, Homeobox ; Genes, Reporter ; Immunohistochemistry ; Mice ; Mice, Transgenic ; Neurons* ; RNA, Small Interfering

Molecular imaging provides a visualization of normal as well as abnormal cellular processes at a molecular or genetic level rather than at a anatomical level. Conventional medical imaging methods utilize the imaging signals produced by nonspecific physico-chemical interaction. However, molecular imaging methods utilize the imaging signals derived from specific cellular or molecular events. Because molecular and genetic changes precede anatomical change in the course of disease development, molecular imaging can detect early events in disease progression. In the near future, through molecular imaging we can understand basic mechanisms of disease, and diagnose earlier and, subsequently, treat earlier intractable diseases such as cancer, neuro-degenerative diseases, and immunologic disorders. In beginning period, nuclear medicine started as a molecular imaging, and has had a leading role in the field of molecular imaging. But recently molecular imaging has been rapidly developed. Besides nuclear imaging, molecular imaging methods such as optical imaging, magnetic resonance imaging are emerging. Each imaging modalities have their advantages and weaknesses. The opportunities from molecular imaging look bright. We should try nuclear medicine continues to have a leading role in molecular imaging.
Diagnostic Imaging ; Disease Progression ; Genes, Reporter ; Magnetic Resonance Imaging ; Molecular Imaging ; Nuclear Medicine ; Optical Imaging

It was previously observed that recombinant flock house virus (FHV) RNA1 was efficiently packaged into turnip yellow mosaic virus (TYMV), provided that the TYMV coat protein (CP) sequence was present at the 3′-end. FHV RNA encapsidated by TYMV CPs also had a four-nucleotide extension at the 5′-end. Since even a short extension at the 5′- and 3′-ends of FHV RNA1 inhibits replication, we examined whether the recombinant FHV RNA is indeed capable of replication. To this end, we introduced constructs expressing recombinant FHV RNAs into the plant Nicotiana benthamiana. Northern blot analysis of inoculated leaves suggested abundant production of recombinant FHV RNA1 and its subgenomic RNA. This demonstrated that recombinant FHV RNA with terminal extensions at both ends was competent for replication. We also showed that the recombinant FHV RNA can express the reporter gene encoding enhanced green fluorescent protein.
Blotting, Northern ; Brassica napus* ; Capsid Proteins* ; Genes, Reporter ; Plants ; RNA* ; Tobacco* ; Tymovirus*

PURPOSE: The HSV1-tk reporter gene system is the most widely used system because of its advantage that direct monitoring is possible without the introduction of a separate reporter gene in case of HSV1-tk suicide gene therapy. In this study, we investigate the usefulness of the reporter probe (substrate), 9-(4-[18F]fluoro-3-hydroxymethylbutyl)guanine ([18F]FHBG) for non-invasive reporter gene imaging using PET in HSV1-tk expressing hepatoma model. MATERIALS AND METHODS: Radiolabeled FHBG was prepared in 8 steps from a commercially available triester. The labeling reaction was carried out by NCA nucleophilic substitution with K[18F]/K2.2.2. in acetonitrile using N2-monomethoxytrityl-9-[4-(tosyl)-3-monomethoxytritylmethylbutyl]guanine as a precursor, followed by deprotection with 1 N HCl. Preliminary biological properties of the probe were evaluated with MCA cells and MCA-tk cells transduced with HSV1-tk reporter gene. In vitro uptake and release-out studies of [18F]FHBG were performed, and was analyzed correlation between [18F]FHBG uptake ratio according to increasing numeric count of MCA-tk cells and degree of gene expression. MicroPET scan image was obtained with MCA and MCA-tk tumor bearing Balb/c-nude mouse model. RESULTS: [18F]FHBG was purified by reverse phase semi-HPLC system and collected at around 16-18 min. Radiochemical yield was about 20-25% (corrected for decay), radiochemical purity was >95% and specific activity was around >55.5 GBq/micro mol. Specific accumulation of [18F]FHBG was observed in HSV1-tk gene transduced MCA-tk cells but not in MCA cells, and consecutive 1 hour release-out results showed more than 86% of uptaked [18F]FHBG was retained inside of cells. The uptake of [18F]FHBG was showed a highly significant linear correlation (R2=0.995) with increasing percentage of MCA-tk numeric cell count. In microPET scan images, remarkable difference of accumulation was observed for the two type of tumors. CONCLUSION: [18F]FHBG appears to be a useful as non-invasive PET imaging substrate in HSV1-tk expressing hepatoma model.
Animals ; Carcinoma, Hepatocellular* ; Cell Count ; Gene Expression ; Genes, Reporter ; Genetic Therapy ; Guanine* ; Mice ; Suicide ; Thymidine Kinase