Left ventricular targeting of reporter gene expression in vivo by human BNP promoter in an adenoviral vector

To selectively introduce genes into the mouse myocardium, we used a recombinant adenovirus encoding a transgene composed of a cardiac-specific promoter [the proximal human brain natriuretic peptide (hBNP) promoter] coupled to a luciferase reporter gene (Ad.hBNPLuc). Activity in vitro and in vivo was compared with Ad.CMVLuc, which contained the cytomegalovirus (CMV) enhancer/promoter. We tested cell-specific and inducible regulation of Ad.hBNPLuc in vitro. Expression was higher in neonatal cardiac myocytes than in a fibroblast cell line and was induced by interleukin-1beta, phenylephrine, and isoproterenol in myocytes. For in vivo experiments, Ad.hBNPLuc, Ad.CMVLuc, or vehicle was injected into the left ventricular (LV) free wall of the mouse heart. In Ad.hBNPLuc-injected mice, luciferase activity was only detected in the heart. In contrast, Ad.CMVLuc-injected mice had detectable luciferase activity in all tissues examined. Our studies indicate that 1) the cardiac-specific hBNP promoter and direct cardiac injection limit expression of the transgene to the LV free wall; and 2) transgene expression in vitro is inducible and cardiac myocyte specific. Thus the use of the proximal hBNP promoter in recombinant adenoviral vectors may allow cardiac-specific and inducible expression of therapeutic genes in vivo and prevent some of the side effects of systemic adenovirus administration.     

Cardiac-specific gene expression facilitated by an enhanced myosin light chain promoter

BACKGROUND: Adenoviral gene transfer has been shown to be effective in cardiac myocytes in vitro and in vivo. A major limitation of myocardial gene therapy is the extracardiac transgene expression. METHODS: To minimize extracardiac gene expression, we have constructed a tissue-specific promoter for cardiac gene transfer, namely, the 250-bp fragment of the myosin light chain-2v (MLC-2v) gene, which is known to be expressed in a tissue-specific manner in ventricular myocardium followed by a luciferase (luc) reporter gene (Ad.4 x MLC250.Luc). Rat cardiomyocytes, liver and kidney cells were infected with Ad.4 x MLC.Luc or control vectors. For in vivo testing, Ad.4 x MLC250.Luc was injected into the myocardium or in the liver of rats. Kinetics of promoter activity were monitored over 8 days using a cooled CCD camera. RESULTS: In vitro: By infecting hepatic versus cardiomyocyte cells, we found that the promoter specificity ratio (luc activity in cardiomyocytes per liver cells) was 20.4 versus 0.9 (Ad.4 x MLC250.Luc vs. Ad.CMV). In vivo: Ad.4 x MLC250.Luc significantly reduced luc activity in liver (38.4-fold), lung (16.1-fold), and kidney (21.8-fold) versus Ad.CMV (p =.01); whereas activity in the heart was only 3.8-fold decreased. The gene expression rate of cardiomyocytes versus hepatocytes was 7:1 (Ad.4 x MLC.Luc) versus 1:1.4 (Ad.CMV.Luc). DISCUSSION: This new vector may be useful to validate therapeutic approaches in animal disease models and offers the perspective for selective expression of therapeutic genes in the diseased heart.     

Optimization of short-term transgene expression by sodium butyrate and ubiquitous chromatin opening elements (UCOEs)

BACKGROUND: Predictable and adequate transgene expression is essential for clinical gene therapy. Several studies have focused on optimization of transgene expression. In this study the effect of sodium butyrate (NaB) and a ubiquitous chromatin opening element (UCOE) on short-term gene expression after adenovirus-mediated gene transfer in fibroblastic interface cells from periprosthetic tissue in loosened orthopedic implants is investigated. METHODS: Cultures of diploid human interface cells from four patients were infected with an adenovirus type-5 vector that carries the luciferase gene driven by the cytomegalovirus (CMV) promoter as a reporter. In addition, viruses with a UCOE were evaluated. Twenty-four hours after infection NaB was added in concentrations of 0 to 9 mM. Luciferase activity was tested after a further 24 h. RESULTS: NaB in a concentration of 6 mM caused a 7- to 16-fold increase in reporter gene expression compared to control condition. There was no difference in reporter gene expression when cells were infected with Ad.1.5UCOE-CMV.Luc compared to Ad.CMV.Luc. A combination of NaB and a UCOE had no advantage over NaB alone. CONCLUSIONS: Addition of NaB results in a marked increase in transgene expression in cultured cells. This would allow the enhancement of the expression of the transgene, without requiring a higher vector dose. Butyrate administration could not be substituted by inclusion of UCOEs in the vector. It remains to be established whether the effective concentrations of butyrate can be obtained in vivo.     

Fiber-knob modifications enhance adenoviral tropism and gene transfer in malignant glioma

BACKGROUND: Malignant gliomas remain refractory to Ad5-mediated gene therapy due to deficiency of the coxsackie adenovirus receptor on tumor cells. The purpose of this study was to evaluate whether changes in adenoviral tropism can enhance gene transfer in the context of malignant glioma. METHODS: We have identified several receptors that are over-expressed on tumor cells and created a series of pseudotyped Ad5 vectors that recognize these receptors: Ad5-RGD which binds alpha(v)beta3/alpha(v)beta5 integrins; Ad5/3 which contains adenovirus serotype 3 knob and binds to CD46; Ad5-Sigma which incorporates the reovirus sigma knob and binds to junctional adhesion molecule-1; and Ad5-pk7 which contains the polylysine motif and binds heparan sulfate proteoglycans. We also investigated the Ad5-CAV1 vector, which contains the knob of canine adenovirus type 1, a virus previously shown to infect glioma via an unknown mechanism. In this study, we compared these modified vectors for their ability to promote the expression of luciferase transgene both in vitro and in vivo. RESULTS: Our results indicate that all five modified vectors attained higher mean luciferase activity vs. control. Among them, Ad5-CAV1 and Ad5-pk7 attained the highest transduction efficiency independent of different tumor lines or infection time. Ad5-Sigma and Ad5-pk7 also demonstrated the least nonspecific infection in normal human astrocytes. Most importantly, Ad5-pk7 achieved 1000-fold increased transgene expression in human glioma xenografts in vivo. CONCLUSIONS: These results indicate that modifications of adenoviral tropism can enhance gene transfer in tumors that are poorly susceptible to adenoviral vectors and warrant further development of Ad5-pk7 for glioma gene therapy.     

开发缺氧调控载体用于肾性贫血的基因治疗

目的:开发具有缺氧调控活性的基因治疗载体,其表达可由缺氧选择性诱导,用于肾性贫血的逆转和治疗。方法:合成源于各种缺氧应答基因的缺氧应答元件(HRE)寡核苷酸序列,与CMV启动子连接组合,测定荧光素酶的相对活性以确定缺氧转录活性。结果:在各种缺氧调控载体中,由鼠PGK(mPGK)基因的HRE序列和CMV启动子组合成的缺氧应答启动子显示出14.6倍的高缺氧应答性,而且缺氧诱导的表达水平与完整的CMVI.E启动子在常氧环境下的转录水平相近。结论:3HRE/mPGK/CMV缺氧调控载体对于肾性贫血等一系列疾病实现目的基因的精确调控表达可能非常有用。     

Promoters influence the kinetics of transgene expression following adenovector gene delivery

BACKGROUND: The kinetics of gene expression from adenovirus-based delivery vectors will be an important variable influencing the efficacy and toxicity of these vectors. As different promoters have variable strengths and kinetic profiles, the optimal dose of a therapeutic transgene product over time may be achieved by varying the promoter. METHODS: We analyzed several viral and cellular promoters in the context of adenovector gene delivery in the mouse. The kinetics of transgene expression was evaluated following intramuscular and intravenous delivery. RESULTS: Transgene expression from the cytomegalovirus (CMV) promoter was rapidly down-regulated in the tissues following intravenous administration of adenovectors. In contrast, transgene expression from the Rous sarcoma virus (RSV) promoter increased over time such that, at 3 weeks, expression was 10-fold higher than that from the CMV promoter-containing vector in all tissues. The kinetics of transgene expression from these vectors was similar when they were delivered via the intramuscular route in BALB/c, C57BL/6 and immunodeficient mice. Efficient repeat administration of an adenovirus vector, in the presence of neutralizing antibodies, was achieved in the skeletal muscle and transgene expression persisted with the same kinetics as in na?ve animals. CONCLUSIONS: These results demonstrate that the in vivo kinetics of transgene expression by adenovectors is greatly influenced by the promoter. Adenovectors can be designed to deliver a transient bolus or a sustained level of protein expression in the target tissue depending on the requirements for particular indications. These results have implications for both therapeutic and vaccine indications.     

Effect of the E4 region on the persistence of transgene expression from adenovirus vectors.

The utility of adenovirus vectors for gene therapy is limited by the transience of expression that has been observed in various in vivo models. Immunological responses to viral targets can eliminate transduced cells and cause the loss of transgene expression. We previously described the characterization of an E4 modified adenovirus, Ad2E4ORF6, which is replication defective in cotton rats. We reasoned that gene transfer vectors based on Ad2E4ORF6 would have a reduced potential for viral gene expression in vivo which might be beneficial for achieving persistence of transgene expression. E1 replacement vectors expressing the cystic fibrosis transmembrane regulator or beta-galactosidase were constructed as series of vectors that differed with respect to the E4 region. Vectors containing a wild-type E4 region, E4 open reading frame 6, or a complete E4 deletion were compared in the lungs of BALB/c mice for persistence of expression. Results obtained with nude mice indicate that nonimmunological factors have a major influence on the longevity of transgene expression. Expression was transient from the E1a promoter with all vectors but persisted from the cytomegalovirus promoter only with a vector containing a wild-type E4 region. Transience of expression did not correlate with the disappearance of vector DNA, suggesting that promoter down-regulation may be involved. Coinfection studies indicate an E4 product(s) could be supplied in trans to allow persistent expression from the cytomegalovirus promoter. In summary, the choice of promoter is important for achieving persistence of expression; in addition, some promoters are highly influenced by the context of the vector backbone.     

Construction of an adenovirus type 7a E1A- vector.

A strategy for constructing replication-defective adenovirus vectors from non-subgroup C viruses has been successfully demonstrated with adenovirus type 7 strain a (Ad7a) as the prototype. An E1A-deleted Ad7a reporter virus expressing the chloramphenicol acetyltransferase (CAT) gene from the cytomegalovirus promoter enhancer was constructed with DNA fragments isolated from Ad7a, an Ad7a recombination reporter plasmid, and the 293 cell line. The Ad7a-CAT virus particle transduces A549 cells as efficiently as Ad5-based vectors. Intravenous infections in a murine model indicate that the Ad7a-CAT virus infects a variety of tissues, with maximal levels of CAT gene expression found in the liver. The duration of Ad7a-CAT transgene expression in the liver was maximally maintained 2 weeks postinfection, with a decline to baseline activity by the week 4 postinfection. Ad7a-CAT represents the first example of a non-subgroup C E1A- adenovirus gene transfer vector.