A genetically retargeted adenoviral vector enhances viral transduction in esophageal carcinoma cell lines and primary cultured esophageal resection specimens

OBJECTIVE: To evaluate if an integrin-retargeted adenoviral vector could establish a more efficient and tumor-specific gene transfer in esophageal carcinoma cells. SUMMARY BACKGROUND DATA: Although preclinical data indicated that adenoviral gene therapy could be a promising novel treatment modality for various malignancies, clinical results are often disappointing. An important problem is the decreased tumoral expression of the Coxsackie and adenovirus receptor (CAR), which mediates adenoviral entry. Retargeting the adenoviral vector to other cellular receptors, by inserting an arginine-glycine-aspartate (RGD) tripeptide in the fiber knob, might overcome this problem. METHODS: Four esophageal carcinoma cell lines and 10 fresh surgical resection specimens were cultured. All were infected with the native adenovirus (Ad) and the retargeted adenovirus (AdRGD), encoding for the reporter genes luciferase or Green Fluorescent Protein to analyze gene transfer efficiency. RESULTS: In all cell lines, an increase in viral expression per cell and an increase in the percentage of transduced cells were seen with the retargeted adenovirus. Also, in the primary cultures of carcinoma cells, a more efficient gene transfer was seen when the retargeted vector was used. This phenomenon was less pronounced in normal cells, indicating that the RGD virus transduces tumor cells more efficiently than normal cells. CONCLUSIONS: This study demonstrates that an RGD retargeted adenovirus infects human esophageal carcinoma cells with enhanced efficiency, while in normal esophageal cells this effect is less pronounced. Therefore, this retargeted vector is expected to have a better performance in vivo, when compared with nonretargeted vectors used for cancer gene therapy so far.     

Dependence of efficient adenoviral gene delivery in malignant glioma cells on the expression levels of the Coxsackievirus and adenovirus receptor

OBJECT: Recombinant adenovirus is used as a competent vector in a wide spectrum of cancer gene therapies because of its high efficiency in gene delivery. To study the feasibility of gene therapy in malignant gliomas, the authors examined the antiproliferative effect of the adenovirally transduced wild-type p53 tumor suppressor gene by using 15 different high-grade glioma cell lines. METHODS: Although growth suppression in association with a high adenoviral p53 transduction efficiency was seen in five of 15 cell lines, it was not observed in the remaining 10 cell lines. To clarify the underlying mechanism, we examined the expression levels of the Coxsackievirus and adenovirus receptor (CAR), which is the primary receptor for adenovirus, and of the integrins alpha vbeta3 and alpha vbeta5, which promote adenoviral internalization. The expression level of the CAR gene showed a close correlation to adenoviral gene transduction efficiency in the tested cell lines, whereas the expression levels of the integrins did not. The CAR expression was decreased by wild-type p53 transduction in U251MG cells harboring mutant p53 and increased by antisense inhibition of p53 in LN443 cells with endogenous wild-type p53. CONCLUSIONS: The results of this study indicate that CAR expression is a critical determinant of transduction efficiencies in adenovirus-based gene therapy for human malignant gliomas.     

Retargeting of adenoviral vector using basic fibroblast growth factor ligand for malignant glioma gene therapy

OBJECT: Adenovirus vector (AdV)-mediated gene delivery has been recently demonstrated in clinical trials as a novel potential treatment for malignant gliomas. Combined coxsackievirus B and adenovirus receptor (CAR) has been shown to function as an attachment receptor for multiple adenovirus serotypes, whereas the vitronectin integrins (alphavbeta3 and alphavbeta5) are involved in AdV internalization. In resected glioma specimens, the authors demonstrated that malignant gliomas have varying levels of CAR, alphavbeta3, and alphavbeta5 expression. METHODS: A correlation between CAR expression and the transduction efficiency of AdV carrying the green fluorescent protein in various human glioblastoma multiforme (GBM) cell lines and GBM primary cell lines was observed. To increase transgene activity in in vitro glioma cells with low or deficient levels of CAR, the authors used basic fibroblast growth factor (FGF2) as a targeting ligand to redirect adenoviral infection through its cognate receptor, FGF receptor 1 (FGFR1), which was expressed at high levels by all glioma cells. These findings were confirmed by in vivo study data demonstrating enhanced transduction efficiency of FGF2-retargeted AdV in CAR-negative intracranial gliomas compared with AdV alone, without evidence of increased angiogenesis. CONCLUSIONS: Altogether, the results demonstrated that AdV-mediated gene transfer using the FGF2/FGFR system is effective in gliomas with low or deficient levels of CAR and suggested that FGF2-retargeting of AdV may be a promising approach in glioma gene therapy.     

Targeting of interstitial cells using a simple gene-transfer strategy.

BACKGROUND: Interstitial fibroblasts are central to the inflammatory response during the progression of tubulointerstitial fibrosis. We examined the efficiency of a new gene transfer method that targets interstitial cells by using parenchymal injection of DNA followed by electroporation. METHODS: Fluoresceinisothiocyanate-labelled oligodeoxynucleotides (FITC-ODNs) or expression vectors were directly injected into the cortex of the kidney, followed by electroporation. RESULTS: Transfection with FITC-ODNs or the EGFP expression vector resulted in efficient transfection in interstitial fibroblasts, but not in tubular epithelial cells or glomerular cells. Transfection efficiency was optimal after using a total of 150 microg of DNA in 1000 microl of PBS, combined with clamping of the renal vessels prior to electroporation. Gene expression peaked at 4 days after transfection and decreased by two orders of magnitude at 6 weeks post-transfection; however, expression recovered to near peak levels after parenchymal or intraperitoneal injection of FR901228, a histone deacetylase inhibitor. CONCLUSION: We demonstrated that direct parenchymal injection of DNA combined with electroporation enables gene transfer into interstitial fibroblasts.     

Induction of MAGE-3 expression in lung and esophageal cancer cells

BACKGROUND: Although MAGE-3 has been detected in approximately 40% of lung and esophageal cancers, expression of this cancer testis antigen appears to be below the threshold for immune recognition in patients with these malignancies. The aim of this study was to determine if the demethylating agent, 5-Aza-2'-deoxycytidine (DAC) and if the histone deacetylase inhibitor Depsipeptide FR901228 (DP) could enhance MAGE-3 expression in lung and esophageal cancer cells. METHODS: Eleven lung and esophageal cancer lines and cultured normal human bronchial epithelial (NHBE) cells were exposed to normal media (NM), DAC, DP, or combination DAC/DP at varying concentrations and exposure durations. MAGE-3 expression was evaluated by quantitative RT-PCR (TaqMan) and immunohistochemistry techniques. Trypan blue exclusion techniques were used to examine the proliferation of cancer cells after drug exposure. RESULTS: Relative to untreated controls, MAGE-3 expression was enhanced 32-fold (range 3.9 to 110) by DAC alone (0.1 micromol/L x 72 h), 2.1-fold (0.4 to 4.2) by DP alone (25 ng/mL x 6h), and 57-fold (4.6 to 209) by sequential DAC/DP exposure. Increased MAGE-3 mRNA copy numbers coincided with enhanced protein levels in these cells. MAGE-3 expression persisted after drug exposure. Flow cytometry confirmed the presence of functional HLA class I expression in these cells. Sequential DAC/DP treatment mediated pronounced growth inhibition in cancer cells but not NHBE. CONCLUSIONS: Sequential DAC/DP treatment may be a novel strategy to simultaneously augment MAGE-3 expression and induce growth arrest in thoracic malignancies.     

Prostate specific membrane antigen (PSMA) is a tissue-specific target for adenoviral transduction of prostate cancer in vitro

BACKGROUND: Adenovirus binds to the coxsackievirus and adenovirus receptor (CAR) as a first step in the process of cellular infection. This dependence on CAR potentially limits the use of adenovirus in gene therapy, since CAR is expressed in many tissues of the body, and expression of CAR may be low or lost upon progression of certain tumors. These limitations may be overcome by transductional targeting of adenovirus towards other cell surface molecules. We have evaluated the pantumoral epithelial cell adhesion molecule (EpCAM) and prostate specific membrane antigen (PSMA) as possible targets for adenoviral transduction of prostate cancer cells. METHODS: Bispecific antibodies, constructed as conjugates between an anti-adenovirus fiber knob Fab' fragment and anti-EpCAM or anti-PSMA monoclonal antibodies, were incubated with an eGFP-expressing adenovirus to retarget this vector. A cell panel, that includes two prostate cancer cell lines and four non-prostate control lines, were infected with serial dilutions of the retargeted vector and specificity of infection was determined. RESULTS: Receptor-specific transduction was obtained for both EpCAM and PSMA. PSMA-retargeting was shown to be selective for the prostate cancer cell lines. CONCLUSIONS: PSMA serves as a tissue-specific target for adenoviral vectors and may be applicable for gene therapeutical treatment of prostate cancer.     

Gene transfer to the thymus. A means of abrogating the immune response to recombinant adenovirus.

OBJECTIVE: The authors investigated whether adenoviral gene transfer to the thymus could be accomplished in vivo and whether immunologic unresponsiveness to recombinant adenovirus could be induced by intrathymic inoculation. SUMMARY BACKGROUND DATA: A major barrier to the clinical application of adenovirus-mediated gene therapy for diseases requiring long-lasting gene expression is the immunogenicity of adenoviral vectors, which limits the duration of its effects. In other experimental models, intrathymic inoculation of foreign proteins or cells has proven to be an effective means to induce immunologic tolerance. METHODS: The efficiency of gene transfer to the mouse thymus after direct inoculation of recombinant adenovirus was compared with that of several other vectors. Animals inoculated with adenovirus-infected pancreatic islets into the thymus were tested for unresponsiveness to the virus with a subsequent challenge of adenovirus administered into the liver by intravenous injection. RESULTS: Adenovirus accomplished highly efficient gene transfer to the thymus, unlike plasmid DNA, DNA-liposome complexes, retrovirus, and adeno-associated virus. Adenoviral transgene expression was transient in the thymus of immunocompetent mice but persistent in CD8+ T-cell-deficient and severe combined immunodeficiency (SCID) mice, implicating the role of cytotoxic T lymphocytes in viral clearance. Intrathymic transplantation of syngeneic pancreatic islet cells infected with adenovirus impaired the normal antiviral cytotoxic T-lymphocyte response and prolonged hepatic transgene expression after an intravenous challenge with adenovirus. CONCLUSIONS: Recombinant adenovirus accomplishes highly efficient gene transfer to the thymus in vivo. Intrathymic inoculation of adenovirus-infected islets can be used to induce immunologic unresponsiveness to the adenoviral vector and, potentially, to other proteins that it might be engineered to encode.     

Strategies to enhance transductional efficiency of adenoviral-based gene transfer to primary human fibroblasts and keratinocytes as a platform in dermal wounds

Genetically modified keratinocytes and fibroblasts are suitable for delivery of therapeutic genes capable of modifying the wound healing process. However, efficient gene delivery is a prerequisite for successful gene therapy of wounds. Whereas adenoviral vectors (Ads) exhibit superior levels of in vivo gene transfer, their transductional efficiency to cells resident within wounds may nonetheless be suboptimal, due to deficiency of the primary adenovirus receptor, coxsackie-adenovirus receptor (CAR). We explored CAR-independent transduction to fibroblasts and keratinocytes using a panel of CAR-independent fiber-modified Ads to determine enhancement of infectivity. These fiber-modified adenoviral vectors included Ad 3 knob (Ad5/3), canine Ad serotype 2 knob (Ad5CAV-2), RGD (Ad5.RGD), polylysine (Ad5.pK7), or both RGD and polylysine (Ad5.RGD.pK7). To evaluate whether transduction efficiencies of the fiber-modified adenoviral vectors correlated with the expression of their putative receptors on keratinocytes and fibroblasts, we analyzed the mRNA levels of CAR, alpha upsilon integrin, syndecan-1, and glypican-1 using quantitative polymerase chain reaction. Analysis of luciferase and green fluorescent protein transgene expression showed superior transduction efficiency of Ad5.pK7 in keratinocytes and Ad5.RGD.pK7 in fibroblasts. mRNA expression of alpha upsilon integrin, syndecan-1 and glypican-1 was significantly higher in primary fibroblasts than CAR. In keratinocytes, syndecan-1 expression was significantly higher than all the other receptors tested. Significant infectivity enhancement was achieved in keratinocytes and fibroblasts using fiber-modified adenoviral vectors. These strategies to enhance infectivity may help to achieve higher clinical efficacy of wound gene therapy.     

Early osteoblastic differentiation induced by dexamethasone enhances adenoviral gene delivery to marrow stromal cells.

We investigated the implications of induced osteogenic differentiation on gene delivery in multipotent rat marrow stromal cells (MSCs). Prior to genetic manipulation cells were cultured with or without osteogenic supplements (5x10(-8) M dexamethasone, 160 microM l-ascorbic acid 2-phosphate, and 10 mM beta-glycerophosphate). Comparison of liposome, retroviral, and adenoviral vectors demonstrated that all three vectors could mediate gene delivery to primary rat MSCs. When these vectors were applied in the absence or presence of osteogenic supplements, we found that MSCs differentiated prior to transduction with adenovirus type 5 vectors produced a 300% increase in transgene expression compared to MSCs that were not exposed to osteogenic supplements. This differentiation effect appeared specific to adenoviral mediated gene delivery, since there was minimal increase in retroviral gene delivery and no increase in liposome gene delivery when MSCs were treated with osteogenic supplements. In addition, we also determined this increase in transgene production to occur at a higher concentration of dexamethasone (5x10(-8) M) in the culture medium of MSCs prior to adenoviral transduction. We found that this increased transgene production could be extended to the osteogenic protein, human bone morphogenetic protein 2 (hBMP-2). When delivered by an adenoviral vector, hBMP-2 transgene production could be increased from 1.4 ng/10(5) cells/3 days to 4.3 ng/10(5) cells/3 days by culture of MSCs with osteogenic supplements prior to transduction. These results indicate that the utility of MSCs as a therapeutic protein delivery mechanism through genetic manipulation can be enhanced by pre-culture of these cells with dexamethasone.     

肺癌中5型腺病毒受体表达与腺病毒感染效率的关系

目的 观察肺癌细胞中5型腺病毒(Ad5)及改良Ad5(Ad5F35)受体CAR和CD46的表达,探讨它们与Ad5、Ad5F35型腺病毒感染效率的关系.方法 采用流式细胞术检测人肺癌细胞株及10例原代培养肺癌细胞中CAR和CD46的表达水平.以带有绿色荧光蛋白(GFP)标记的Ad5和Ad5F35型腺病毒按10和50的感染强度(MOI)感染上述细胞,48 h后通过流式细胞术检测GFP表达阳性细胞百分率.结果 所检测的4株肺癌细胞和10例原代肺癌细胞中CD46的表达水平均明显高于CAR.Ad5-GFP(MOI=50)感染48 h后,A549、Z793、QG56和NCI-H520细胞GFP阳性表达率分别为39%、37%、45%和4%;同样浓度的Ad5F35-GFP感染48 h后,A549、Z793、QG56和NCI-H520细胞GFP阳性率分别为78%、75%、75%和54%.10例原代肺癌细胞中Ad5F35-GFP感染后GFP阳性细胞比例也明显高于Ad5-GFP.结论 Ad5及Ad5F35型腺病毒的基因转移效率与细胞中CAR和CD46的表达水平密切相关.肺癌细胞中CD46的表达水平普遍高于CAR,而Ad5F35对肺癌细胞的感染能力明显优于Ad5.     

重组Akt腺病毒的构建及其在肝硬化大鼠肝脏中的表达

目的:探讨持续活化Akt且带有HA标签(myr-HA-Akt)基因的重组腺病毒在肝硬化大鼠肝脏中的表达特性。方法:酶切正向插入目的基因的真核表达载体pcDNA3.1-myr-HA-Akt,获得myr-HA-Akt cDNA后，将其定向克隆到穿梭质粒pDC316中,然后将重组质粒与病毒骨架质粒pBHGloxΔE1,3Cre共转染293 细胞,获得复制缺陷型重组腺病毒Ad-myr-HA-Akt,并进行扩增、纯化。通过观察腺病毒感染293细胞后是否出现细胞病变效应;PCR和基因测序方法对所构建病毒进行鉴定，并采用TCID50法检测病毒滴度。自尾静脉注射重组腺病毒Ad-myr-HA-Akt感染肝硬化模型大鼠。免疫印迹法检测大鼠肝组织内Akt 和p-Akt蛋白的表达。结果:感染的293 细胞出现明显的细胞病变效应，PCR产物电泳证实重组腺病毒的存在，基因测序证实myr-HA-Akt的cDNA正确插入穿梭质粒且与pBHGloxΔE1,3Cre正确同源重组;病毒滴度为5.5×1011 vp/mL。从蛋白水平证实感染病毒的肝硬化模型大鼠有外源性Akt基因的表达。结论:构建的重组腺病毒Ad-myr-HA-Akt能有效地感染肝硬化模型大鼠,并可在模型大鼠中正确转录和翻译，为进一步研究腺病毒介导的Akt基因对肝硬化的治疗奠定了实验基础。     

Polyethylene glycol (molecular weight 400 DA) vehicle improves gene expression of adenovirus mediated gene therapy

PURPOSE: A significant limitation of adenoviral mediated suicide gene therapy is poor gene distribution in vivo. The choice of vehicle has been demonstrated to affect the level of adenoviral delivered gene transduction. We examined the hypotheses that 1) adenovirus suspended in PEG400 improves gene expression in the na?ve canine prostate model, 2) improved transgene expression with PEG400 results in improved tumor control and 3) vehicle affects the initial adenoviral spread from a single intratumor injection. MATERIALS AND METHODS: The magnitude and volume of gene expression were measured 24 hours following intraprostatic injection of adenovirus suspended in PEG400 (12.5% weight per volume) or saline as vehicle. Tumor growth delay was measured in mice bearing human tumor xenografts following the injection of adenovirus in PEG400 and saline. The initial spread of adenovirus was measured by confocal microscopy following a single injection of fluorescently labeled adenoviral particles in human tumor xenografts using each vehicle. RESULTS: Adenovirus suspended in PEG400 provided an average of twice the level of gene expression in the canine prostate and significantly better tumor control relative to saline in preclinical tumor models (p = 0.046 and 0.036, respectively). The initial spread of adenovirus with PEG400 was superior to that of adenovirus in saline and the latter was largely limited to the needle tract. CONCLUSIONS: Adenoviral gene therapy vectors suspended in PEG400 results in improved tumor control because of greater initial adenoviral spread, and the increased volume and magnitude of gene expression in vivo.     

Ethanol improves adenovirus-mediated gene transfer and expression to the bladder epithelium of rodents

OBJECTIVES: Replication deficient adenoviral vectors (rAds) are used as gene delivery systems that can efficiently transduce a variety of tissues and may be appropriate vectors to develop gene therapeutics for many urologic applications. However, the bladder epithelium has been shown to be highly resistant to transgene expression after intracystic administration. A potential explanation for this low gene transfer efficiency may be the protective structure of the urothelium. Since this protective barrier can be disrupted by organic solvents, we assessed whether ethanol co-administration can enhance adenovirus-mediated transgene expression. METHODS: Normal and bladder tumor-bearing rats received a single intracystic administration of rAd encoding beta-galactosidase (rAd-beta gal) or p53 (rAd-p53). rAd was administered in a saline solution or in solutions with increasing concentrations of ethanol. Transgene expression was evaluated in the bladder tissues. RESULTS: A dramatic increase in urothelial beta-galactosidase transgene expression was achieved by rAd-beta gal administered in a 22% ethanol solution. Transgene expression was enhanced in normal urothelium and in superficial bladder tumors. p53 transgene expression was similarly enhanced. CONCLUSIONS: Co-administration of 22% ethanol enhanced local rAd-mediated transgene expression in the normal and neoplastic bladder epithelium in rodents. Improvement of rAd-mediated transgene expression is progress toward local gene delivery to the urothelium and may enable local gene therapy for superficial bladder cancer or other bladder diseases.     

The growth inhibitory effect of p21 adenovirus on human bladder cancer cells

PURPOSE: To evaluate whether p21 (WAF-1/CIP1) should be considered a potential candidate for human bladder cancer gene therapy, we determined: (1) the basal level of p21 expression in bladder cancer cell lines, (2) the response of bladder cancer cells to increased p21 expression following p21 adenovirus infection, and (3) the mechanism of growth inhibition produced by p21 overexpression. MATERIALS AND METHODS: Five established human bladder cancer cell lines and one primary culture derived from an invasive transitional cell carcinoma were used in this study. To examine the effect of p21 protein on the growth of human bladder cancer cells, a recombinant adenovirus vector system containing p21 cDNA, under the control of cytomegalovirus promoter, was constructed. A control virus containing p21 in an antisense orientation was used to eliminate potential artifacts caused by viral toxicity. RESULTS: Human bladder cancer cell lines exhibit variable endogenous p21 levels which correlate with the in vitro growth status. Significant, but highly variable increases in the steady-state level of p21 were detected in p21 adenovirus infected cells. Human bladder cancer cell lines responded heterogeneously to p21 adenovirus infection. Growth of the WH cell line was substantially inhibited in a dose and time-course dependent fashion. The mechanism of p21 growth inhibition was found to be due to G0/G1 arrest and not the induction of apoptosis. In contrast, p21 adenovirus failed to inhibit the growth of T24 bladder cancer cells because T24 cells were resistant to viral infection. The 253J bladder cancer cells exhibited marked sensitivity to adenovirus; substantial growth inhibition was seen with both sense and antisense p21 very early in the time course of infection. CONCLUSIONS: We found significant variation in the basal level of p21 protein expression in several human bladder cancer cell lines. Increased p21 expression as a result of adenoviral infection may be a potent growth suppressor in some human bladder cancer because it elicits cell cycle arrest in G0/G1 stage, but not the induction of apoptosis. Bladder cancer cells exhibit a wide spectrum of sensitivity to adenoviral infection that may be caused by the presence of viral receptor heterogeneity. This wide spectrum of sensitivity has significant basic scientific and clinical implications and warrants further study.     

A system for the enhancement of adenovirus mediated gene transfer to uro-epithelium

PURPOSE: Recombinant adenovirus has been used widely as an in vivo gene transfer vector, although its transfection efficiency in bladder tissue is limited. Several studies have indicated that the bladder surface glycosaminoglycan (GAG) layer functions as a nonspecific anti-adherence factor and possibly as a first line anti-infection defense mechanism. We determined whether recombinant adenovirus mediated gene transfer could be enhanced in intact bladders by HCl pretreatment and by alterations in the GAG layer. MATERIALS AND METHODS: In vitro viral transfection efficiencies with and without the GAG analog pentosan polysulfate (Sigma Chemical Co., St. Louis, Missouri) were determined in bladder muscle and urothelial cells. Immunocytochemical studies and Western blot analysis were performed to determine whether urothelial cells possessed the Coxsackievirus and adenovirus receptor. Rat bladders were intravesically pretreated with HCl at various concentrations and for various periods. After 60 mM. HCl pretreatment for 10 minutes 2 x 109 pfu of recombinant adenovirus carrying the Escherichia coli LacZ gene were intravesically instilled into the bladders. RESULTS: Adenoviral infection of urothelial cells was significantly reduced in the presence of pentosan polysulfate in vitro. Coxsackievirus and adenovirus receptor expression was detected in urothelial cells in vivo and in vitro. Bladders pretreated with HCl resulted in an alteration of the bladder GAG layers. After intravesical gene instillation reporter gene analyses using X-5-bromo-4-chloro-3-inodolyl beta-D-galactopyranoside (Sigma Chemical Co.) showed approximately 80% urothelial cell transfection efficiency in bladders pretreated with HCl. However, less than 10% of the urothelial cells expressed the transfected gene in control HCl untreated bladders. CONCLUSIONS: Primary urothelial cells and bladder carcinoma cells can be efficiently transfected using an adenoviral vector with similar infectivity. In vitro viral infection shows that the efficiency of adenoviral transfection is significantly reduced in the presence of pentosan polysulfate, a GAG analog. Adenoviral mediated gene transfer to bladder urothelium is enhanced by HCl pretreatment.