Anti-T cell receptor antibody prolongs transgene expression and reduces lung inflammation after adenovirus-mediated gene transfer

Gene delivery to the spinal cord: comparison between lentiviral, adenoviral, and retroviral vector delivery systems

Viral gene delivery for spinal cord injury (SCI) is a promising approach for enhancing axonal regeneration and neuroprotection. An understanding of spatio-temporal transgene expression in the spinal cord is essential for future studies of SCI therapies. Commonly, intracellular marker proteins (e.g., EGFP) were used as indicators of transgene levels after viral delivery, which may not accurately reflect levels of secreted transgene. This study examined transgene expression using ELISA after viral delivery of D15A, a neurotrophin with BDNF and NT-3 activities, at 1, 2, and 4weeks after in vivo and ex vivo delivery using lentiviral, adenoviral, and retroviral vectors. Further, the inflammatory responses and viral infection patterns after in vivo delivery were examined. Lentiviral vectors had the most stable pattern of gene expression, with D15A levels of 536 +/- 38 and 363 +/- 47 pg/mg protein seen at 4 weeks after the in vivo and ex vivo delivery, respectively. Our results show that protein levels downregulate disproportionately to levels of EGFP after adenoviral vectors both in vivo and ex vivo. D15A dropped from initial levels of 422 +/- 87 to 153 +/- 18 pg/mg protein at 4 weeks after in vivo administration. Similarly, ex vivo retrovirus-mediated transgene expression exhibited rapid downregulation by 2 weeks post-grafting. Compared to adenoviral infection, macrophage activation was attenuated after lentiviral infection. These results suggest that lentiviral vectors are most suitable in situations where stable long-term transgene expression is needed. Retroviral ex vivo delivery is optional when transient expression within targeted spinal tissue is desired, with adenoviral vectors in between.

Adenoviral Human Telomerase Reverse Transcriptase Dramatically Improves Ischemic Wound Healing Without Detrimental Immune Response in an Aged Rabbit Model

Chronic ischemic wounds are major clinical problems, and are especially prevalent in elderly patients. Management of these wounds costs billions of dollars annually in the United States. Because of the severe impairment in tissue repair, ischemic wounds among the aged are major challenges for physicians. For example, transforming growth factor-beta1 stimulates healing of young patients' ischemic wounds, but it is totally ineffective in treating the ischemic wounds of aged patients. Therefore, our goal is to develop a better therapeutic strategy for elderly patient ischemic wounds. Because human telomerase reverse transcriptase (hTERT) has emerged as having a role in promoting cell proliferation, we hypothesized that hTERT overexpression may improve ischemic wound healing in the elderly. We successfully tested this hypothesis by demonstrating for the first time that gene delivery of hTERT by adenovirus (Ad-hTERT) dramatically improved ischemic wound healing in an aged rabbit model. Importantly, our histological data indicate that no deleterious immune response was induced in the aged rabbits. This finding has broad implications for the field of gene therapy because the foremost obstacle in the use of adenoviral vectors for gene therapy is that they provoke strong innate and adaptive immune responses in the host. Moreover, Ad-hTERT significantly improved survival of primary rabbit dermal fibroblasts that were treated with hypoxia and hydrogen peroxide (oxidative stress). This model is clinically relevant because it simulates the ischemia cycle of an ischemia-reperfusion injury, which can lead to stroke, myocardial infarction, and other tissue injuries. We conclude that Ad-hTERT is an effective and novel approach to treating the ischemic wounds of elderly patients.

Induction and Inhibition of Innate Inflammatory Responses by Adenovirus Early Region Proteins

First-generation adenovirus (Ad) gene therapy vectors deleted for the E1A, E1B, and E3 regions and carrying foreign genes under the control of strong foreign promoters induce high-level innate inflammatory responses within the first 24 hrs after transduction. Both uptake of the capsid and expression of gene products encoded by the vector contribute to the innate inflammatory response. Natural infections by Ad are frequently asymptomatic, suggesting that Ad has potent methods of inhibiting inflammation. The inability of Ad vectors to counter inflammatory responses suggests that the products of the Ad genes deleted in vector construction play critical roles in inhibiting these responses. Genetic analysis of the roles of Ad early region gene functions in vivo demonstrated that a virus made replication-incompetent by deletion of the preterminal protein gene and deleted for the transcriptional activation function of E1A effectively inhibits the innate inflammatory processes induced by Ad vectors. The mechanism(s) by which the Ad early region proteins inhibit inflammation is complex, as certain early region proteins can promote as well as inhibit inflammation, depending on the genetic context of the virus. Understanding of the roles of the Ad gene products in the induction and inhibition of innate inflammatory functions offers potential for the development of non-inflammatory vectors as well as for understanding of the mechanisms by which inflammation is regulated.

Budesonide enhances repeated gene transfer and expression in the lung with adenoviral vectors

The immune response with generation of neutralizing antiviral antibodies is an obstacle to effective repeated adenoviral gene transfer. Different immunosuppressive drugs facilitate repeat administration of adenovectors, but the clinical utility is uncertain because of systemic side effects. We investigated the use of topical corticosteroid in improving gene expression after repeated injection of adenovectors into mouse lungs. Using a vector expressing murine interleukin-6 (mIL-6) as a marker cytokine for gene expression, we show that budesonide given around exposure to adenovirus to the lung significantly maintained high levels of expressed transgene protein in bronchoalveolar lavage fluid (BALF) after as many as four consecutive injections of virus at two weekly intervals (p = 0.02 versus saline). Differences between treatment groups were most obvious 4 and 6 wk after the initial exposure to adenovirus (equivalent to three and four total exposures). In Week 4, transgene mIL-6 concentration was 2,327 +/- 955 pg/ml in budesonide compared with 336 +/- 246 pg/ml in saline-treated mice (p = 0.001). However, budesonide did not significantly protect transgene expression beyond Week 8 (four prior exposures). The improved transgene expression in budesonide-treated compared with saline-treated animals was associated with a reduction, but not prevention of neutralizing antiviral antibodies (BALF p < 0.001, serum p = 0.04). We conclude that budesonide can be valuable in gene therapy of the lung where repeated transient gene transfer is necessary.

Luminometric quantitation of photinus pyralis firefly luciferase and Escherichia coli beta-galactosidase in blood-contaminated organ lysates

Firefly luciferase and Escherichia coli beta-galactosidase chemiluminescent reporter gene assays are rapid and sensitive means of detecting reporter enzyme activities in cell lysates of both eukaryotic and prokaryotic systems. In these assays, expression vectors containing the luciferase or beta-galactosidase genes are transferred to cells in culture or animal tissues in vivo. Crude cell or organ lysates are then prepared and submitted to enzyme assays. The level of enzyme activity is proportional to the efficiency of gene delivery and expression. When used with modified substrates that emit light when cleaved by the appropriate enzyme, luciferase and beta-galactosidase activity can be detected luminometrically. Attempts to apply these assays to cell lysates contaminated with blood, as from any whole organ lysate, have had questionable results thus far because of light absorption by hemoglobin in the ranges of light emission by both of these assays. We have made several adjustments to standard chemiluminescent reporter gene assay protocols to minimize errors in quantitation contributed by hemoglobin. To this end, we have developed a method for quantitating the protein due to blood and due to the organ itself in a blood-contaminated organ lysate. We have also found that the use of a colorimetric protein assay that is unaffected by hemoglobin absorbance is preferred for protein quantitation. In conclusion, luciferase and beta-galactosidase assays can be applied to blood-contaminated organ lysates; however, the luciferase assay proved to be superior due to minimal endogenous activity and lower absorption by hemoglobin of light emitted by the enzyme product.

Transient depletion of CD4 lymphocyte improves efficacy of repeated administration of recombinant adenovirus in the ornithine transcarbamylase deficient sparse fur mouse

One of the current limitations of adenoviral gene therapy is a vector-induced humoral immune response that blocks effective re-administration of the vector. In an animal model of the inborn error of urea synthesis ornithine transcarbamylase (OTC) deficiency, the sparse fur (spf/y) mouse, we tested a strategy to transiently block the CD4 mediated immune response at the time of virus administration using an anti-CD4 monoclonal antibody (GK1.5). The co-administration of GK1.5 resulted in a significantly diminished production of neutralizing antibody to the adenovirus vector, but minimally prolonged metabolic correction. A second infusion of the same virus in GK1.5 treated spf/y mice led to a complete normalization of liver OTC activity at day 3 after infection and a significant metabolic correction of urinary orotate and plasma glutamine. In contrast, there was no evidence of enhanced OTC expression or metabolic correction (measured by normalization of plasma glutamine and urinary orotate) after the second infusion of virus in spf/y mice not treated with GK1.5. Furthermore, when co-administered with two consecutive doses of adenovirus, the anti-CD4 treatment allowed improved transgene expression upon a third administration of virus and a partial normalization of the metabolic abnormalities, compared with mice that did not receive anti-CD4 treatment. The level of OTC expression from the third viral infusion, however, was lower than that from the second viral infusion. Passive transfer experiments suggest that low levels of neutralizing antibodies developing over repeated viral administration was the likely cause of the reduced transgene expression. Together, these findings demonstrated that the host immune system can be modulated to permit effective transgene expression at therapeutic levels by re-administered adenoviral vectors.

Use of helper-dependent adenoviral vectors of alternative serotypes permits repeat vector administration

We have developed a new helper adenovirus (Ad) based on serotype 2, Ad2LC8cCARP, for use in the Cre/loxP system (Parks et al. Proc Natl Acad Sci USA, 1996; 93: 13565-13570) to generate Ad vectors deleted of all protein coding sequences (helper-dependent Ad vectors (hdAd)). A comparison of Ad2LC8cCARP and our original helper virus (based on serotype 5, Ad5LC8cluc) showed that the two helper viruses amplified hdAd with a similar efficiency, and resulted in a similar yield and purity after large-scale preparation of vector. In vitro, the resulting hdAd2 had a similar transduction efficiency and expression kinetics of transgene (beta-gal) as the hdAd5. An important feature of the helper-dependent system is that all virion components, except the virion DNA, derive from the helper virus. Consequently, vectors produced with help from Ad2LC8cCARP were not neutralized by antibodies against Ad5, and vectors produced with Ad5 helper were resistant to neutralizing antibodies against Ad2. Analysis of transgene expression in mouse liver after intravenous injection of the Ad2-based hdAd showed that the vector could efficiently transduce the liver, and produce high levels of a foreign transgene, similar to those expressed by the hdAd generated with the Ad5 helper virus. Mice immunized with hdAd2 produced Ad2-neutralizing antibodies, which did not cross-react with hdAd5. To determine if successful repeat Ad vector administration could be achieved by sequential use of alternative Ad serotypes, we injected mice with hdAd2 (hSEAP) followed 3 months later by a lacZ-expressing hdAd of either the same or different serotype. Repeated administration of hdAd2 resulted in a 30- to 100-fold reduction in transgene expression compared with naive animals. In contrast, no decrease in transgene expression was observed when the second vector was of a different serotype. These results demonstrate that effective vector readministration can be achieved by the sequential use of hdAds based on alternative serotypes.

Nitric oxide inhibits heterologous CFTR expression in polarized epithelial cells

Nitric oxide (. NO) has been implicated in a wide range of autocrine and paracrine signaling mechanisms. Herein, we assessed the role of exogenous. NO in the modulation of heterologous gene expression in polarized kidney epithelial cells (LLC-PK(1)) that were stably transduced with a cDNA encoding human wild-type cystic fibrosis transmembrane conductance regulator (CFTR) under the control of a heavy metal-sensitive metallothionein promoter (LLC-PK(1)-WTCFTR). Exposure of these cells to 125 microM DETA NONOate at 37 degrees C for 24 h (a chemical. NO donor) diminished Zn(2+)-induced and uninduced CFTR protein levels by 43.3 +/- 5.1 and 34.4 +/- 17.1% from their corresponding control values, respectively. These changes did not occur if red blood cells, effective scavengers of. NO, were added to the medium. Exposure to. NO did not alter lactate dehydrogenase release in the medium or the extent of apoptosis. Coculturing LLC-PK(1)-WTCFTR cells with murine fibroblasts that were stably transduced with the human inducible. NO synthase cDNA gene also inhibited CFTR protein expression in a manner that was antagonized by 1 mM N(G)-monomethyl-L-arginine in the medium. Pretreatment of LLC-PK(1)-WTCFTR with ODQ, an inhibitor of guanylyl cyclase, did not affect the ability of. NO to inhibit heterologous CFTR expression; furthermore, 8-bromo-cGMP had no effect on heterologous CFTR expression. These data indicate that. NO impairs the heterologous expression of CFTR in epithelial cells at the protein level via cGMP-independent mechanisms.

Expression of intercellular adhesion molecule 1 (ICAM-1) is reduced in permanent focal cerebral ischemic mouse brain using an adenoviral vector to induce overexpression of interleukin-1 receptor antagonist

Our previous studies have demonstrated that overexpression of recombinant human interleukin-1 receptor antagonist protein (IL-1ra) via gene transfer can reduce ischemic brain injury. However, the mechanism of action of IL-1ra in ischemia is unclear. Since interleukin-1 can up-regulate intercellular adhesion molecules in endothelium, the present study was designed to determine whether overexpression of the IL-1ra can reduce the expression of intercellular adhesion molecule-1 (ICAM-1) after ischemic injury. Normal saline or adenovirus vector (1x109 particles) encoding the human IL-1ra gene (Ad.RSVIL-1ra) or the Escherichia coli LacZ gene (Ad.RSVlacZ) was injected into the right lateral cerebral ventricle of adult CD-1 mice. After five days, permanent middle cerebral artery occlusion (MCAO) was achieved for 24 h using an intraluminal suture. Cerebral blood flow was monitored by transcranial laser Doppler flowmetry to verify the occlusion. ICAM-1 protein was quantified using Western blot analysis and localized using immunohistochemistry. After MCAO, surface blood flow in the ischemic hemisphere was decreased to 9-11% of the baseline. There were fewer ICAM-1 positive vessels in the ischemic cortex of the Ad.RSVIL-1ra transfected mice than in the Ad.RSVlacZ transfected and saline treated mice (138+/-19 vs. 249+/-25, 284+/-22, p<0.05). Western blot analysis shows that ICAM-1 protein decreased 50-60% in the Ad. RSVIL-1ra group compared to the other two groups. There were no significant differences in the numbers of positive vessels in the ischemic basal ganglia and contralateral hemisphere among the three groups. Our studies suggest that IL-1ra overexpression can down-regulate the expression of ICAM-1 in the ipsilateral cortex in ischemic mice. Interleukin-1 may play an important role in the activation of inflammatory reaction during focal cerebral ischemia by promoting leukocyte adhesion on the endothelium cells.

A replication-incompetent adenovirus vector with the preterminal protein gene deleted efficiently transduces mouse ears

Adenoviruses offer great potential as gene therapy agents but are limited by the strong inflammatory response that occurs in response to the recombinant virus. Since the degree of inflammation correlates in part with the potential of the viral vector for replication, we constructed a preterminal protein (pTP) deletion mutant adenovirus type 5 vector, Ad5dl308DeltapTPbeta-gal, that is replication incompetent due to deletion of the pTP gene and that has the E1 genes replaced by the Escherichia coli lacZ reporter gene under the control of the cytomegalovirus major immediate-early promoter. This virus was compared with a first-generation, replication-defective adenovirus vector, Ad5dl308beta-gal, that is isogenic except that it contains a wild-type pTP gene. To examine transduction efficiency and induction of inflammation, we developed a novel system involving intradermal injection of BALB/c mouse ears. Mouse ears can be accurately measured to determine the degree of edema as an indirect measurement of inflammation. Edema and inflammation were induced in a dose- and time-dependent manner by both viruses and correlated well. LacZ activity correlated inversely with edema and inflammation. The pTP-defective vector Ad5dl308DeltapTPbeta-gal transduced mouse ears much more efficiently and induced edema and inflammatory cell infiltration approximately 10-fold less efficiently than the first-generation vector Ad5dl308beta-gal. The diminished inflammatory response and increased efficiency of transduction observed with Ad5dl308DeltapTPbeta-gal indicate its promise as a gene therapy agent for other tissues. The results also demonstrate that the mouse ear model offers potential for the study of adenovirus-induced inflammation because of the ready access of the ears, the relative ease of continuous measurement, and the sensitivity to adenovirus transducing vectors.

Induction of specific T-cell tolerance by adenovirus-transfected, Fas ligand-producing antigen presenting cells

A major problem associated with adenovirus gene therapy is the T cell-mediated immune response, which is elicited by inoculation of the adenovirus vector and leads to rapid clearance of the virus and loss of transgene expression. In this study, the immune response to adenovirus was prevented by induction of specific T-cell tolerance by pretreatment with adenovirus-infected antigen-presenting cells (APC) that express Fas ligand. Compared with control-treated mice, the tolerized mice showed prolonged expression of lacZ upon administration of AdCMVlacZ 1 week after tolerance induction. In contrast to the control mice, the tolerized mice did not display proliferation of CD3+ T cells in the spleen in response to AdCMVlacZ. Tolerance induction also was indicated by the lower production of interferon-gamma and interleukin-2 by peripheral T cells isolated from AdCMVlacZ-challenged tolerized mice than by AdCMVlacZ-challenged control-treated mice. The T-cell tolerance was specific for the adenovirus as the T-cell responses to irrelative murine cytomegalovirus remained unimpaired. Our results indicate that adenovirus-specific T-cell tolerance can be induced by APCs that coexpress Fas ligand and adenovirus antigens. We propose that this new strategy can be used to induce tolerance to adenovirus vector gene therapy with resultant prolonged expression of the transgene.

Adenovirus-mediated granulocyte-macrophage colony-stimulating factor improves lung pathology of pulmonary alveolar proteinosis in granulocyte-macrophage colony-stimulating factor-deficient mice

Mutation of the granulocyte-macrophage colony-stimulating factor (GM-CSF) gene by homologous recombination causes progressive pulmonary alveolar proteinosis (PAP) in GM-CSF-deficient mice (GM-/-). The present study tested whether adenovirus-mediated expression of GM-CSF alters the progression of PAP in GM-/- mice. Adult mice were pretreated with an anti-T cell receptor (TCR) antibody to block T cell-mediated immune response, followed by intratracheal instillation of deltaE1-E3 replication-deficient adenovirus expressing mouse GM-CSF (Av1mGM). Mice were killed 1, 3, and 5 weeks after treatment to assess lungs for GM-CSF, surfactant protein B (SP-B), alveolar macrophage maturation, and type II cell proliferation. GM-CSF was detected in BAL fluid from GM-/- mice 1 week after Av1mGM treatment, and GM-CSF mRNA was detected by RT-PCR through 5 weeks. Five weeks after Av1mGM treatment, PAP was improved and SP-B decreased as assessed by ELISA and immunostaining. Increased numbers of alveolar macrophages stained with alpha-naphthyl acetate esterase (alpha-NAE) following treatment with Av1mGM. Local expression of GM-CSF with a recombinant adenovirus ameliorated PAP in the GM-/- mice in association with enhanced maturation of alveolar macrophages.

Gene therapy for restenosis: getting nearer the heart of the matter

Intensive work over the past decade has been directed to the study of vascular gene transfer as an approach to the unresolved problem of restenosis. This effort has resulted in a significant foundation of knowledge relative to the activities of potentially therapeutic gene products as well as the capabilities and limitations of vector systems and mechanical delivery modalities available for effecting the vascular expression of these gene products. In several instances, significant progress has been made by experiments highlighting unexpected difficulties and the need for more comprehensive understanding. It is thus now possible to clearly define and address specific challenges that must be overcome in order to make feasible progress from the preclinical to the clinical arena. The key challenges at present appear to include the evolution of clinically practical delivery methods that meet the kinetic requirements of achieving efficient gene transduction and the availability of vectors that maximize efficiency while minimizing undesirable host responses. Emerging data suggest that approaches to solving each of these issues may have recently been developed. Basic research evaluating these new delivery mechanisms and molecular vectors is essential to establish their true potential for use in the clinical arena.