The influence of synovial fluid on adenovirus-mediated gene transfer to the synovial tissue

Management of Adenoviral Keratoconjunctivitis: Challenges and Solutions

Human adenovirus (HAdV) is the most common cause of infectious conjunctivitis, accounting for up to 75% of all conjunctivitis cases and affecting people of all ages and demographics. In addition to ocular complications, it can cause systemic infections in the form of gastroenteritis, respiratory disease, and dissemination in immunocompromised individuals. HAdV causes lytic infection of the mucoepithelial cells of the conjunctiva and cornea, as well as latent infection of lymphoid and adenoid cells. Epidemic keratoconjunctivitis (EKC) is the most severe ocular manifestation of HAdV infection, in which the presence of subepithelial infiltrates (SEIs) in the cornea is a hallmark feature of corneal involvement. SEIs have the tendency to recur and may lead to long-term visual disability. HAdV persistence and dissemination are linked to sporadic outbreaks of adenoviral keratoconjunctivitis. There is no FDA-approved antiviral for treating adenoviral keratoconjunctivitis, and as such, solutions should be proffered to handle the challenges associated with viral persistence and dissemination. Several treatment modalities have been investigated, both systemically and locally, to not only mitigate symptoms but reduce the course of the infection and prevent the risk of long-term complications. These options include systemic and topical antivirals, in-office povidone-iodine irrigation (PVI), immunoglobulin-based therapy, anti-inflammatory therapy, and immunotherapy. More recently, combination PVI/dexamethasone ophthalmic formulations have shown favorable outcomes and were well tolerated in clinical trials for the treatment of EKC. Possible, future treatment considerations include sialic acid analogs, cold atmospheric plasma, N-chlorotaurine, and benzalkonium chloride. Continued investigation and evaluation of treatment are warranted to reduce the economic burden and potential long-term visual debilitation in affected patients. This review will focus on how persistence and dissemination of HAdV pose a significant challenge to the management of adenoviral keratoconjunctivitis. Furthermore, current and future trends in prophylactic and therapeutic modalities for adenoviral keratoconjunctivitis will be discussed.

Adenovirus 5 produces obesity and adverse metabolic, morphological, and functional changes in the long term in animals fed a balanced diet or a high-fat diet: a study on hamsters

Adenovirus 5 (Ad-5) infection is a common cause of acute respiratory infections and the main vector used in gene therapy. There are few studies on the relationship of Ad-5 to obesity. In the present study, we evaluated the chronic effects of Ad-5 infection on golden (Syrian) hamsters fed either a balanced diet (BD) or a high-fat diet (HFD). After a single inoculation with Ad-5 (1 × 10⁷ pfu), the body weight of the animals was measured weekly. Medium-term (22 weeks) serum biochemical analyses and long-term (44 weeks) liver morphology, adiposity, and locomotive functionality (movement velocity) assessments were carried out. In the animals fed the BD, adenovirus infection produced hyperglycemia and hyperlipidemia. In the long term, it produced a 57% increase in epididymal pad fat and a 30% body weight gain compared with uninoculated animals. In addition, morphological changes related to non-alcoholic fatty liver disease (NAFLD) were observed. The animals fed the HFD had similar but more severe changes. In addition, the hamsters presented an obesity paradox: at the end of the study, the animals that had the most morphological and functional changes (significantly reduced movement velocity) had the lowest body weight. Despite the fact that an HFD appears to be a more harmful factor in the long term than adenovirus infection alone, infection could increase the severity of harmful effects in individuals with an HFD. Epidemiological studies are needed to evaluate the effect of adenovirus as a precursor of chronic liver and cardiovascular diseases, including the chronic effects of gene therapy.

Enhanced in vivo gene transfer into the placenta using RGD fiber-mutant adenovirus vector

Among viral vectors, the fiber-mutant adenovirus vector carrying the Arg-Gly-Asp (RGD) peptide sequence (Ad-RGD) seems to have potential for both clinical gene therapy and basic research. As a part of a thorough evaluation of Ad-RGD in preclinical studies, we designed an experiment to investigate in detail the distribution of Ad-RGD compared with conventional adenovirus vector (WT-Ad) in pregnant mice. Surprisingly, Ad-RGD had substantial placental tropism, at 10-100 times that of WT-Ad. Transgene expression was sustained for at least 7 days, and Ad-RGD expressing firefly luciferase or red fluorescent protein has so far caused no placental dysfunction leading to fetal death. Ad-RGD showed high levels of transduction efficiency in in vitro-differentiated trophoblast stem cells, in which higher expression of αvβ3 integrin than in undifferentiated cells was observed. Our results suggest that the use of Ad-RGD or another RGD-mediated targeting strategy holds promise for drug delivery to the placenta.

Development of adenoviral vector-based mucosal vaccine against influenza

The recent pandemic threat of the influenza virus makes the increased safety and efficiency of vaccination against the pathogen a most important issue. It has been well established that for maximum protective effect, the vaccination should mimic natural infection. Therefore, recent efforts to develop a new influenza vaccine have focused on intranasal immunization strategies. Intranasal immunization is capable of inducing secretory IgA and serum IgG responses to provide a double defense against mucosal pathogens. On the other hand, it is desirable that a live pathogen is not present in the vaccine. In addition, for optimal induction of the immune responses via the nasal route, efficient and safe mucosal adjuvants are also required. This is possible to attain using an adenoviral vector for vaccine development. Adenoviral vectors are capable of delivering and protecting the antigen encoding sequence. They also possess a natural mechanism for penetrating into the nasal mucous membrane and are capable of activating the innate immune response. This review describes the basic prerequisites for the involvement of recombinant adenoviruses for mucosal (nasal) vaccine development against the influenza virus.

Gene therapy and cement injection for restabilization of loosened hip prostheses

Loosening of orthopedic hip prostheses is an increasing health problem. In elderly patients with comorbidity,revision surgery may lead to high mortality rates. A less invasive surgical technique is therefore required to reduce these patient risks. To this end a percutaneous gene therapy approach was designed to destroy the periprosthetic loosening membrane, and enable refixing of the hip prosthesis with percutaneous bone cement injections under radiological guidance. In this phase 1/2 dose-escalating gene therapy clinical trial, 12 patients were treated. Toxicity and hip function variables were monitored up to 6 months posttreatment. All patients completed the study and no dose-limiting toxicity was observed. Improvement in walking distance, independence,and pain was demonstrated particularly in patients receiving 3 x 10(10) and 1 x 10(11) viral particles. Taken together, these data show that this gene therapy approach targeted at the interface membrane around a loosened hip prosthesis is a feasible treatment option for elderly patients for whom surgical intervention is not appropriate.

Efficacy of topical immunoglobulins against experimental adenoviral ocular infection

PURPOSE

Presently, there is no U.S. Federal Drug Administration (FDA)-approved antiviral therapy for the treatment of adenoviral (Ad) ocular infections. The goal of the present study was to determine the antiviral efficacy of human immunoglobulin (Ig), a preparation of highly purified and concentrated immunoglobulin (IgG) antibodies isolated from a large pool of human plasma donors, in vitro and on acute Ad replication in the Ad5 New Zealand White (NZW) rabbit ocular model.

METHODS

The antiviral activity of human Ig against multiple wild-type and human ocular isolates of adenovirus serotypes was investigated in vitro by using neutralizing assays in different human epithelial cell lines. In vivo bilateral topical ocular toxicity and antiviral efficacy were evaluated with established Ad5/NZW rabbit ocular models. In vivo Ig antiviral results were compared with those obtained with topical 0.5% cidofovir and saline.

RESULTS

In three different epithelial cell lines, <or=6.25 mg/mL of the Ig neutralized several wild-type adenoviral serotypes that cause ocular infections. A dose of <or=10 mg/mL neutralized 88% of ocular isolates of the adenovirus serotypes. After treatment of infected animals, adenovirus-positive cultures per total cultures (days 1-14; P = 0.021), the duration of Ad5 shedding, (P = 0.008), and the mean combined ocular viral titer during the early (days 1-5; P = 0.0001) and the late (days 7-14; P = 0.013) phases of infection were significantly lower in Ig-treated animals than in saline-treated animals and were similar to those in cidofovir-treated animals.

CONCLUSIONS

Ig demonstrated antiviral properties against multiple adenoviral serotypes in vitro and in the Ad5/NZW rabbit ocular model. Further studies are needed to advance topical immunoglobulin for treatment and prophylaxis of ocular infections.

Adenoviral serotypes in gene therapy for esophageal carcinoma

PURPOSE

Adenoviral gene therapy could potentially play a role in the treatment of esophageal cancer and Barrett's esophagus. The adenoviruses can be categorized in different serotypes. The goal of the present study was to investigate the transduction efficacy of different adenoviral serotypes in different models of esophageal cancer and Barrett's esophagus.

METHODS

Chimeras of the adenoviral serotype 5 backbone and fibers of serotypes 5, 16, 35, 40, and 50 were constructed with PCR technology. For esophageal cancer, cell lines were used originating from with adenocarcinoma and squamous cell carcinoma, respectively. Differentiating Caco-2 cells were used as an in vitro model for Barrett's esophagus. GFP was used as a reporter gene and transduction efficacy was assessed by flow cytometry.

RESULTS

Overall transduction was rather efficient in the cancer cell lines. Especially serotype 16 and 50 exhibited an improved transduction compared with the other serotypes. In the Caco-2 cell lines, we observed a decreased transduction upon differentiation of the cells. All serotypes had a very limited transduction and no serotype had an additional value in this setting.

CONCLUSIONS

Some serotypes could have an additional value in the development of gene therapy for esophageal cancer. Especially serotype 16 and 50 exhibited an improved transduction in esophageal cancer cells compared with the native serotype 5. In the setting of Barrett's esophagus, none of the serotypes had an improved potency as in differentiated intestinal cells all serotypes had a very limited transduction.

Gene therapy works in animal models of rheumatoid arthritis...so what!

Rheumatoid arthritis (RA) is a systemic disease with polyarticular manifestation of chronic inflammation in the knees and small joints of hand and feet. The current systemic anti-tumor necrosis factor (TNF)-alpha therapies with biologics ameliorate disease in 60% to 70% of RA patients. However, biologics must be given systemically in relatively high dosages to achieve constant therapeutic levels in the joints, and side effects have been reported. To this end, local gene delivery can provide an alternative approach to achieve high, long-term expression of biologics, optimizing the therapeutic efficacy and minimizing systemic exposure. Evidence from animal models convincingly supports the application of local gene therapy in rheumatoid arthritis, but preclinical studies remain necessary to evaluate the merge of cell-specific targeting, viral vector development, and disease-regulated transgene expression to optimize efficacy and safety.

Technology Insight: gene transfer and the design of novel treatments for rheumatoid arthritis

Rheumatoid arthritis (RA) is a chronic inflammatory disease characterized by systemic inflammation and joint destruction. Novel therapies have emerged during the past decade, marking a new era in the treatment of RA. Meanwhile, in vivo and in vitro gene-transfer studies have provided valuable insights into mechanisms of disease pathogenesis. Advanced gene-delivery techniques and animal models promise further progress in RA research and the development of novel therapeutic strategies for this disease. In this article we provide an overview of the wide spectrum of potential targets that have been identified so far, discuss currently available gene-transfer methods, and outline the barriers that need to be overcome for these approaches to be successfully applied in daily practice.

Enhancement of adenovirus-mediated gene delivery to rheumatoid arthritis synoviocytes and synovium by fiber modifications: role of arginine-glycine-aspartic acid (RGD)- and non-RGD-binding integrins

Rheumatoid arthritis (RA) fibroblast-like synoviocytes (FLS) do not express the coxsackie-adenovirus (Ad) receptor and are poorly permissive to Ad serotype 5 (Ad5). Genetically modified, coxsackie-Ad receptor-independent Ad5 vectors were studied for gene delivery in human RA FLS and synovium explants and murine collagen-induced arthritis. Short-fiber Ad5 vectors with seven fiber shaft repeats Ad5GFP-R7-knob, Ad5GFP-R7-arginine-glycine-aspartic acid (RGD) (RGD-liganded), and Ad5GFPDeltaknob (knob-deleted) were compared with Ad5GFP-FiWT, a conventional wild-type (WT) Ad5 vector. Gene transfer by Ad5GFP-R7-knob and Ad5GFP-R7-RGD was 40- to 50-fold and 25-fold higher, respectively, than Ad5GFP-FiWT in FLS. Ad5GFPDeltaknob was more efficacious than its knob-bearing version Ad5GFP-R7-knob in FLS transduction. Virus attachment and entry required RGD- and LDV-binding integrins including alpha(v), alpha(v)beta3, a(v)beta5, and beta1. Ad5GFP-R7-knob infection of FLS was partially neutralized by synovial fluid (SF), but remained 30- to 40-fold higher than Ad5GFP-FiWT in the presence of SF. Ad5GFPDeltaknob was partially neutralized by SF at low virus input, but escaped viral neutralization by SF at higher virus input. Gene transfer to human synovium ex vivo explants and murine collagen-induced arthritis in vivo was also more efficient with short fiber-modified vectors (with and without the knob domain) than Ad5GFPFiWT. Gene transfer by short fiber-modified vectors was enhanced by inflammatory cytokines in vitro and in the presence of inflammation in murine synovium in vivo. Our data indicated that the highly efficient gene delivery RA was mediated by RGD- and non-RGD-binding integrins and enhanced by inflammation. Short fiber modifications with knob ablation may be a strategy to enhance gene delivery, reducing vector dose and vector-induced inflammation and toxicity.

Immune responses against adenoviral vectors and their transgene products: a review of strategies for evasion

Human adenoviruses have been adopted as attractive vectors for in vivo gene therapy since they have a well-characterized genomic organization, can be grown to high titres and efficiently transduce a wide spectrum of dividing and non-dividing cells. However, the first-generation of adenoviral (Ad) vectors yielded only transient expression of the transgene in most immunocompetent mice. This constituted a major limitation of this early vector type. In contrast, persistent transgene expression can be established in immunodeficient mice. This suggests that the immunogenicity of adenoviral vectors limits the effective period of adenovirus-based gene therapy. Much effort has been put in devising strategies to circumvent the limitations imposed onto gene therapy by the immune system. Improvements in vector design have significantly improved the performance of the adenovirus vectors. Based on these results it is reasonable to anticipate that new modifications of the vectors will overcome some of the immunological barriers and will further expand the applicability of adenovirus-derived vectors.

Immune response against gene therapy vectors: influence of synovial fluid on adeno-associated virus mediated gene transfer to chondrocytes

Intraarticular gene transfer with adeno-associated virus (AAV) vectors may allow efficient therapeutic transgene expression within the joint. In an effort to understand potential obstacles (particularly immunity against AAV vectors) to intraarticular gene therapy better, our objective was to determine whether synovial fluid (SF) influenced AAV-mediated gene transfer to chondrocytes. SF and sera from 21 patients with joint diseases were collected. Neutralizing activity against AAV/interleukin-4 (IL-4) was determined by assessing the ability of SF or serum to inhibit AAV/IL-4 transduction to the C20A4 chondrocytes. IgGs were purified from SF by salt-dependent chromatography. Anti-AAV IgG levels were determined by ELISA in the SF. SF and sera from all the patients inhibited AAV-mediated gene transfer to chondrocytes. Six SF out of 21 exerted a stronger inhibition. Serum from healthy patients were also inhibitory. Purified IgGs from SF exhibited inhibition patterns similar to those seen with whole SF. Anti-AAV IgG were found in SF from 13 patients out of 18. Moreover, in the SF, anti-AAV IgG level was correlated with the neutralizing activity (p < 0.001, r = 0.716). A correlation was observed between levels of inhibition by the SF and serum (P < 0.0001, r = 0.813). Inhibition of AAV/IL-4 infection of C20A4 cells by SF and sera was abolished by increasing the number of AAV/IL-4 particles. SF from patients with joint disease consistently inhibited AAV infection of chondrocytes in vitro. This effect was ascribable to IgG, most probably directed against AAV. In the future, these data may be useful for tailoring intraarticular AAV-mediated gene therapy to individual patients.

Prevalence of neutralizing antibodies to adenoviral serotypes 5 and 35 in the adult populations of The Gambia, South Africa, and the United States

One of the major limitations of the use of adenoviruses as gene therapy vectors is the existence of preformed immunity in various populations. Recent studies have linked failure of adenoviral gene therapy trials to the presence of antiadenoviral neutralizing antibodies (NAb). Understanding the distribution and specificity of such antibodies will assist in the design of successful recombinant adenoviral gene therapies and vaccines. To assess the prevalence of NAb to adenovirus serotypes 5 and 35 (Ad5 and Ad35), we analyzed serum samples from adult immunocompetent individuals living in The Gambia, South Africa, and the United States by using a neutralization assay. Serum samples were incubated with A549 lung carcinoma cells and adenoviruses encoding enhanced green or yellow fluorescent proteins; results were analyzed by fluorescence microscopy and flow cytometry. Using this technique, we found a high prevalence of NAb against Ad5 in Gambian, South African, and U.S. subjects at both low and high titers. Conversely, all subjects displayed a low prevalence of NAb to Ad35; when present, anti-Ad35 NAb were seen at low titers. Because of the ability of adenoviruses to elicit systemic and mucosal immune responses, Ad35 with its low NAb prevalence appears to be an attractive candidate vector for gene therapy applications.

Gene therapy in animal models of rheumatoid arthritis: are we ready for the patients?

Rheumatoid arthritis (RA) is a chronic inflammatory disease of the synovial joints, with progressive destruction of cartilage and bone. Anti-tumour necrosis factor-α therapies (e.g. soluble tumour necrosis factor receptors) ameliorate disease in 60–70% of patients with RA. However, the need for repeated systemic administration of relatively high doses in order to achieve constant therapeutic levels in the joints, and the reported side effects are downsides to this systemic approach. Several gene therapeutic approaches have been developed to ameliorate disease in animal models of arthritis either by restoring the cytokine balance or by genetic synovectomy. In this review we summarize strategies to improve transduction of synovial cells, to achieve stable transgene expression using integrating viruses such as adeno-associated viruses, and to achieve transcriptionally regulated expression so that drug release can meet the variable demands imposed by the intermittent course of RA. Evidence from animal models convincingly supports the application of gene therapy in RA, and the feasibility of gene therapy was recently demonstrated in phase I clinical trials.

Gene transfer as a future therapy for rheumatoid arthritis

Inhibiting key pathogenic processes within the rheumatoid synovium is a most attractive goal to achieve, and the number of potential intra- and extracellular pathways operative in rheumatoid arthritis (RA) that could be used for a gene therapy strategy is increasing continuously. Gene transfer or gene therapy might also be one of the approaches to solve the problem of long-term expression of therapeutic genes, in order to replace the frequent application of recombinant proteins, in the future. However, at present, gene therapy has not reached a realistic clinical stage, which is mainly due to severe side effects in humans, the complexity of RA pathophysiology and the current state of available gene transfer techniques. On the other hand, novel gene delivery systems are not restricted to vectors or certain types of cells, as mobile cells including macrophages, dendritic cells, lymphocytes and multipotent stem cells can also be used as smart gene transfer vehicles. Moreover, the observation in animal models that application of viral vectors into a joint can exert additional therapeutic effects in nearby joints might also facilitate the transfer from animal to human gene therapy. Future strategies will also examine the potential of novel long-term expression vectors such as lentiviruses and cytomegalovirus (CMV)-based viruses as a basis for future clinical trials in RA.

Mobility and stability of gene complexes in biogels

The tenacious secretions lining the conductive airways of cystic fibrosis (CF) patients may pose a significant barrier to successful gene therapy to the lung. In this work, we evaluated the diffusion of nanospheres and cationic DOTAP lipoplexes through CF sputum and the influence of CF mucus components on the physicochemical properties and gene expression of cationic DOTAP lipoplexes and neutral, pegylated GL67 lipoplexes. The number of particles transported through the sputum was extremely low (<0.5%) and strongly depending on the size of the particles, with almost no transport for the largest nanospheres (560 nm). For small particles (<150 nm), the low transport was primarily due to the long distance they have to travel through the sputum, while for larger particles also sterical obstruction was responsible for the low transport. Upon exposure of the cationic DOTAP lipoplexes to albumin, linear DNA or mucin (at concentration ratios expected to occur in vivo) a significant decrease in gene transfection activity was observed. This was primarily due to aggregation of the lipoplexes. However, exposure of pegylated GL67 lipoplexes to the same components did not affect their gene transfection activity. Indeed, it was determined that CF mucus components did not interact significantly with these neutral, pegylated GL67 lipoplexes.

The tolerability of viscosupplementation: low incidence and clinical management of local adverse events

Hylan G-F 20 (Synvisc, Genzyme Biosurgery, Ridgefield, NJ) is a visco supplement indicated for the treatment of pain due to osteoarthritis (OA) of the knee. Overall, the therapy is well tolerated with a low incidence of local and systemic adverse events (AEs). In our large clinical practice, our overall rate of local pain and swelling with treatment is consistent with that of previous reports and the product labeling. Local AEs that do occur with therapy are mostly mild to moderate in nature, transient, and resolve spontaneously or with symptomatic treatment. Local AEs thought to be related to the treatment are clinically manageable and do not result in long-term sequelae, such that their occurrence should not preclude patients from the benefit of OA pain relief with therapy, including continued pain relief with repeat treatment. Based on previous published reports of hylan G-F 20 and our extensive clinical experience, relief of OA knee pain with hylan G-F 20 far outweighs the low risk of local AEs for patients who do not respond to other therapies indicated for the treatment of OA knee pain.

Gene therapy for rheumatoid arthritis. Lessons from animal models, including studies on interleukin-4, interleukin-10, and interleukin-1 receptor antagonist as potential disease modulators

Evidence from animal models convincingly supports the fact that gene therapy can be an advantageous strategy in the treatment of chronic destructive RA. In this article, we review the state of the art in anticytokine gene transfer into the synovial arthritic joint with the emphasis on IL-1Ra, IL-4, and IL-10 effects on CIA in mice. In CIA, only high and continuous release of IL-1Ra protein systemically by mini-osmotic pumps could prevent disease onset and was curative in mice. Local gene transfer seemed to be the obvious way to reach the high local levels that are demanded for protection. It was shown that local IL-1Ra overexpression reduced arthritis incidence and severity as well as tissue destruction. In line with observations about neutralizing antibodies and soluble receptors, gene therapy with TNF soluble receptors provided anti-inflammatory activity in early arthritis but not in advanced arthritis. The limited efficacy at later stages and poor protection against destruction imply that the combination of gene constructs for TNF and IL-1 inhibitors is the obvious direction for future therapy. Apart from targeting of proinflammatory cytokines, adenoviral overexpression of IL-10 and IL-4 may have therapeutic applicability. Local injection of AdIL-10 in the knee joint was effective at the site, but also highly reduced spreading to ipsilateral sites. High local dosages caused suppression in contralateral sites as well. The reports on the anti-inflammatory effect of AdIL-4 are conflicting; however, all present data showed that IL-4 overexpression provides impressive protection against cartilage and bone erosion. Apart from the local effects in the injected joint, it is becoming more and more clear that local treatment also affects arthritis in nearby joints. This is an intriguing general finding, which may enlarge the therapeutic applicability of gene transfer in human arthritis. Proving the feasibility of gene therapy in experimental arthritis, most research efforts are now focused on improving local gene delivery by enhanced viral infection of synovial cells, using RGD-modified adenovirus, or achieving prolonged persistence and regulated expression with AAV. Elegant future alternatives are the application of in vitro engineered T cells as a vehicle capable of specific homing to joint tissues. The feasibility of viral transduction of chondrocytes to obtain a tissue-specific approach to treat articular cartilage damage in arthritis needs further attention.

Skeletal tissue engineering: opportunities and challenges

Tissue engineering is a field of biomedicine that is growing rapidly and is critically driven by scientific advances in the areas of developmental and cell biology and biomaterial sciences. Regeneration of skeletal tissues is among the most promising areas of biological tissue repair and is providing a broad spectrum of potential clinical applications, including joint resurfacing. The availability of novel tools such as pluripotent stem cells, morphogens, smart biomaterials and gene transfer technologies, makes us dream of many exciting novel therapeutic approaches. Despite these opportunities in regenerative medicine, good clinical practice requires the clinician to question the consistency, reproducibility, validation and appropriate regulation of these new biological treatments.