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Target Concepts:
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Query: UMLS:C0001486 (
Adenovirus
)
3,125
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Adenovirus
type 5 (Ad5) gene therapy vectors require protection against antibodies, complement proteins and blood cells if they are to be delivered intravenously to treat metastatic disease. Such protection can be achieved by chemically modifying Ad5 with polymers based on hydrophilic HPMA. Here, such polymers were designed to include side chains bearing reactive carbonyl thiazolidine-2-thione groups (TTs) to covalently modify available amino groups of the lysine residues in the Ad5 capsid. Furthermore, the inclusion of side chains bearing positively charged quaternary ammonium groups (QAs) was designed to improve electrostatic interaction of the polymers with negatively charged Ad5 hexon protein. Finally, to enable triggered uncoating and reactivation of the Ad5, either the TTs or both the TTs and the QAs were linked to polymer backbone via reductively degradable disulfide bonds. SDS-PAGE demonstrated that these polymers covalently modified Ad5 capsid proteins in a reduction reversible manner. In infection studies, polymers containing QAs prevented binding of
coagulation factor X
to Ad5. Furthermore, the antibody and complement mediated binding of Ad5 to erythrocytes was reduced by such polymers (>95% without polymer, 25% following coating). These data indicate that coating Ad5 therapeutics with such polymers will improve blood circulation half-life and deposition at disease sites.
...
PMID:Coating of adenovirus type 5 with polymers containing quaternary amines prevents binding to blood components. 1916 85
Adenovirus
serotype 5 (Ad5) is widely used as an oncolytic agent for cancer therapy. However, its infectivity is highly dependent on the expression level of coxsackievirus-adenovirus receptor (CAR) on the surfaces of tumor cells. Furthermore, infected cells overproduce adenovirus fiber proteins, which are released prior to cell lysis. The released fibers block CAR on noninfected neighboring cells, thereby preventing progeny virus entry. Our aim was to add a CAR-independent infection route to Ad5 to increase the infectivity of tumor cells with low CAR expression and prevent the fiber-masking problem. We constructed Ad5 viruses that encode the protein transduction domain (PTD) of the HIV-1 Tat protein (Tat-PTD) in hypervariable region 5 (HVR5) of the hexon protein. Tat-PTD functions as a cell-penetrating peptide, and Tat-PTD-modified Ad5 showed a dramatic increased transduction of CAR-negative cell lines compared to unmodified vector. Moreover, while tumor cell infectivity was severely reduced for Ad5 in the presence of fiber proteins, it was only marginally reduced for Tat-PTD-modified Ad5. Furthermore, because of the sequence alteration in the hexon HVR,
coagulation factor X
-mediated virus uptake was significantly reduced. Mice harboring human neuroblastoma and neuroendocrine tumors show suppressed tumor growths and prolonged survival when treated with Tat-PTD-modified oncolytic viruses. Our data suggest that modification of Ad5 with Tat-PTD in HVR5 expands its utility as an oncolytic agent.
...
PMID:Adenovirus with hexon Tat-protein transduction domain modification exhibits increased therapeutic effect in experimental neuroblastoma and neuroendocrine tumors. 2195 4
Adenovirus
is widely used in gene therapy and vaccination as a viral vector, and its hypervariable regions (HVRs) on hexon are the main antigen recognition sites of adenovirus. The modification of this area by genetic engineering will change the antigenic specificity of the virus. In addition, recent studies have demonstrated the importance of
coagulation factor X
(FX) in adenovirus serotype 5-mediated liver transduction in vivo. The binding site of adenovirus to FX is the HVRs on hexon. By constructing five proteins containing chimeric HVRs from different adenovirus serotypes, we focused on the antigenic specificity and the affinity for FX of these proteins compared with the corresponding viruses. Our data showed that HVR5 and HVR7 had only a part of hexon activity to neutralizing antibodies (NAbs) compared with the complete activity of HVR1-7. Results also demonstrated a differential high-affinity interaction of the HVRs proteins with FX and indicated that HVRs protein had a similar binding ability with corresponding adenovirus serotype. These results highlighted some properties of chimeric HVRs proteins and revealed the influence on the structure and function of hexon proteins and adenovirus resulting from the HVRs.
...
PMID:Chimeric hexon HVRs protein reflects partial function of adenovirus. 2249 Jun 64
Adenovirus
type 5 (Ad5) specifically binds
coagulation factor X
(FX), and FX is normally essential for intravenously injected Ad5 vectors to transduce the liver. We demonstrate that the ability of FX to enhance liver transduction by Ad5 vectors is due to an unexpected ability of FX to protect Ad5 from attack by the classical complement pathway. In vitro, naive mouse serum neutralized Ad5 when FX was blocked from binding Ad5. This neutralization was mediated by natural IgM and the classical complement pathway. In vivo, FX was essential for Ad5 vectors to transduce the livers of wild-type mice, but FX was not required for liver transduction in mice that lack antibodies, C1q or C4. We conclude that Ad5 recruits FX as a defense against complement and that the sensitivity of Ad5 to inactivation by complement must be taken into account when designing vectors for systemic gene therapy.
...
PMID:Coagulation factor X shields adenovirus type 5 from attack by natural antibodies and complement. 2372 52
Adenovirus
serotype 5 (Ad5) vectors are well suited for gene therapy. However, tissue-selective transduction by systemically administered Ad5-based vectors is confounded by viral particle sequestration in the liver. Hexon-modified Ad5 expressing reporter gene under transcriptional control by the immediate/early cytomegalovirus (CMV) or the Roundabout 4 receptor (Robo4) enhancer/promoter was characterized by growth in cell culture, stability in vitro, gene transfer in the presence of human
coagulation factor X
, and biodistribution in mice. The obtained data demonstrate the utility of the Robo4 promoter in an Ad5 vector context. Substitution of the hypervariable region 7 (HVR7) of the Ad5 hexon with HVR7 from Ad serotype 3 resulted in decreased liver tropism and dramatically altered biodistribution of gene expression. The results of these studies suggest that the combination of liver detargeting using a genetic modification of hexon with an endothelium-specific transcriptional control element produces an additive effect in the improvement of Ad5 biodistribution.
...
PMID:Retargeting of gene expression using endothelium specific hexon modified adenoviral vector. 2421 Jan 28
Adenovirus
vectors are widely used in gene therapy clinical trials, and preclinical studies with these vectors are often conducted in mice. It is therefore critical to understand whether mouse studies adequately predict the behavior of adenovirus vectors in humans. The most commonly-used adenovirus vectors are derived from adenovirus serotype 5 (Ad5). The Ad5 hexon protein can bind
coagulation factor X
(FX), and binding of FX has a major impact on vector interactions with other blood proteins. In mouse serum, FX protects Ad5 vectors from neutralization by natural antibodies and complement. In the current study, we similarly find that human FX inhibits neutralization of Ad5 vectors by human serum, and this finding is consistent among individual human sera. We show that human IgM and human IgG can each induce complement-mediated neutralization when Ad5 vectors are not protected by FX. Although mouse and human serum had similar effects on Ad5 vectors, we found that this was not true for a chimeric Ad5 vector that incorporated hexon regions from adenovirus serotype 48. Interestingly, this hexon-chimeric vector was neutralized by human serum, but not by mouse serum. These findings indicate that studies in mouse serum accurately predict the behavior of Ad5 vectors in human serum, but mouse serum is not an accurate model system for all adenovirus vectors.
...
PMID:Hexons from adenovirus serotypes 5 and 48 differentially protect adenovirus vectors from neutralization by mouse and human serum. 2940 88
