Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0001486 (
Adenovirus
)
3,125
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Primary cultures of hepatocytes isolated by collagenase perfusion of adult rats were transformed by infection with adenovirus type 5 or transfection with adenovirus DNA. Total virion DNA or recombinant plasmid DNA containing the adenovirus E1A and E1B genes transformed hepatocytes at comparable frequencies. No foci of replicating hepatocytes were detected after transfection with a plasmid containing the E1A gene alone. The frequency of transformation by the adenovirus E1A and E1B genes was dependent on the composition of the culture medium. Transformation occurred at a low frequency when the transfected hepatocytes were maintained in a chemically defined medium (CDM), but the frequency was enhanced 8- to 10-fold when the cells were maintained in (i) serum-supplemented medium or (ii) CDM supplemented with epidermal growth factor. Cell lines derived from the adenovirus-transformed colonies of hepatocytes expressed adenovirus E1A and E1B RNAs. When hepatocytes were maintained in CDM supplemented with dimethyl sulfoxide and transfected with plasmids containing the E1A and E1B genes, it was possible to derive cell lines that retained the ability to express several liver-specific genes, including albumin,
transferrin
, hemopexin, and the third component of complement. The amount of albumin secreted per cell varied from 1 to 5 pg per cell per 24 h, and in one cell line it was below detectable levels by passage 9.
Adenovirus
-transformed hepatocytes were not tumorigenic when inoculated subcutaneously into neonatal syngeneic rats. We conclude that the adenovirus E1A and E1B genes are capable of transforming adult rat hepatocytes, a differentiated epithelial cell type.
...
PMID:Transformation of differentiated rat hepatocytes with adenovirus and adenovirus DNA. 366 53
Adenovirus
-polylysine-DNA complexes were evaluated for their capacity to accomplish direct in vivo gene transfer to airway epithelium employing a rodent model. Binary complexes containing
transferrin
or adenovirus, or combination complexes containing both
transferrin
and adenovirus, were evaluated. The highest in vitro gene transfer efficiency in primary cultures of airway epithelial cells was accomplished by the combination complexes. This result was paralleled in vivo. Transient gene expression of up to 1 week was observed with localization of the transduced cells to the region of the small airways. These results establish the feasibility of this type of approach for gene therapy applications.
...
PMID:Direct in vivo gene transfer to airway epithelium employing adenovirus-polylysine-DNA complexes. 846 80
Adenovirus
type 2 (Ad2) binds the coxsackie B virus Ad receptor and is endocytosed upon activation of the alphav integrin coreceptors. Here, we demonstrate that expression of dominant negative clathrin hub, eps15, or K44A-dynamin (dyn) inhibited Ad2 uptake into epithelial cells, indicating clathrin-dependent viral endocytosis. Surprisingly, Ad strongly stimulated the endocytic uptake of fluid phase tracers, coincident with virus internalization but without affecting receptor-mediated
transferrin
uptake. A large amount of the stimulated endocytic activity was macropinocytosis. Macropinocytosis depended on alphav integrins, PKC, F-actin, and the amiloride-sensitive Na+/H+ exchanger, which are all required for Ad escape from endosomes and infection. Macropinocytosis stimulation was not a consequence of viral escape, since it occurred in K44A-dyn-expressing cells. Surprisingly, 30-50% of the endosomal contents were released into the cytosol of control and also K44A-dyn-expressing cells, and the number of fluid phase-positive endosomes dropped below the levels of noninfected cells, indicating macropinosomal lysis. The release of macropinosomal contents was Ad dose dependent, but the presence of Ad particles on macropinosomal membranes was not sufficient for contents release. We conclude that Ad signaling from the cell surface controls the induction of macropinosome formation and leakage, and this correlates with viral exit to the cytosol and infection.
...
PMID:Adenovirus triggers macropinocytosis and endosomal leakage together with its clathrin-mediated uptake. 1222 Oct 69
Hepatitis is caused by hepatitis viruses, but hepatitis or hepatocellular enzyme abnormalities is sometimes associated with infection by the hepatiticomimetic viruses. The direct and indirect effects of infection with hepatiticomimetic viruses were examined in two human hepatocyte systems. Poliovirus, adenovirus, and herpes simplex virus (HSV) induced cytopathology in Hep G2 cells. Measles virus caused no change in hepatocytes. Poliovirus infection did not affect cellular protein synthesis, and the peak of hepatocellular enzyme release coincided with the peak of virus release. The increase in adenovirus protein synthesis correlated with the decrease of
transferrin
synthesis, and enzyme release was not prominent. HSV induced viral protein synthesis with enhanced processing and inhibition of synthesis of alpha1-antitrypsin. The peak of enzyme release was later than the peak of virus release. In primary hepatocytes, poliovirus, adenovirus, and induced extensive cytopathology and enzyme release, and VZV caused cytopathology and significant but minute enzyme release. The ratio of lactate dehydrogenase to aspartate aminotransferase release was larger in poliovirus infection in both hepatocytes than in HSV or VZV infection. Although poliovirus and adenovirus are released by cytolysis and HSV and VZV are secreted by exocytosis of cytoplasmic vacuoles, enzyme release was independent of the type of virus release.
Adenovirus
showed strong cytotoxicity but did not modify the membrane nor cause enzyme release. Enzyme release was associated with modification of the surface membrane due to apoptosis with poliovirus and necrosis with HSV. Consequently hepatocellular injury by viral infection did not reflect the amount or pattern of hepatocellular enzyme release.
...
PMID:Infection and direct injury in human hepatocyte explants and a hepatoblastoma cell line due to hepatiticomimetic (non-hepatitis) viruses. 1731 34
Adenovirus
(Ad) vector targeting requires presentation of specific ligands on the virion's surface. Geneti-chemical targeting is based on the genetic introduction of cysteine residues bearing reactive thiol groups into solvent-accessible capsomeres of the virion and subsequent chemical coupling of ligands. Here, we exploited this technology to modify the pIX capsomere with high-affinity ligands. Genetic introduction of C-terminal cysteines to pIX allowed for specific coupling of full-length proteins to the virion, while not affecting vector production. Direct comparison of the two high-affinity ligands receptor- associated protein (RAP) and
transferrin
(Tf) revealed that targeting after coupling of a high-affinity ligand to pIX presumably requires release of the ligand from its receptor after cell entry. In addition, data obtained by live cell imaging of labeled vector particles demonstrated that coupling of very large proteins to pIX can impair intracellular vector particle trafficking. Finally, we demonstrate that the geneti-chemical targeting technology is suitable for in vivo targeting to liver after intravenous injection. Our data provide significant insight into basic requirements for successful targeting of pIX-modified Ad vectors.
...
PMID:Targeting of adenovirus vectors to the LRP receptor family with the high-affinity ligand RAP via combined genetic and chemical modification of the pIX capsomere. 1871 9
Adenovirus
vectors (Ad) have been frequently used for cancer gene therapy research because of their high gene transduction efficiency. However, systemic administration of conventional Ad can lead to the acute accumulation of virus particles and transgene expression in the liver, which may cause severe hepatotoxicity. For these reasons, clinical application of Ad for systemic administration has been limited, although intratumor administration of Ad has shown marked antitumor effects. Therefore, to promote the application of Ad in systemic cancer gene therapy, especially against the distant metastatic cancer, a novel Ad with marked accumulation in tumors and minimal hepatic distribution is needed. From this perspective, bioconjugation with polyethylene glycol (PEGylation) to Ad surface is a promising strategy, and we are trying to develop cancer targeted Ad by PEGylation approach. Through our study, we particularly clarified that PEGylated Ad (PEG-Ad) with optimized PEG modification ratio exhibited the enhanced distribution and gene expression in tumor tissue via systemic injection, which was based on the enhanced permeability and retention (EPR) effect. Moreover, PEG-Ad encoding therapeutic gene demonstrated not only stronger tumor-suppressive activity but also fewer hepatotoxic side effects compared with conventional Ad. In addition, we further attempted the active targeting using targeting ligand on the tip of PEG. We revealed that PEG-Ad with
transferrin
as a tumor targeting ligand could transduce more efficiently into tumor cells, which express transferrin receptor, compared with conventional PEG-Ad. In this symposium, I will present our approach for development of cancer targeted Ad by PEGylation.
...
PMID:[Development of pegylated adenovirus vector for cancer gene therapy]. 1904 92
