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Query: UMLS:C0001486 (
Adenovirus
)
3,125
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Hygromycin B, an aminoglycoside antibiotic that is widely used to establish stable mammalian cell lines that carry a bacterial gene conferring resistance to the drug, is shown here to induce apoptotic programmed cell death in susceptible cells. Dying cells exhibited typical features of apoptosis, including cell shrinkage, membrane blebbing, nuclear pyknosis, and extensive internucleosomal fragmentation of DNA. Employing concentrations of hygromycin B that are typically used for selecting stable cell lines, we show that susceptible cells die rapidly, exhibiting the morphological properties of apoptosis by 18 h and detectable DNA fragmentation as early as 2 h after receiving the drug.
G418
, on the other hand, required days to cause cell death, which was not accompanied by internucleosomal DNA fragmentation. Apoptotic cell killing by hygromycin B did not require expression of wild-type p53 and was suppressed by both Bcl-2 and the
Adenovirus
type 5 E1B 19-kDa protein.
...
PMID:Induction of p53-independent apoptosis by hygromycin B: suppression by Bcl-2 and adenovirus E1B 19-kDa protein. 758 55
A predominant form of the GABAA/benzodiazepine receptor-Cl- channel complex is believed to consist of three different 48-55 kDa subunits (alpha, beta, gamma) with unknown stoichiometry. Plasmids containing the rat GABAA receptor cDNAs coding for alpha 1, beta 2, and gamma 2 were co-transfected, along with a plasmid encoding
G418
resistance, into human embryonic kidney cells previously transformed with
Adenovirus
5 (HEK-293) [J. Gen. Virol., 36 (1977) 59-72]. Four percent of the
G418
resistant colonies were found to express mRNA for all three of the GABAA subunits constitutively. A single cell clone derived from one of the alpha 1 beta 2 gamma 2 expressors has demonstrated stable electrophysiological characteristics over 25 passages. The GABA-activated Cl- current in this cell line is blocked by picrotoxin and bicuculline, and is modulated by a variety of agonist and inverse agonist ligands including diazepam, Ro 154513, zolpidem, and beta-CCE. The cell line has been used successfully over a 12-month period as a screen for novel drugs modulating GABA-mediated polarization of neuronal cells.
...
PMID:Stable expression of cloned rat GABAA receptor subunits in a human kidney cell line. 768 50
Adenovirus
(Ad) E4orf6/7, one of the early gene products of human Ads, forms a stable complex with the cellular transcription factor E2F to activate transcription from the Ad E2 promoter. E2F cDNAs have growth-promoting and apoptosis-inducing activities when overexpressed in cells. We cloned Ad5 E4orf6/7 cDNA in both simian virus 40- and human cytomegalovirus-based expression vectors to examine its transforming and apoptotic activities. The cloned E4orf6/7 collaborated with a retinoblastoma protein (RB)-nonbinding and therefore E2F-nonreleasing mutant of Ad5 E1A (dl922/947) to morphologically transform primary rat cells, suggesting that E2F is an important cellular protein functioning downstream of E1A for transformation. In a
G418
colony formation assay, E4orf6/7 was shown to suppress growth of untransformed rat cells. Moreover, a recombinant Ad expressing Ad5 E4orf6/7 induced apoptosis in rat cells when coinfected with wild-type p53-expressing Ad. Mutational analysis of E4orf6/7 revealed that both of the domains required for growth inhibition and transformation by E4orf6/7 lay in the C-terminal region, which is essential for transactivation from the upstream sequence of an E2a promoter containing E2F-binding sites. However, the smallest mutant of E4orf6/7, encoding the C-terminal 59 amino acids, failed to complement the RB-nonbinding dl922/947 mutant despite showing growth inhibition and E2F transactivation activities. Thus, it is suggested that a subregion of E4orf6/7 which is required for growth inhibition and transformation in collaboration with dl922/947 overlaps the transactivation domain of E4orf6/7.
...
PMID:Induction of transformation and p53-dependent apoptosis by adenovirus type 5 E4orf6/7 cDNA. 1055 24
Adenovirus
type 40 and 41 (Ad40, Ad41), which belong to human adenovirus subgroup F, are called fastidious adenoviruses due to their property of poor growth in cultured cell lines in vitro The effect of expression of exogenous E1B55K in Hep2 on Ad41 replication in this cell line was investigated. E1B55K gene was amplified by PCR with DNA extracted from Ad41-positive feces supernatant as template. Eukaryotic expression plasmid (pcDNA3) carrying E1B55K was constructed, purified, and transferred into Hep2 cell. Expression of E1B55K in
G418
-resistant clones was assayed by RT-PCR, and one clone named as Hep2-E1B4#4 could produce more Ad41 progenies when compared with other clones by the method of inducing complete cytopathic effect (CPE) in 293 cells. Infection of equivalent Ad41 caused more significant cytopathic effect (CPE) in Hep2-E1B#4 than that in the control cells of Hep2 or Hep2-DNA3, also suggesting enhanced viral replication in Hep2-E1B#4. The titer of Ad41 was further determined by method of immunocytochemical staining, and semi-quantity PCR was employed to compare the copy number of Ad41 genome DNA. The results showed that the yield of Ad41 in Hep2-E1B#4 was more than 9 times of that in control cells when equal amount of seed viruses were incubated, and the copy number of Ad41 genome increased 4 times in the raw extract from the infected Hep2-E1B#4 when compared with that from control cells. In conclusion, E1B55K gene transfer improved the ability of Hep2 in packaging Ad41, and the Hep2-E1B#4 cell line, which expressed E1B55K constitutively, would be helpful in isolation, cultivation and amplification of Ad41.
...
PMID:[Improved replication of enteric adenovirus type 41 in Hep2 cell line expressing E1B55K]. 1789 26
Chromosomal correction of dystrophin gene mutations is a most desirable therapeutic solution for Duchenne muscular dystrophy, as it allows production of the full-length dystrophin under the control of locus-specific promoters. Here we explored gene targeting in conditionally immortal mouse dystrophin-deficient myoblasts. We constructed an adenoviral vector for the correction of the mdx mutation, containing 6.0 kb of sequence homologous to the target locus (partial intron 21 through to exon 24 with the normal sequence of exon 23) and a neomycin expression cassette inserted in intron 23.
Adenovirus
-based gene targeting was previously reported to be beneficial in mouse embryonic stem cells, resulting in one targeted integration per three integration events. However, we found no targeted integration events among 144 stably transduced
G418
-resistant myoblast clones, reflecting efficient random integration of the adenoviral vector in myogenic cells. We found that mouse myoblasts are capable of integrating recombinant adenoviral DNA with an efficiency approaching 1%. Interestingly, dermal fibroblasts integrate adenoviral DNA up to 100 times less efficiently than myoblasts from the same mice. We also show that the efficiency of recombinant adenoviral DNA integration is influenced by preinfection cell density, possibly indicating the importance of cellular DNA replication for adenoviral integration.
...
PMID:Adenovirus-based targeting in myoblasts is hampered by nonhomologous vector integration. 1878 4
