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Drug
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Gene/Protein
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Target Concepts:
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Query: DrugBank:EXPT01586 (
G418
)
2,237
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The JC virus early mRNA is
alternatively spliced
to yield five transcripts that encode large T antigen, small t antigen, T'(135), T'(136), and T'(165). The splicing process is regulated differentially in transformed versus lytically infected cells and temporally during the course of a productive infection. The authors have identified a potential exonic splicing enhancer near the 3' end of the early viral mRNA that, when mutated, results in altered splice site usage. The authors have only recently begun investigating the function of the three T' proteins using genetic and biochemical approaches. These studies indicate that the T' proteins enhance viral DNA replication and bind differentially to the pRB family of cellular tumor suppressor proteins in vitro. Using a
G418
selection scheme, the authors have created cell lines that express either T antigen or each of the T' proteins individually. Preliminary analyses of these lines suggest that T antigen may induce apoptosis in rodent cells, an activity that may be blocked by other JC virus early proteins. Furthermore, examination of protein-protein interactions within the
G418
-selected cells reveal differences in binding of the viral proteins to the pRB family members relative to that seen in vitro.
...
PMID:T' proteins influence JC virus biology. 1270 66
The JC virus (JCV) regulatory proteins, large T antigen, small t antigen, T'135, T'136, and T'165, are encoded by five transcripts
alternatively spliced
from the viral early precursor mRNA. T antigen and the T' proteins share N-terminal amino acid sequences that include the L x CxE and J domains, motifs in SV40 T antigen known to mediate binding to the retinoblastoma (Rb) proteins and Hsc70, respectively. In this study,
G418
-resistant cell lines were created that express wild-type or mutant JCV T antigen and T' proteins individually or in combination. These cell lines were used to evaluate the ability of each viral protein to bind p107 and p130 in vivo, and to influence cellular growth characteristics. Differences were observed in the abilities of individual T' proteins to bind p107 and p130 and to alter their phosphorylation status. The T' proteins were also found to localize to the cell's nucleus and to be phosphorylated in a cell cycle-dependent manner. JCV T antigen and T' proteins expressed from a cytomegalovirus promoter failed to induce dense focus formation in Rat2 cells, but they did cooperate with a mutant Ras protein to overcome cellular senescence and immortalize rat embryo fibroblasts. These data indicate that, despite their sequence similarities, JCV early proteins exhibit unique activities that, in combination, effect the inactivation of cell cycle regulators, a requirement for polyomavirus-induced transformation.
...
PMID:JC virus T'135, T'136 and T'165 proteins interact with cellular p107 and p130 in vivo and influence viral transformation potential. 1716 59
Proximal spinal muscular atrophy (SMA) is a neuromuscular disorder for which there is no available therapy. SMA is caused by loss or mutation of the survival motor neuron 1 gene, SMN1, with retention of a nearly identical copy gene, SMN2. In contrast to SMN1, most SMN2 transcripts lack exon 7. This
alternatively spliced
transcript, Delta7-SMN, encodes a truncated protein that is rapidly degraded. Inhibiting this degradation may be of therapeutic value for the treatment of SMA. Recently aminoglycosides, which decrease translational fidelity to promote readthrough of termination codons, were shown to increase SMN levels in patient cell lines. Amid uncertainty concerning the role of SMN's C-terminus, the potential of translational readthrough as a therapeutic mechanism for SMA is unclear. Here, we used stable cell lines to demonstrate the SMN C-terminus modulates protein stability in a sequence-independent manner that is reproducible by translational readthrough. Geneticin (
G418
) was then identified as a potent inducer of the Delta7-SMN target sequence in vitro through a novel quantitative assay amenable to high throughput screens. Subsequent treatment of patient cell lines demonstrated that
G418
increases SMN levels and is a potential lead compound. Furthermore, treatment of SMA mice with
G418
increased both SMN protein and mouse motor function. Chronic administration, however, was associated with toxicity that may have prevented the detection of a survival benefit. Collectively, these results substantiate a sequence independent role of SMN's C-terminus in protein stability and provide the first in vivo evidence supporting translational readthrough as a therapeutic strategy for the treatment of SMA.
...
PMID:Translational readthrough by the aminoglycoside geneticin (G418) modulates SMN stability in vitro and improves motor function in SMA mice in vivo. 1915 Sep 90
DNA methyltransferase 3B (DNMT3B) is critical in abnormal DNA methylation patterns in cancer cells. Nearly 40
alternatively spliced
variants of DNMT3B have been reported. DNMT3B4 and DNMT3B7 are two kinds of splice variants of DNMT3B lacking the conserved methyltransferase motif. In this study, the effect of inactivation of DNMT3B variants, DNMT3B4 and DNMT3B7, on cell proliferation was assessed. pCMV-DNMT3B4 and pCMV-DNMT3B7 recombinant plasmids were developed and stably transfected into 293A cells. 293A cells transfected with plasmid pCMV-DNMT3B4 or pCMV-2B were then treated with
G418
to the stable cell lines. After that, 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide method was used for testing the proliferation level, and flow cytometry was used to test cell cycle distribution of the cell line. The expression of p21 was detected by real-time PCR and Western blot. The methylation status of p21 promoter was detected by methylation-specific PCR (MS-PCR). It was found that DNMT3B4 and DNMT3B7 overexpression could inhibit cell proliferation and increase the expression of p21. Cell cycle analysis demonstrated that inactivation of DNMT3B variants overexpression inhibited cell cycle progression. Inactivation of DNMT3B variants overexpression facilitated p21 expression to delay 293A cell proliferation. These findings indicate that inactivation of DNMT3B variants might play an important role in cell proliferation correlating with the change of p21.
...
PMID:Splice variants DNMT3B4 and DNMT3B7 overexpression inhibit cell proliferation in 293A cell line. 2560 92
