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: EC:3.1.27.5 (
RNase
)
17,967
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Mechanisms of resistance to VP-16 were monitored in a series of sublines of the human testicular teratoma cell line (SuSa) derived following exposure either to fractionated X-irradiation (DXR-10) or to VP-16 using pulsed 24-hr exposures (VP10) or continuous exposure conditions (VPC2, VPC3 and VPC4). Orders of resistance expressed (ranging from 3- to 33-fold based on IC50 values derived from colony forming assays) were comparable with those likely to be encountered clinically. All of these resistant sublines showed some cross-resistance to
VCR
, and the 3 drug-selected sublines tested also proved cross-resistant to ADR. Resistance was not associated with modified 3H-VP-16 accumulation. However, decreased VP-16-induced SSBs were detectable in all the resistant sublines and a strong positive correlation was noted between the extent of SSB formation and VP-16 resistance by linear regression analysis. Topo II alpha protein content, as judged by Western blotting, was significantly decreased only in the sublines derived by continuous exposure to VP-16, but this was not progressive with increasing levels of resistance expressed.
RNase
protection assays also showed no significant differences in Topo II alpha expression in the low-level resistant DXR-10 and VP10 sublines, contrasting with the 2-fold decreases identified in the VPC2, VPC3 and VPC4 sublines. Significantly, however, mRNA levels of two alternately spliced Topo II beta mRNAs were markedly decreased (2- to 9-fold) in all the drug-selected resistant sublines. No mutations in consensus ATP-binding sequences or in the DNA-binding region of Topo II alpha were detected by single strand conformational polymorphism analysis. Significant Pgp overexpression was only identified in the most highly resistant sublines VPC3 and VPC4, which both showed 4-fold cross-resistance to
VCR
. Decreased 3H-
VCR
accumulation and partial reversal of resistance by VPM (6.6 microM) addition was also identified, consistent with a functional Pgp being overexpressed in these sublines. Modifications of Topo II expression therefore appear to precede Pgp overexpression in this series of sequentially derived VP-16 resistant sublines and to represent the predominant mechanism underlying low level (< 10-fold) resistance.
...
PMID:Multiple mechanisms of resistance in a series of human testicular teratoma cell lines selected for increasing resistance to etoposide. 790 97
In independently derived drug-resistant sublines of the mouse lymphoid tumor P388, multidrug resistance is associated with the exclusive overexpression of the mdr3 gene. In P388/
VCR
cells, mdr3 overexpression occurs in the absence of gene amplification, while in P388/ADM-2 cells overexpression is associated with mdr3 gene amplification. The mechanism underlying mdr3 overexpression in these cells was investigated. Measurement of the rate of transcription by nuclear "run-on" assays showed that increased mdr3 expression in P388/
VCR
cells was caused by transcriptional activation of the gene. Analysis of the 5' end of mdr3 mRNA transcripts by primer extension indicated that in P388/
VCR
cells, these mRNAs extended approximately 200 nucleotides upstream exon 2, about 60 nucleotides longer than their counterparts expressed in normal tissues from the known transcription start site of the gene (TS1). Northern blotting experiments using discrete exon and intron probes derived from the 5' end of the gene near TS1, together with
ribonuclease
protection using a complementary RNA probe from the same region, demonstrated that transcriptional activation in P388/
VCR
cells occurred from a novel transcription start site named TS3, located either upstream of TS1 or within intron 1 at a site immediately upstream a novel exon. In P388/ADM-2 cells, Northern blotting and
ribonuclease
protection identified overexpressed mdr3 mRNAs initiating near TS1 and a large partially spliced mdr3 mRNA species initiating upstream of TS1 at a novel initiation site designated TS2. Therefore, mdr3 overexpression in independently derived multidrug-resistant isolates of P388 cells is associated with the appearance of novel transcription start sites in the gene and novel sequences at the 5' end of the overexpressed mRNAs.
...
PMID:Transcriptional activation of the mouse mdr3 gene coincides with the appearance of novel transcription initiation sites in multidrug-resistant P388 tumor cells. 845 38
