Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
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Drug
Enzyme
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Query: UMLS:C0699790 (
colon cancer
)
28,837
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
BLM
(bleomycin) is effective in combination therapy against various cancers including testicular cancer. However, several other cancers such as
colon cancer
are refractory to
BLM
treatment. The exact mechanism for this differential response of cancer cells to the drug is not known. In the present study, we created fluorescently labelled
BLM
-A5, which retained nearly full genotoxic potential, and used this molecule to conduct the first study to understand the transport pathway of the drug in Saccharomyces cerevisiae. Uptake studies revealed that fluoro-
BLM
-A5 is transported into the cell in a concentration-dependent manner. Transport of a non-saturating concentration of fluoro-
BLM
-A5 was modest for the first 90 min, but thereafter it was sharply induced until 300 min. The inducible transport was completely abolished by the addition of cycloheximide, suggesting that
BLM
-A5 uptake into the cell is dependent on new protein synthesis. Interestingly, transport of fluoro-
BLM
-A5 was blocked if the cells were preincubated with increasing concentrations of spermine. Moreover, a mutant lacking the Ptk2 kinase, necessary for positively regulating polyamine transport, was defective in fluoro-
BLM
-A5 uptake and exhibited extreme resistance to the drug. A simple interpretation of these results is that
BLM
-A5 may enter the cell through the polyamine transport system. We showed further that after the uptake, fluoro-
BLM
-A5 accumulated into the vacuole of the parent, but localized to the cytoplasm of mutants disrupted for the END3 gene required for an early step of the endocytotic pathway. In general, mutants with a defect in the endocytic pathway to the vacuole were hypersensitive to
BLM
-A5. We suggest that
BLM
-A5 is transported across the yeast plasma membrane and sequestered into the vacuole for detoxification.
...
PMID:Characterization of a transport and detoxification pathway for the antitumour drug bleomycin in Saccharomyces cerevisiae. 1524 38
RecQ helicase
BLM
-deficient cells are characteristically hypersensitive to 4-nitroquinoline-1-oxide (4NQO). We recently reported that isogenic
BLM
-deficient cells (PNSG13) are more sensitive than
BLM
-complemented cells (PNSF5) to camptothecin, which specifically traps topoisomerase I cleavage complexes (Top1cc). We now report that PNSG13 are also 3.5-fold more sensitive to 4NQO compared with PNSF5 and that 4NQO induces higher levels of Top1cc and reduced histone gamma-H2AX in PSNG13 than in PNSF5. Similarly, 4NQO induces more Top1cc in primary fibroblasts from a patient with Bloom syndrome than in normal human fibroblasts. 4NQO also induces Top1cc in
colon cancer
HCT116 and HT29 cells in a time- and concentration-dependent fashion. Of note, distinct from camptothecin, the Top1cc produced by 4NQO accumulate progressively after 4NQO addition and persist following 4NQO removal. The Top1cc induced by 4NQO are detectable by alkaline elution. To examine the functional relevance of the Top1cc induced by 4NQO, we used two stable topoisomerase I small interfering RNA (siRNA) cell lines derived from HCT116 and MCF7 cells. Both topoisomerase I siRNA cell lines are resistant to 4NQO, indicating that Top1cc contribute to the cellular activity of 4NQO. Collectively, these data show that 4NQO is an effective inducer of cellular Top1cc. Because 4NQO does not directly trap Top1cc in biochemical assays, we propose that active metabolites of 4NQO trap Top1cc by forming DNA adducts. Induction of Top1cc and histone gamma-H2AX by 4NQO may contribute to the cellular effects of 4NQO, including its selective activity toward RecQ helicase
BLM
-deficient cells.
...
PMID:4-nitroquinoline-1-oxide induces the formation of cellular topoisomerase I-DNA cleavage complexes. 1681 25
Bleomycin-glucuronide (BLMG) is the glucuronide conjugate of
BLM
. In the present study, BLMG was primarily enzymatically synthesized by using a microsome preparate separated from rat liver, labeled with (131)I by iodogen method with the aim of generating a radionuclide-labeled prodrug, and investigated its bioaffinities with tumor-bearing Balb/C mice. Quality control procedures were carried out using thin-layer radiochromatography and high-performance liquid chromatography. Tumor growing was carried out by following Caco-2 cell inoculation into mice. Radiolabeling yield was found to be about 65%. Results indicated that (131)I-labeled BLMG ((131)I-BLMG) was highly stable for 24 hours in human serum. Biodistribution studies were carried out with male Albino Wistar rats and colorectal adenocarcinoma tumor-bearing female Balb/C mice. The biodistribution results in rats showed high uptake in the prostate, the large intestine, and the spinal cord. In addition to this, scintigraphic results agreed with those of biodistributional studies. Xenography studies with tumor-bearing mice demonstrated that tumor uptakes of (131)I-
BLM
and (131)I-BLMG were high in the first 30 minutes postinjection. Tumor-bearing animal studies demonstrated that (131)I-BLMG was specially retained in colorectal adenocarcinoma with high tumor uptake. Therefore, (131)I-BLMG can be proven to be a promising imaging and therapeutic agent, especially for
colon cancer
in nuclear medical applications.
...
PMID:Radiolabeling of bleomycin-glucuronide with (131)I and biodistribution studies using xenograft model of human colon tumor in Balb/C mice. 2269 Sep 8
The spectrum of tumors that arise owing to the overexpression of c-Myc and loss of
BLM
is very similar. Hence, it was hypothesized that the presence of
BLM
negatively regulates c-Myc functions. By using multiple isogenic cell lines, we observed that the decrease of endogenous c-Myc levels that occurs in the presence of
BLM
is reversed when the cells are treated with proteasome inhibitors, indicating that
BLM
enhances c-Myc turnover. Whereas the N-terminal region of
BLM
interacts with c-Myc, the rest of the helicase interacts with the c-Myc E3 ligase Fbw7. The two
BLM
domains act as 'clamp and/or adaptor', enhancing the binding of c-Myc to Fbw7.
BLM
promotes Fbw7-dependent K48-linked c-Myc ubiquitylation and its subsequent degradation in a helicase-independent manner. A subset of
BLM
-regulated genes that are also targets of c-Myc were determined and validated at both RNA and protein levels. To obtain an in vivo validation of the effect of
BLM
on c-Myc-mediated tumor initiation, isogenic cells from
colon cancer
cells that either do or do not express
BLM
had been manipulated to block c-Myc expression in a controlled manner. By using these cell lines, the metastatic potential and rate of initiation of tumors in nude mice were determined. The presence of
BLM
decreases c-Myc-mediated invasiveness and delays tumor initiation in a mouse xenograft model. Consequently, in tumors that express
BLM
but not c-Myc, we observed a decreased ratio of proliferation to apoptosis together with a suppressed expression of the angiogenesis marker CD31. Hence, partly owing to its regulation of c-Myc stability,
BLM
acts as a 'caretaker tumor suppressor'.
...
PMID:Enhancement of c-Myc degradation by BLM helicase leads to delayed tumor initiation. 2375 12
