Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
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Target Concepts:
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Query: UMLS:C0677930 (
primary tumor
)
20,210
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A large proportion of human tumor-derived cell lines and
primary tumor
cells show methionine-dependent growth. This phenomenon refers to the ability of cells to grow in media containing methionine and the inability of cells to grow in media supplemented with methionine's precursor, homocysteine (Hcy). Methionine can be formed by two different pathways, the recycling pathway and the salvage pathway. To discover the basis for methionine-dependent growth, we have analyzed 12 tumor cell lines and 2 non-tumor-derived cell lines for defects in two key genes in different methionine synthetic pathways. We found little evidence that defects in methionine synthase expression or mutations in the MS gene are correlated with methionine-dependent growth. However, we did find a correlation between methionine-dependent growth and defects in expression of methylthioadenosine phosphorylase (MTAP), a key enzyme in the salvage pathway. Three of the four cell lines lacking detectable
MTAP protein
were unable to grow in Hcy-containing media, whereas all six of the MTAP-positive cell lines tested showed strong growth. However, when we introduced MTAP cDNA into MTAP-deficient MCF-7 cells, the resulting cell line was still defective in growth on Hcy, although it could now grow on the salvage pathway precursor methylthioadenosine. These findings indicate that salvage pathway defects are not causally related to methionine-dependent growth.
...
PMID:Defects in methylthioadenosine phosphorylase are associated with but not responsible for methionine-dependent tumor cell growth. 1103
Methylthioadenosine phosphorylase (MTAP) is an important enzyme in the salvage pathway of adenosine and methionine synthesis. MTAP is ubiquitously present in all normal cells and tissues, but deficient in a variety of malignant tumors. The enzyme deficiency is caused by either MTAP gene deletion or promoter hypermethylation. We investigated MTAP expression, MTAP gene deletion and promoter abnormality in 40
primary tumor
samples from Japanese osteosarcoma patients and determined the frequency of the enzyme deficiency. We also tested whether or not the enzyme deficiency can be exploited for tumor-specific chemotherapy using osteosarcoma cell lines. For MTAP expression, immunohistochemistry (IHC) and Western blotting were used. Real-time quantitative PCR assay was used for the analysis of MTAP gene deletion in fifteen osteosarcoma samples. MTAP promoter abnormality was analyzed by methylation-specific PCR. Then, the relationship between MTAP expression and sensitivity to the inhibitors of de novo AMP synthesis was confirmed in an MTAP-negative and -positive osteosarcoma cell line. The
MTAP protein
was negative in 11 of 40 samples (27.5%) by IHC and in 4 of 6 osteosarcoma cell lines (66.7%) by Western blot analysis. Among 40 samples, 15 were subjected to quantitative real-time PCR and promoter methylation analysis. Of 6 samples that were negative by IHC, the MTAP gene was deleted in 3 and the MTAP promoter was methylated in 2. These results indicated that MTAP deficiency was caused by MTAP gene deletion or promoter methylation in all MTAP-negative samples except one that was negative with IHC although no deletion or promoter methylation was detected. In in vitro experiments using transfectoma along with the MTAP-negative parental cell line, the MTAP-negative parental cell line was more chemosensitive to the inhibitors of de novo AMP synthesis than MTAP-positive transfectoma. MTAP deficiency frequently found in osteosarcoma can be exploited for selective chemotherapy in MTAP-negative osteosarcoma patients with the inhibitors of de novo purine synthesis.
...
PMID:Methylthioadenosine phosphorylase deficiency in Japanese osteosarcoma patients. 1791 32
