Gene/Protein
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Drug
Enzyme
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Pivot Concepts:
Gene/Protein
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Target Concepts:
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Query: UMLS:C0035412 (
rhabdomyosarcoma
)
6,156
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
When methionine (Met), an essential amino acid, was substituted for by its precursor homocysteine (Hcy) in the culture medium, normal cells such as fibroblasts proliferated normally. In contrast, many tumor cells failed to grow or grew at a lower rate. Met dependency is acquired simultaneously with cell transformation, as observed with HBL 100, a human mammary epithelial cell line that acquired increased malignancy as a function of in vitro passage number, and NIH/3T3 (J10), a mouse fibroblast line transformed by transfection with the human HRAS oncogene. A relationship was observed between Met dependency and metastatic potential of the RMS-21, RMS-S4T, and RMS-J1 sublines derived from RMS-0, a rat
rhabdomyosarcoma
cell line: the higher the metastatic potential of the cell line, the higher the concentration of Met required to maintain its proliferation. Met-independent cells derived from the RMS-0 line, obtained by a progressive decrease of Met in the culture medium lost their tumorigenicity when injected into rats fed with Met-deprived diets. In addition, the in vitro motility of RMS-S4T tumor cells, a marker of metastatic capability, decreased in Met-free Hcy-complemented (Met- Hcy+) medium. Similarly, RMS-0 tumor cells, preincubated in a Met- Hcy+ culture medium for 24 hours, evidenced a decreased capacity to form lung colonies when injected into syngeneic rats: the median number of lung colonies was 27 and 3 (P less than .05) for cells cultivated in Met+ Hcy- and Met- Hcy+ media, respectively. An amino acid-defined mixture reproducing
casein
composition was used as a protein source in the diets fed to RMS-J1 tumor-bearing rats. Dietary substitution of Hcy for Met (i.e., met deprivation) resulted in decreased tumor growth (from 44.4 +/- 1.0 to 40.6 +/- 1.4; P less than .05) and prevention of metastatic spread (from 37 to 0; P less than .05). In conclusion, exogenous Met can be substituted for Hcy to maintain the survival of normal cells but is essential for tumor cell growth in vivo as well as in vitro. Therefore, this defect of cancerous versus normal cells could be used for a therapeutic purpose.
...
PMID:Methionine dependency of malignant tumors: a possible approach for therapy. 202 74
An inverse correlation was found between cellular transglutaminase activity and metastatic potential of four cloned cell lines derived from a primary nickel-induced rat
rhabdomyosarcoma
. Cellular transglutaminase activity as assessed with endogenous cellular protein or exogenous methylated
casein
was greatest in the clone F9-4/8 which is the least metastasizing. When the putrescine-binding capacity of one cellular derived protein - fibronectin - was examined with exogenous transglutaminase, it was found that the fibronectin derived from the clone F9-4/8 showed the lowest binding capacity compared with those from the other clones. However, when the overall binding capacity of cellular proteins from each cell line was examined no differences could be detected. The results are discussed in the light of the well-known role of fibronectin in cellular adhesion.
...
PMID:Transglutaminase activity and putrescine-binding capacity in cloned cell lines with different metastatic potential. 286 21
Many Experimental and human tumor cell lines have been previously described as being dependent upon exogenous methionine for their in vitro proliferation. The rationale of the experiments described herein was to decrease the in vivo growth of malignant tumors by reducing the exogenous methionine available in diets fed to Wistar AG rats bearing the highly metastatic
rhabdomyosarcoma
, RMS-J1. The methionine content in the diet was reduced either by replacing
casein
(diet 1) with soybean protein (diet 4), or by lowering the amount of soybean protein in the diet (from 23 g/100 g to 12 g/100g) (diet 5), or by using a crystalline amino acid-defined mixture as the source of protein (diet 7). In the latter diet homocysteine replaced methionine and allowed the survival of the animals. Diet 4 significantly reduced the mean number of lung metastases without affecting the primary tumor growth. Treatment of RMS-J1 bearing rats with diet 5 led to the decrease of pulmonary invasion (78 and 21 median lung metastases, respectively, in control and treated groups). This diminished metastatic dissemination resulted from the reduced methionine consumption: the lowered
casein
content in diet 3 (10 g/100 g) as compared to diet 1 (23 g) did not alter primary tumor growth or the amplitude of lung invasion. Moreover, the addition of methionine to diet 5 prevented the diminution of the median number of lung metastases. Replacement of methionine with homocysteine in the crystalline amino acid-defined mixture (diet 7) fed to RMS-J1 bearing rats led to a limited retardation of primary tumor growth (less than 10%) and to a significant decrease in pulmonary invasion: the median number of pulmonary metastases was 28 and 9 for control and treated rats respectively.
...
PMID:Decreased rat rhabdomyosarcoma pulmonary metastases in response to a low methionine diet. 367 75
Studies are reviewed that report consumption of soy protein diets inhibits the growth of various tumors in rats. The inhibitory effect has been attributed to the phytoestrogens (genistein and diadzein) or protein kinase inhibitor in soy protein products. Recent studies indicate that additional factors in soy protein products may also contribute to the inhibition of tumorigenesis, namely the deficiency of the essential amino acid methionine. Metastatic growth to the lungs of a primary
rhabdomyosarcoma
tumor was inhibited by feeding a soy protein diet. The effect was reversed by methionine fortification of the diet. Carcinogen-induced mammary tumor development was inhibited during the promotional phase in rats fed soy protein isolate diet and reversed with a methionine-supplemented diet. Additional studies demonstrated that after excision of the primary mammary tumor, growth of additional tumors was inhibited when the diet was changed from
casein
to soy protein isolate. Histopathologic evaluation of the mammary tumors revealed more benign fibroadenomas and lower-grade adenocarcinomas in the soy protein group. Before carcinogen administration (at 7 weeks of age), ornithine decarboxylase activity and polyamine concentrations in the rat mammary epithelium were significantly lower in the soy protein group. These data suggest an inhibitory effect on mammary epithelial growth in the soy-protein-fed group.
...
PMID:Soy and experimental cancer: animal studies. 788 54
