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Query: UMLS:C0027819 (
neuroblastoma
)
27,800
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
To elucidate the potential role of the ras protooncogene proteins in a specific tissue, the present study determined the levels of individual c-ras-encoded p21 proteins in the rat ovary during various stages of physiological function. p21 protein was extracted from ovaries taken from immature normal female rats, mature nonpregnant animals in the metestrus stage of the estrus cycle, rats at various stages of pregnancy, and actively lactating animals. Levels of individual p21s were evaluated by immunoblot analysis with specific antibodies to the p21 proteins encoded by the Kirsten, Harvey, and
neuroblastoma
c-ras protooncogenes, c-Ki-ras,
c-Ha-ras
, and N-ras. Results showed that c-Ki-ras p21 is at its lowest level in the immature ovary and increases with development of the corpora lutea to its highest levels at day 16 of pregnancy, after which levels decline and then rise again during lactation. This pattern, which mimics that of circulating progesterone levels, suggests that ovarian c-Ki-ras p21 levels are regulated and that c-Ki-ras p21 plays a role in the differentiated function of the rat ovary, likely the luteal compartment. In contrast, levels of c-N-ras p21 did not appear to vary with changes in the physiological function of the ovary but appeared to be constitutive. A preferential role for the c-Ki-ras p21 may be due to the documented unique differences in the structure of the carboxyl terminus of this particular c-ras p21.
...
PMID:Ovarian expression of cellular Ki-ras p21 varies with physiological status. 157 Mar 48
Ras (p21) proteins are involved in the control of cell growth and differentiation, but the mechanism by which they exert these effects is not yet known. Here we present evidence that
c-Ha-ras
(p21(Gly-12)) and its oncogenic mutant T24-ras (p21(Val-12)) selectively induce omega-conotoxin and dihydropyridine-sensitive Ca2+ currents within a few hours after introduction into the cytoplasm of
neuroblastoma
x glioma hybrid cells. Whereas control cells exhibited a mean Ca2+ current of 250 pA, it amounted to 730 pA in cells pretreated with ras protein. In cells loaded with p21(Gly-12), the effect occurred after 2 hours and was terminated after 8 hours. In contrast, introduction of p21(Val-12) resulted in a prolonged delay (6 hours) of the effect which lasted for more than 24 hours. When ras proteins were preactivated with the non-hydrolysable GTP analog GppNHp, the time courses of both p21(Gly-12) and p21(Val-12) effects were fast and sustained, suggesting that in intact cells (i) the GDP/GTP exchange is faster for p21(Gly-12) compared to p21(Val-12) and (ii) inactivation of p21(Gly-12) is mediated by GAP-induced GTPase activity. T-type Ca2+ currents and K+ currents were unaffected by ras proteins.
...
PMID:Ras proteins activate calcium channels in neuronal cells. 165 68
Genomic amplification of the N-myc protooncogene in neuroblastomas correctly predicts poor outcome for the patients. However, the prognosis for neuroblastomas with a single copy of N-myc is also poor in cases diagnosed after 1 year of age but good in infantile cases. To elucidate the different prognoses depending upon the age of the patients with
neuroblastoma
, we performed an analysis of the expression of protooncogenes related to neural differentiation. We examined the genomic amplification of N-myc in 26 specimens of neuroblastomas and further analyzed 22 of the 26 cases for expression of N-myc, c-src,
c-Ha-ras
, and c-fos. Consequently, we observed frequent overexpression of N-myc in undifferentiated neuroblastomas and enhanced expression of c-src and
c-Ha-ras
in infantile neuroblastomas with favorable prognosis and in neuroblastomas differentiated by chemotherapy. These findings suggest that c-src and
c-Ha-ras
play important roles in the neural differentiation of infantile neuroblastomas.
...
PMID:Expression of N-myc and c-src protooncogenes correlating to the undifferentiated phenotype and prognosis of primary neuroblastomas. 203 93
Two new
neuroblastoma
cell lines, KG-MH and KM-YH have been established from fresh tumour samples. In vitro growth characteristics are presented together with a karyological analysis. Northern and Southern blot experiments have been performed using molecularly cloned probes for c-myc, N-myc,
c-Ha-ras
, c-Ki-ras, and N-ras oncogenes. Both cell lines showed expression for N-myc, while c-myc expression was not detected. Cell line KM-YH, with a rather long population doubling time of 78 h, showed additional expression for the three ras genes.
...
PMID:Expression of myc and ras oncogenes in two newly established neuroblastoma cell lines. 266 22
DNA from human breast carcinoma (SK-BR-3) and
neuroblastoma
(LA-N-1) cell lines are capable of inducing foci of transformed NIH 3T3 cells after DNA-mediated gene transfer. The blot hybridization analysis of DNA from primary and secondary NIH 3T3 transformants identified additional sequences homologous to the
c-Ha-ras
1 oncogene, and revealed amplification of nucleotide sequences homologous to the v-myc oncogene. Restriction fragments of the amplified myc-related sequences correspond to c-myc (SK-BR-3) and N-myc (LA-N-1) loci of the human genome. The results show that active Ha-ras oncogenes can coexist with altered myc oncogenes in breast carcinomas and neuroblastomas. This suggests that a multi-step mechanism involves both ras and myc genes and their cooperation in the development of these tumors.
...
PMID:[Activation of ras and myc proto-oncogenes in human breast carcinoma and neuroblastoma]. 302 23
Human
neuroblastoma
(NB) is a highly malignant tumor arising in cells that originate in the embryonal neural crest. Several lines of investigation suggest that both NB and other tumors of developing tissues are blocked in their ability to differentiate and achieve growth arrest. Since in vivo differentiation of NB has been frequently observed and may be of clinical importance (Fox et al., 1959; Evans et al., 1976), we have utilized the in vitro induction of NB differentiation by retinoic acid (RA) to study the molecular events associated with NB differentiation. We have focused our studies on changes that occur in the expression of various proto-oncogenes during NB tumors cell differentiation because proto-oncogenes are likely to be of central importance in mediating processes critical for cellular growth and maturation. In these studies, we have found that the expression of no fewer than five proto-oncogenes including
c-Ha-ras
, c-ets-1, and c-fos change during the differentiation of NB cells, while the expression of c-erb-B changes in association with the arrest of growth that occurs during NB differentiation. In some cases the altered expression of a proto-oncogene was transcriptionally regulated, while in others post-transcriptional mechanisms were important.
...
PMID:The expression of multiple proto-oncogenes is differentially regulated during retinoic acid induced maturation of human neuroblastoma cell lines. 306 Jul 92
Amplification and abundant expression of a gene known as N-myc are found frequently in advanced stages of human
neuroblastoma
and may play a role in the genesis of several malignant human tumors. Previous studies have shown that N-myc can cooperate with a mutant allele of the proto-oncogene
c-Ha-ras
to transform embryonic rat cells in culture. Here we show that N-myc can also act alone to elicit neoplastic growth of an established line of rat fibroblasts (Rat-1). We used recombinant DNA vectors to express either N-myc or its kindred gene c-myc in transfected cells. Both genes caused morphological transformation, anchorage-independent growth, and tumorigenicity. We noticed two variables that appeared to influence the ability to isolate cells transformed by N-myc and c-myc: the abundance in which the genes were expressed and biological selection to eliminate untransformed cells from the cultures. Our findings sustain the belief that N-myc is an authentic proto-oncogene, lend further credibility to the role of N-myc in the genesis of human tumors, and establish a convenient assay that can be used to explore further the properties of both N-myc and c-myc.
...
PMID:Neoplastic transformation by the human gene N-myc. 329 52
The N-myc gene, which is distantly related to the proto-oncogene c-myc, was first detected as an amplified sequence in human
neuroblastoma
cell lines and tumours. It has since been revealed that there is up to a 300-fold amplification of N-myc DNA in almost 50% of advanced metastatic human neuroblastomas, whereas amplification is not detected in less advanced tumours that have a better prognosis (ref.3 and M.S., unpublished data). Although expression of N-myc is detectable in all
neuroblastoma
cell lines and tumours examined, its level is greatly enhanced when the N-myc gene is amplified. Recently, it has been shown that on co-transfection with the
c-Ha-ras
(EJ) gene, N-myc can induce the malignant transformation of rat embryo fibroblasts. Taken together, these data imply a function for N-myc in the development and/or progression of human neuroblastomas. Surveys indicate that N-myc also may be amplified and/or expressed in two other types of human tumours and cell lines derived from them: retinoblastomas and small cell lung cancers. Here, we report that N-myc is expressed at high levels in mouse and human teratocarcinoma stem cells, thus identifying another tumour cell type that expresses the N-myc gene. In addition, we found that N-myc is abundantly expressed in mouse embryos at mid-gestation and that its expression appears to decrease as the embryo approaches term. In the adult mouse, N-myc is expressed at an approximately fivefold lower level in the brain than in teratocarcinoma stem cells and embryos, and at even lower levels in the adult testis and kidney. Our data represent the first demonstration of expression of the N-myc gene in normal cells, and suggest that N-myc may be involved in mammalian embryogenesis.
...
PMID:Expression of N-myc in teratocarcinoma stem cells and mouse embryos. 384 May 74
Preparations of DNA isolated from malignant melanoma (Ja heterotransplant),
neuroblastoma
(L-AN-1 cell line) and breast cancer (SK-BR-3 cell line) induced a high incidence of transformation of recipient NIH 3T3 cells in two consecutive cycles of transfection. Transformed NIH 3T3 cells appeared to be highly tumorigenic in newborn BALB/c mice. The analysis of DNA samples isolated from primary and secondary NIH 3T3 transformants identified Alu-repetitive DNA sequences of human genome as well as additional sequences homologous to ras-family oncogene. Transforming
c-Ha-ras
I gene was identified for the first time in NIH 3T3 cells transformed by preparations of DNA isolated from human malignant melanoma,
neuroblastoma
and breast cancer.
...
PMID:[Identification of the transforming Ha-ras gene in human melanoma, neuroblastoma and breast cancer cells]. 402 51
Proto-oncogenes represent a group of eukaryotic genes whose activated forms are implicated in the development of cancer. We have recently identified a human gene, N-myc, that is distantly related to the proto-oncogene c-myc. N-myc is expressed at abnormally high levels consequent to amplification in numerous human
neuroblastoma
cell lines and metastatic neuroblastoma tumours. In addition, enhanced expression of N-myc, often a result of amplification, has been found in retinoblastoma cell lines and tumours (refs 5, 7 and M.S., unpublished data) and in cell lines derived from small-cell carcinomas of the lung. Here, we show that enhanced expression of N-myc subsequent to co-transfections of an N-myc expression vector and the mutant
c-Ha-ras
-1(EJ) (from the human bladder carcinoma cell line EJ) is a factor in tumorigenic conversion of secondary rat embryo cells. The transformed cells elicit tumours in athymic mice and isogeneic rats. The ability of N-myc to contribute to neoplastic transformation of cultured mammalian cells raises the possibility that enhanced expression consequent to amplification of N-myc may be a factor in the aetiology of human
neuroblastoma
.
...
PMID:Human N-myc gene contributes to neoplastic transformation of mammalian cells in culture. 404 Feb 14
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