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Target Concepts:
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Query: UNIPROT:O76050 (
neu
)
3,969
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The accumulation of genetic damage in the forms of activated proto-oncogenes and inactivated tumor-suppressor genes is the driving force in the evolution of a normal cell to a malignant cell. For example, both the activation of ras oncogenes and the inactivation of several suppressor genes, including p53, have been observed in the development of human colon and lung tumors. Point mutations in key codons can activate ras proto-oncogenes and inactivate the p53 suppressor gene. Thus, several critical genes for tumorigenesis are potential targets for carcinogens and radiation that can induce point mutations at low doses. The ras proto-oncogenes are targets for many genotoxic carcinogens. Activation of the ras gene is an early event--probably the "initiating" step--in the development of many chemical-induced rodent tumors. ras Oncogenes are observed in more human tumors and at a higher frequency than any other oncogene, and activation of the proto-oncogene may occur at various stages of the carcinogenic process. Numerous proto-oncogenes other than the ras genes have been shown to be activated in human tumors and to a lesser extent in rodent tumors. Mechanisms that induce aberrant expression of proto-oncogenes are gene amplification and chromosomal translocation or gene rearrangement. Amplification of proto-oncogenes and possibly gene overexpression during the absence of gene amplification occur in the development of many human tumors. For a specific tumor type, amplification of any one proto-oncogene may occur at a low frequency, but the frequency of tumors in which at least one proto-oncogene is amplified can be much higher. Proto-oncogene amplification is usually associated with late stages of tumor progression; however, amplified HER2/
neu
has been observed in early clinical stages of mammary neoplasia. Activation of proto-oncogenes by chromosomal translocation has been detected at a high frequency in several hematopoietic tumors. Non-ras genes have been detected by DNA transfection assays in both human and rodent tumors. For example,
ret
and trk genes were found to be activated by gene rearrangements in human papillary thyroid carcinomas. Several potentially new types of oncogenes have also been detected by DNA transfection assays. The etiology of the genetic alterations observed in most human tumors is unclear at present. Examples of ras gene activation and those documented for mutations in the p53 gene demonstrate that exogenous conditions can induce oncogenic mutants of normal genes. The genetic alterations observed in most human tumors are probably generated by both spontaneous events and exogenous conditions.
...
PMID:Role of proto-oncogene activation in carcinogenesis. 148 40
Transgenic mice carrying the mouse mos proto-oncogene linked to a retroviral LTR develop hyperplasia of the Harderian glands. Enlargement of the glands is evident as early as 18 weeks after birth, with glands reaching up to 10 times their normal weight. Approximately 65% of the cases of hyperplasia occur bilaterally, and the majority of mice affected are male (66%). Elevated levels of mos expression are found in all Harderian glands of mice from the affected transgenic line, but not in glands of normal mice or a non-affected transgenic line, indicating that hyperplasia is dependent on mos expression. Histological examination of the tissue reveals a general involvement of the entire gland epithelium in hyperplastic growth, with no evidence of focal or malignant tumours. These observations show that in addition to
neu
, myc, ras and
ret
transgenes, mos, a member of the protein-serine/threonine kinase family of oncogenes, can induce Harderian gland hyperplasia, thus revealing an unusual response by this organ to various classes of oncogenes. Analysis of fos, jun, myc and ets oncogene RNA in mos-induced hyperplastic Harderian glands shows that there are no consistent changes in the level of expression of these oncogenes, suggesting that mos acts via a mechanism other than by increasing the expression of these genes.
...
PMID:Harderian gland hyperplasia in c-mos transgenic mice. 156 97
Wild type PC12 pheochromocytoma cells that had been infected with a Wnt-1-carrying virus and thus express Wnt-1 (PC12/Wnt-1) are known to acquire the same flat cell phenotype as that of spontaneously occurring PC12 flat cell variants except that the latter do not presently express Wnt-1. Flat cell variants of PC12 cells exhibit markedly altered morphology and gene expression. In order to assess the possibility that the spontaneously occurring flat cell variants could have been induced in wild type PC12 cells by previous transient expression of the cell's endogenous Wnt-1, we have isolated PC12/Wnt-1 cells expressing little or no Wnt-1. In spite of absent Wnt-1 expression, they retained their flat cell morphology, glutamate/aspartate transporter activity, increased
neu
mRNA levels and lack of both norepinephrine transporter activity and nerve growth factor-induced differentiation. Thus, Wnt-1 expression is not required to maintain the flat cell phenotype. However, we identified one gene,
ret
, whose mRNA level in PC12 was not only increased by Wnt-1 expression, but whose increased mRNA level was also dependent on continual Wnt-1 expression. This finding suggests that the induction of
ret
by Wnt-1 can be used to elucidate the Wnt-induced signalling pathway in mammalian cells.
...
PMID:The induction of ret by Wnt-1 in PC12 cells is atypically dependent on continual Wnt-1 expression. 863 12
