Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
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Target Concepts:
Gene/Protein
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Query: UMLS:C0023418 (
leukemia
)
93,477
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The only ras oncogene as yet identified in cells from human fibrosarcomas is N-ras, but the relationship between N-ras oncogene expression and the malignant state of these cell lines is not known. To determine if expression of an N-ras oncogene causes human cells to become malignant, we transfected the N-ras oncogene from human
leukemia
cell line 8402, cloned into a high expression vector pSV N-ras, into MSU-1.1 cells, a nontumorigenic, infinite life span fibroblast cell strain with a normal morphology and a stable near-diploid karyotype. The transformants formed distinct foci composed of morphologically transformed cells. Cells from such foci expressed higher than normal levels of
N-ras protein
, exhibited growth factor independence, and formed large colonies in soft agar at a high frequency. Injection of progeny of these focus-derived cells s.c. into athymic mice resulted in progressively growing, invasive malignant tumors (round cell, spindle cell, or giant cell sarcomas) which reached a diameter of 6 mm in 3 to 4 weeks. Injection of focus-derived or tumor-derived cells i.v. resulted in tumors in various organs of the mice. The focus-derived cell strain tested, as well as the majority of the cells derived from the tumor it produced, exhibited the same near-diploid karyotype as the parental MSU-1.1 cells. Cells transfected with an N-ras oncogene that was expressed at a normal level formed only a single, indistinct focus, and cells from that focus were not malignant.
...
PMID:Malignant transformation of human fibroblasts by a transfected N-ras oncogene. 220 39
To determine if diploid human fibroblasts can be transformed by the N-ras oncogene found in human tumors, early passage cell lines were transfected with an N-ras oncogene from human
leukemia
cell line 8402 cloned into a high expression plasmid (pSV N-ras), with the N-ras oncogene from human fibrosarcoma cell line HT1080 cloned into pNR-MG1, or with pSV2neo as a control. Each plasmid carries the neo gene coding for Geneticin resistance, but in pSV N-ras, the endogenous promoter of the N-ras gene has been eliminated, and the gene has been inserted between the viral long-terminal repeat (LTR) and the neo gene so that transcription initiated from the LTR must transcribe the N-ras gene before transcribing neo. In pNR-MG1, transcription of the N-ras gene is driven from its endogenous promoter, and the neo gene is transcribed from an SV40 viral promoter, as in pSV2neo. When the transfectants were selected for Geneticin resistance, 70% of the colonies formed with pSV N-ras consisted of morphologically altered cells. Less than 5% of the drug resistant colonies formed with pNR-MG1 had cells with altered morphology, and the change in morphology was much less distinct than with pSV N-ras. No colonies of morphologically-transformed cells were found with pSVneo. If the transfected populations were not selected in Geneticin, but were simply allowed to grow to confluence, very distinct foci composed of morphologically-altered cells could be seen against a contact-inhibited monolayer with pSV N-ras. Foci formed by the pNR-MG1 population were subtle and much less distinct. No foci were found with pSV2neo. Representative colonies and foci of morphologically-transformed cells were isolated. Those from pNR-MG1 transfection reverted to a normal morphology after 5-10 population doublings. Most of those from pSV N-ras transfection either reverted or senesced after 5-10 population doublings. However, progeny of two colonies expressed stable morphological transformation throughout a normal life span equal to that of age-matched pSV2neo controls. Both of these stably transformed cell strains exhibited anchorage independence and formed distinct foci. Immunoprecipitation analysis showed that these cells produced much larger amounts of
N-ras protein
than did pSV2neo-transfected control cells. However, these two cell strains did not exhibit an infinite life span in culture and were unable to form tumors in athymic mice.
...
PMID:Transformation of diploid human fibroblasts by transfection of N-ras-oncogenes. 270 11
A transforming N-ras gene has been cloned from acute myeloblastic leukemia bone marrow cells, in parallel with the N-ras gene derived from fibroblasts of the same patient. N-ras derived from fibroblasts lacked focus-forming activity in NIH/3T3 cells, indicating that gene activation in the
leukemia
cells must have occurred by a somatic event. Construction of chimeric molecules between the transforming and the normal N-ras genes and subsequent biological and sequence analysis of these constructs revealed that the transforming gene was altered by a point mutation changing amino acid 12 of the
N-ras protein
from glycine to aspartic acid.
...
PMID:Activation of an N-ras gene in acute myeloblastic leukemia through somatic mutation in the first exon. 385 37
