Cécile Krycève-Martinerie scite author profile

Normal chicken, mouse, and human embryo fibroblasts release into their culture media transforming growth factors (TGFs) in a latent form. Their soft agar colony-forming activity on two widely used target cells, rat NRK-49F and mouse AKR-2B, is essentially revealed only after prior acidification of cell-conditioned media. These TGFs are EGF-dependent when assayed on NRK-49F cells and EGF-independent on AKR-2B cells. The TGF activity from the chicken source is released in three (apparent) molecular weight forms of 500 kd, 125 kd, and 20 kd.

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Further study of β‐tgfs released by virally transformed and non‐transformed cells

Krycève-Martinerie

Lawrence

Crochet

et al. 1985

Intl Journal of Cancer

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Chicken embryo fibroblasts sensitized by ts RSV respond to TGFs present in the media of non-transformed FR3T3 and NRK-4 rat cells and of the same cells transformed by KiMSV or RSV. They also respond to TGFs present in the media of BHK hamster cells transformed by MoMSV, PyV or RSV. Two other indicator rat cell lines, untransformed NRK-4 and FR3T3, sensitized by ts KiMSV, respond to the same TGF-containing media, and this response is increased by exogenous EGF. Normal FR3T3 cells failed to respond to any of the media. The most sensitive target cells were the ts KiMSV-FR3T3 cells at the restrictive temperature (39.5 degrees C). All the media tested on NRK-49F target cells required EGF for their TGF activity which was essentially dependent on prior activation by acidification. These data show that the above media from non-transformed or transformed cells contain beta-TGFs, with no detectable accompanying alpha-TGF activity. The release of and the response to these TGFs are not interdependent. A function of ts mutant src and k-ras viral oncogenes, still expressed at the restrictive temperature, can sensitize non-responsive cells, without there being any specificity towards the TGF producer cells.

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Cells transformed by rous sarcoma virus release transforming growth factors

Krycève-Martinerie

Lawrence

Crochet

et al. 1982

Journal Cellular Physiology

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Chicken embryo fibroblasts and hamster BHK cells transformed by Rous sarcoma virus (RSV) release in their culture media growth factors which enhance markedly anchorage-independent colony formation in gelified medium, at the restrictive temperature (41 degrees 5 C), of chicken embryo fibroblasts (CEF) infected by RSV mutants with a ts mutation of the src gene. This action is not observed with uninfected CEF, and, therefore, appears to require some expression of the viral src gene in the target cells. The enhancing factors are proteins related to the family of the transforming growth factors (TGFs) by their molecular weight (about 20 kd), their heat and acid resistance, and their sensitivity to dithiothreitol. They do not compete with 125I EGF for binding on the EGF receptors of the membrane of A431 cells. As chicken embryo fibroblasts are devoid of EGF receptors, their activity is not potentiated by EGF.

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Transformation-enhancing factor(s) released from chicken rous sarcoma cells: Effect on some transformation parameters

et al. 1981

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Transformation of Brown Leghorn chicken embryo fibroblasts by avian myeloblastosis virus proviral DNA

Soret¹,

Krycève-Martinerie²,

Crochet³

et al. 1985

J Virol

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Brown Leghorn chicken embryo fibroblasts were transfected with a mixture of avian myeloblastosis virus (AMV) and myeloblastosis-associated virus type 1 (MAV1) proviral DNA purified from X-Charon 4A recombinant clones. A transformed cell line (TlAM) able to grow without anchorage in semisolid medium was obtained. The presence of both proviral AMV and MAV sequences was detected in TlAM DNA by hybridization with v-myband MAV1-specific probes. Altered AMV and MAVI proviral genomes were found in TlAM genome. Characterization of the RNA species expressed in transformed cells showed that in addition to a 2.5-kilobase (kb) putative subgenomic v-myb-specific RNA, three other myb-containing RNAs (9.4, 8.4, and 7.0 kb) were present in TlAM cells. No AMV genomic RNA was detected. Also, a new 5.0-kb MAV1-specific RNA species was expressed in transformed cells in addition to MAV1 genomic RNA species (7.8 kb). No infectious AMV virions are released by TlAM cells. Chicken embryo fibroblasts infected by TlAM-released virions contained and expressed all MAV1 sequences detected in TlAM transformed cells but did not express any transformation parameter. These results indicated that the presence of AMV proviral sequences in TlAM cells is responsible for their transformed phenotype.

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