Amphiregulin (AR), a member of the epidermal growth factor (EGF) family, was found to be as potent as EGF in stimulating the anchorage-dependent growth (ADG) of immortalized, nontransformed human mammary epithelial MCF-10A cells. MCF-10A cells transformed by either an activated human c-Ha-ras protooncogene (MCF-10A ras) or by overexpression of a nonactivated rat c-neu gene (MCF-10A neu) exhibited a 35% reduction in the response to AR in ADG when compared to MCF-10A cells, but AR was still as potent as EGF in these transformants. Exogenous AR exhibited only 15-20% of the activity of EGF in stimulating the anchorage-independent growth, a response that is normally dependent upon exogenous EGF, of the oncogene-transformed MCF-10A cells. MCF-10A cells express low levels of a 1.4-kb AR mRNA transcript, while MCF-10A ras and MCF-10A neu cells display a 15- to 30-fold increase in the levels of AR mRNA and endogenous AR protein as determined by Western blot analysis. Exogenous EGF was found to induced both the AR mRNA and protein in the MCF-10A parental and transformed cells. A 20-mer phosphorothioate antisense deoxyoligonucleotide complementary to the 5' sequence of AR mRNA was able to significantly reduce the levels of endogenous AR protein and to inhibit the EGF-stimulated ADG and anchorage-independent growth of MCF-10A ras and MCF-10A neu cells. These data suggest that AR may function as an EGF-dependent autocrine growth factor in mammary epithelial cells that have been transformed by either a point-mutated c-Ha-ras or c-neu.
Amphiregulin (AR) is a secreted heparin-binding growth factor that is structurally and functionally related to epidermal growth factor (EGF) and transforming growth factor alpha (TGF alpha). GEO cells are from a human colon cancer cell line that expresses high levels of AR protein and mRNA. To assess the role of AR in colon-cancer cell proliferation and transformation, 2 different anti-sense 20-mer phosphorothioate oligodeoxynucleotides (AR AS-1 and AR AS-2 S-oligos) complementary to the 5' sequence of AR mRNA were synthesized. Both AR AS S-oligos were able to inhibit the anchorage-dependent growth (ADG) of GEO cells. The 2 AR AS S-oligos were equipotent when used in equimolar concentrations. In particular, a 40% growth inhibition was observed at a concentration of 10 microM, while a mis-sense S-oligo used as control had no effect on GEO cell growth. The AR AS-1 S-oligo used at the same concentration also inhibited by 40% the 3H-thymidine incorporation by DNA of GEO cells. The anchorage-independent growth (AIG) of GEO cells was even more significantly affected by AR AS S-oligo treatment. In fact, up to 80% inhibition of the AIG of GEO cells was observed when cells were treated with 10 microM of both AR AS S-oligos. Finally, the AR AS S-oligos were able to specifically inhibit AR protein expression in GEO cells, as assessed by immunocytochemistry. These data suggest that AR is involved in colon-cancer cell transformation, and that AR may represent a suitable target for gene therapy in human colon carcinomas.
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