Integration of proviral sequences, but not at the common integration sites of the FGF8 locus, in an androgen-dependent mouse mammary Shionogi carcinoma.

A retroviral insertional mutation, especially by mouse mammary tumor virus (MMTV), is a major cause of murine mammary tumorigenesis. Prompted by our previous finding that FGF8, an insertionally activated cellular oncogene, is highly expressed in androgen-dependent mouse mammary Shionogi carcinoma cells, we here investigated retroviral integration adjacent to the fgf8 locus in Shionogi carcinoma. In the genomic Southern blots for fgf8 and its 5'-upstream gene npm3, the hybridized fragments were identical to the host DD/Sio mice, the original Shionogi carcinoma 115 tumor, and a pair of cultured Shionogi carcinoma cell lines of SC-3 and SC-4, suggesting that no retroviral integration occurred around either loci. The genomic cloning for the fgf8 locus from SC-3 cells also confirmed no MMTV integration. In addition, npm3, which is usually coactivated with fgf8 by MMTV insertion,was not up-regulated by androgens in SC-3 cells. All these findings led us to conclude that no retroviral insertion was present at the common integration sites adjacent to the fgf8 locus in Shionogi carcinoma although we demonstrated in this study that multiple proviral sequences of MMTV, Moloney murine sarcoma virus and FBJ-murine sarcoma virus are integrated into SC-3 cells in association with their distinct promoter activity in SC-3 cells.     

Suramin interrupts androgen-inducible autocrine loop involving heparin binding growth factor in mouse mammary cancer (Shionogi carcinoma 115) cells

The androgen-dependent clonal cell line SC-3, derived from Shionogi carcinoma 115, secretes a fibroblast growth factor (FGF)-autocrine growth factor in response to androgen, which is able to bind to FGF receptors. In SC-3 cells, FGF receptor expression is upregulated by the SC-3-derived growth factor, providing a means of amplifying an autocrine loop of cell growth. In the present investigations, the effect of the polysulfonated naphthylurea suramin on this autocrine loop and its amplification in SC-3 cells were studied. Suramin inhibited androgen-dependent growth of SC-3 cells in a concentration-dependent fashion: ～50% inhibition was observed at 25 μM. [³H]Thymidine incorporation into the cells stimulated with partially purified SC-3-derived growth factor was inhibited by suramin in a similar way. Additionally, suramin inhibited acidic (a) or basic (b) FGF-induced cell proliferation, though relatively high concentrations were necessary to achieve the maximal inhibition. Pretreatment of SC-3 cells with suramin decreased cell surface ¹²⁵I-bFGF binding without altering dissociation constant (Kd) of the binding sites. When the cells were incubated with 250 μM suramin for 24 h, the maximum binding (Bmax) decreased to almost 50% of the control. Treatment with suramin also decreased the levels of FGF receptor-1 mRNA to a similar extent, whereas it appeared not to affect the levels of β-actin mRNA. Moreover, suramin completely blocked androgen- or bFGF-induced accumulation of FGF receptor-1 mRNA. The inhibitory effects of suramin on FGF receptor expression were reversed by simultaneous addition of high concentrations of bFGF. These results indicate that suramin exerts its potent antiproliferative action on SC-3 cells through inhibition of an androgen-inducible autocrine loop involving SC-3-derived growth factor and FGF receptor. © 1993 Wiley-Liss, Inc.     

Interleukin-7 and transforming growth factor-beta play counter-regulatory roles in protein kinase C-delta-dependent control of fibroblast collagen synthesis in pulmonary fibrosis

Transforming growth factor-beta (TGF-beta) is a potent fibrogenic factor responsible for promoting synthesis of extracellular matrix. Interleukin-7 (IL-7) inhibits TGF-beta signaling by up-regulating Smad7, a major inhibitor of the Smad family. In a variety of cells, TGF-beta-mediated activation of target genes requires active protein kinase C-delta (PKC-delta) in addition to Smads (1). We determined the role of PKC-delta in the regulation of pulmonary fibroblast collagen synthesis in response to TGF-beta and IL-7 stimulation. Here we show that TGF-beta and IL-7 have opposing effects on PKC-delta; TGF-beta stimulates, while IL-7 inhibits, PKC-delta activity. IL-7 inhibits TGF-beta-induced PKC-delta phosphorylation at Ser-645 and Thr-505. Inhibition of PKC-delta with specific small inhibitory RNA restores TGF-beta-mediated induction of Smad7 and in parallel significantly reduces TGF-beta-mediated collagen synthesis. Thus, PKC-delta may play a critical role in the pathogenesis of pulmonary fibrosis and may serve as a molecular target for therapeutic intervention to suppress fibrosis.