A. Leardi scite author profile

We have demonstrated that interferon-a2-recombinant (IFNa) at growth inhibitory concentrations enhances the expression and signalling activity of the epidermal growth factor receptor (EGF-R) in human epidermoid carcinoma KB cells. Here we report that KB cells exposed to IFNa underwent apoptotic cell death and this effect was antagonized by EGF. We have also found that IFNa enhanced the expression of heat shock proteins (HSP) HSP-70, HSP-90 and HSP-27 and activated the NH 2 -terminal Jun kinase-1 (JNK-1) and p38 mitogen activated protein kinase, the target enzymes of a stress-dependent intracellular transduction pathway. Moreover, the overexpression of the wild-type JNK-1, obtained through plasmid transfection of KB cells, induced apoptosis which was potentiated by the exposure of wild-type JNK-1 (JNK-1 wt )-transfected cells to IFNa. All these effects were neutralized by the addition of EGF to parental and JNK-1 wt -transfected KB cells exposed to IFNa. In conclusion, EGF has a protective effect on KB cells from apoptosis while antagonizing a stress response elicited by IFNa and targeted on the stress pathway terminal kinases.

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Desferioxamine increases iron depletion and apoptosis induced by ara‐C of human myeloid leukaemic cells

Leardi

et al. 1998

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Summary.We investigated whether changes in iron metabolism and the transferrin receptor (TRF-R) expression were involved in the antileukaemic effects of arabinoside cytosine (ara-C). Treatment with 100 nM ara-C for 48 h reduced thymidine uptake and increased the surface expression of the TRF-R on leukaemic blasts derived from 13/16 (81%) patients and on the HL-60 and U-937 cell lines. Whereas intracellular non-haem iron was strongly depleted 24 h after ara-C addition, TRF-R up-regulation and recovery of intracellular non-haem iron concentration occurred together after a longer exposure of the cultured cells to the drug. Since iron is an essential regulator of cell proliferation we have evaluated the effects of the combination between ara-C and the iron chelator desferioxamine (DSF) on the growth of HL-60 and U-937 cells. We found that desferioxamine strongly potentiated the effects of ara-C on leukaemic cell growth inhibition and apoptosis. This is the first report of a positive interaction between ara-C and an iron chelator in terms of antileukaemic effects.

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Interferon α2 recombinant and epidermal growth factor modulate proliferation and hypusine synthesis in human epidermoid cancer KB cells

Caraglia

Passeggio

Beninati

et al. 1997

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We previously found that interferon alpha2 recombinant (IFNalpha) increases the expression of epidermal growth factor receptor (EGF-R) in the human epidermoid cancer KB cell line. Here we report the effects of IFNalpha and epidermal growth factor (EGF) on KB cell cycle kinetics. IFNalpha (1000 i.u./ml) for 48 h decreased the S-phase fraction and diminished the expression of Ki67 and proliferating cell nuclear antigen on KB cells. Incubation of IFNalpha-treated KB cells with 10 nM EGF for 12 h reversed these effects. We then studied several biochemical markers of cell proliferation. Ornithine decarboxylase activity was decreased to about one-tenth by IFNalpha and partly restored by EGF. Hypusine is contained only in eukaryotic initiation factor 5A and its levels are correlated with cell proliferation. IFNalpha decreased hypusine synthesis by 75%; exposure of cells to EGF for 12 h restored hypusine synthesis almost completely. We also studied the effects of IFNalpha on the cytotoxicity of the recombinant toxin TP40, which inhibits elongation factor 2 through EGF-R binding and internalization. IFNalpha greatly enhanced the TP40-induced inhibition of protein synthesis in KB cells. In conclusion, IFNalpha, which affects protein synthesis machinery and increases EGF-R expression, enhances the tumoricidal activity of TP40 and hence could be useful in the setting of anti-cancer therapy.

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α‐interferon potentiates epidermal growth factor receptor‐mediated effects on human epidermoid carcinoma KB cells

Caraglia

Leardi

Corradino

et al. 1995

Intl Journal of Cancer

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The molecular mechanisms underlying the growth inhibition of human tumor cells induced by recombinant interferon-alpha (IFN alpha) are mostly unknown. It has been proposed that this effect could be related to down-regulation and/or impaired function of peptide growth factor receptors (PGF-Rs) in tumor cells exposed to IFN alpha. However, we have previously described that IFN alpha-induced growth inhibition of human epidermoid carcinoma cells is paralleled by up-regulation of epidermal growth factor receptor (EGF-R). Here we report that an increase in EGF-R synthesis is detectable after 3 hr of exposure to cytostatic concentration of IFN alpha in epidermoid KB tumor cells. In these experimental conditions IFN alpha does not depress and even potentiates EGF-R function. IFN alpha-treated KB cells retain sensitivity to the cytotoxic activity of the anti-EGF-R 225 monoclonal antibody (MAb), which acts through receptor blockade, and are sensitized to the growth-promoting effect of EGF. EGF-induced tyrosine (tyr) phosphorylation both of total cellular protein extracts and of the immunoprecipitated EGF-R is increased in IFN alpha-treated cells. We conclude that a cross-talk between IFN alpha and EGF occurs in KB cells since IFN alpha, at cytostatic concentration, potentiates the effects mediated by the EGF-R.

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5-Aza-2′-deoxycytidine induces growth inhibition and upregulation of epidermal growth factor receptor on human epithelial cancer cells

et al. 1994

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A. Leardi

Interferon-α induces apoptosis in human KB cells through a stress-dependent mitogen activated protein kinase pathway that is antagonized by epidermal growth factor

Desferioxamine increases iron depletion and apoptosis induced by ara‐C of human myeloid leukaemic cells

Interferon α2 recombinant and epidermal growth factor modulate proliferation and hypusine synthesis in human epidermoid cancer KB cells

α‐interferon potentiates epidermal growth factor receptor‐mediated effects on human epidermoid carcinoma KB cells

5-Aza-2′-deoxycytidine induces growth inhibition and upregulation of epidermal growth factor receptor on human epithelial cancer cells

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