PKCeta enhances cell cycle progression, the expression of G1 cyclins and p21 in MCF-7 cells.

Protein kinase C encodes a family of enzymes implicated in cellular differentiation, growth control and tumor promotion. However, not much is known with respect to the molecular mechanisms that link protein kinase C to cell cycle control. Here we report that the expression of PKCeta in MCF-7 cells, under the control of a tetracycline-responsive inducible promoter, enhanced cell growth and affected the cell cycle at several points. The induced expression of another PKC isoform, PKCdelta, in MCF-7 cells had opposite effects and inhibited their growth. PKCeta expression activated cellular pathways in these cells that resulted in the increased expression of the G1 phase cyclins, cyclin D and cyclin E. Expression of the cyclin-dependent kinase inhibitor p21(WAF1) was also specifically elevated in PKCeta expressing cells, but its overall effects were not inhibitory. Although, the protein levels of the cyclin-dependent kinase inhibitor p27(KIP1) were not altered by the induced expression of PKCeta, the cyclin E associated Cdk2 kinase activity was in correlation with the p27(KIP1) bound to the cyclin E complex and not by p21(WAF1) binding. PKCeta expression enhanced the removal of p27(KIP1) from this complex, and its re-association with the cyclin D/Cdk4 complex. Reduced binding of p27(KIP1) to the cyclin D/Cdk4 complex at early time points of the cell cycle also enhanced the activity of this complex, while at later time points the decrease in bound p21(WAF1) correlated with its increased activity in PKCeta-expressing cells. Thus, PKCeta induces altered expression of several cell cycle functions, which may contribute to its ability to affect cell growth.

Expression of PKCeta in NIH-3T3 cells promotes production of the pro-inflammatory cytokine interleukin-6.

Protein kinase C encodes a family of enzymes implicated in cellular differentiation, growth control and tumor promotion. The generation and characterization of NIH-3T3 cells which stably overexpress the PKCeta isoform has been previously described by us. In these cells, overexpression of PKCeta altered the expression of specific cell cycle regulators and promoted differentiation [20]. Since PKC has been implicated in the regulation of gene expression, including that of various cytokines, we examined the production of several cytokines in these cells. We report here that out of the major pro-inflammatory cytokines examined, IL-1alpha, IL-1beta, TNF-alpha and IL-6, only IL-6 was generated and secreted in PKCeta -expressing cells without any additional inducer in serum-supplemented cultures (10% FCS). IL-6 was not detected in the control cell line, transfected with the same vector, but lacking the cDNA coding for PKCeta. Moreover, the production of IL-6 on serum stimulation correlated with the levels of PKCeta expressed in these cells. This implies that factors in the serum activate PKCeta and induce IL-6 production. We have examined several growth factors and cytokines for their ability to induce IL-6 production in our PKCeta-expressing cells. Among the growth factors tested (EGF, PDGF, FGF, insulin, IGF-1 and IL-1), PDGF and FGF were the most potent IL-6 inducers. The effects of FGF and PDGF on IL-6 production were blocked in the presence of PKC inhibitors. We also examined the signaling pathways that mediate production of IL-6 in PKCeta-expressing cells. Using specific inhibitors of the MAPK pathway, we have shown a role for ERK and p38 MAPK in FGF- and serum-stimulated IL-6 production, but only for p38 MAPK in PDGF-stimulated IL-6 production. Our studies provide evidence that PDGF and FGF can serve as upstream regulators of PKCeta and that PKCeta is involved in the expression of IL-6. This suggests that inhibition of PKC may provide a basis for the development of drugs for the treatment of disorders in which IL-6 is pathologically involved.

Involvement of immune responses in the eradication of IL-1 alpha gene-transduced tumour cells: mechanisms of tumour rejection and immunotherapeutical implications.

We detected a strong correlation between the constitutive expression of IL-1 alpha and reduced tumorigenicity, using fibrosarcomas which produce the cytokine spontaneously (as an aberration of the transformation process) or upon gene transfer. In fibroblasts intracellular or membrane-associated IL-1 alpha is expressed, whereas the secreted form of the cytokine (IL-1 beta) is absent. Studies on the mechanisms of tumour regression of the IL-1 alpha producing fibroblastoid cell lines indicated that IL-1 alpha potentiates the development of tumour cell-specific CTLs, which are of importance for tumour eradication. It also appears that IL-1 alpha-induced enhanced helper T-cell activity provides auxiliary signals for the growth/development of CTLs. In addition, we observed a massive lymphocytic infiltrate in IL-1 alpha producing regressing tumours which ultimately replaces the tumour's mass. Non-adaptive effector cells, activated locally by IL-1 alpha expressing fibrosarcoma cells, were also shown to contribute, to some extent, to the eradication of IL-1 alpha expressing fibrosarcomas. Local IL-1 alpha expression potentiated antigen presentation, by the malignant fibroblasts as well as by tissue-resident antigen-presenting cells, and by this anti-tumour immune responses were further potentiated. Mice, in which IL-1 alpha producing tumours regressed, developed systemic immunity and rejected a challenge with a non IL-1 producing violent tumour cell line. It appears that endogenous IL-1 alpha, being a strong inducer of cytokine production, operates a whole cytokine cascade (such as IL-6, CSFs and prostaglandins). However, studies using clonal populations have indicated that IL-1 alpha is essential for fibrosarcoma eradication, whereas the other cytokines possibly amplify and sustain its action. We assume that most naturally occurring tumours are not constitutive IL-1 alpha producers, as it would be disadvantageous for the tumour to express a cytokine which increases its immunogenicity. However, IL-1 non-producing fibrosarcomas can be induced easily to express IL-1 transiently, by treatment with cytokines/LPS, and upon the induction of the cytokine they shift from progressor to regressor tumours. We also obtained positive immunotherapeutical effects when treating mice bearing IL-1 non-producing fibrosarcomas with cells from the same line induced in vitro to express IL-1 alpha. The results may shed light on a novel parameter affecting tumour-host interactions, namely cytokine expression by the tumorous cells, and may provide the basis for new immunotherapy protocols for fibrosarcoma management.

Cytokine-induced tumor immunogenicity: endogenous interleukin-1 alpha expressed by fibrosarcoma cells confers reduced tumorigenicity.

A direct correlation between the constitutive expression of IL-1 alpha and reduced tumorigenicity of fibrosarcomas was observed. This was established in fibrosarcoma cell lines which produce IL-1 alpha 'spontaneously', possibly as an aberration of oncogene-mediated transformation or upon IL-1 alpha gene transfer. In fibroblasts intracellular or membrane-associated IL-1 alpha is expressed, whereas the secreted form of the cytokine (IL-1 beta) is absent. Studies on the mechanisms of tumor regression of the IL-1 alpha-positive fibroblastoid cell lines indicated that IL-1 alpha potentiates the development of tumor cell-specific CTLs, which are of importance for tumor eradication. Thus, IL-1 alpha induces enhanced helper T cell activity which provides auxiliary signals for the growth/development of CTLs. Non-adaptive effector cells, activated locally by IL-1 alpha-expressing fibrosarcoma cells, also contribute to the eradication of IL-1 alpha-expressing fibrosarcomas. Local IL-1 alpha expression potentiated antigen presentation, by the malignant fibroblasts as well as by tissue-resident antigen-presenting cells, thus further potentiating anti-tumor immune responses. Mice, in which IL-1 alpha-producing tumors were regressed, developed an immune memory and rejected a challenge with an IL-1 non-producing violent tumor cell line. Endogenous IL-1 alpha activates a cytokine cascade (i.e., IL-6, CSF), produced by the malignant cells and possibly also by stromal cells. However, IL-1 alpha expression is essential for fibrosarcoma eradication, while other cytokines possibly amplify and sustain its action.(ABSTRACT TRUNCATED AT 250 WORDS)

IL-1 and pro-inflammatory cytokines produced by primary and transformed fibroblasts abrogate the tumorigenic potential of fibrosarcomas.

In the present study we report on novel immunoregulatory functions lately attributed to fibroblasts, namely participation in cellular immune responses in connective tissues, by generation of pro-inflammatory cytokines and by presenting antigens to proliferating T cells. In order to execute immunoregulatory functions, the fibroblast has to be activated by signals abundant at inflammatory sites, i.e., cytokines and bacterial products. It was demonstrated that such immune-activated fibroblasts are able to generate a variety of cytokines such as interleukin-1 (IL-1), IL-6, colony stimulating factors (CSFs) as well as prostaglandins. The array of cytokines generated by immune-activated fibroblasts is determined by the stimulant and is controlled at multiple regulatory levels, such as transcription, translation, post-translational modifications, compartmentalization within the producing cell as well as the timing of expression. Some oncogene-transformed fibroblastoid cells lines were shown to constitutively generate IL-1 (and not IL-1 beta), as evidenced by the continuous expression of specific mRNA and biological activity of the cytokine, associated to the cell membrane or located in the cytosol. When these IL-2 producing cell lines were injected into mice, they failed to generate established tumors or regressed following initial growth, possibly due to mounting the host anti-tumor specific immune responses in which cytotoxic lymphocytes (CTLs) predominate. In contrast, IL-1 non-producing tumor cell lines induced progressive tumors which ultimately killed the animals. However, IL-1 non-producing fibroblastoid cell lines shifted from an in vivo progressive to a regressive phenotype, following immune activation of the malignant cells in vitro with cytokines/LPS. Similarly, primary immune-activated fibroblasts also induced tumor regression, mediated by anti-tumor specific immune responses, when the fibroblasts were injected into the vicinity of the tumor. Thus, the importance of activated stromal cells on tumor development was emphasized. This situation is relevant to the development of malignancies, as tumor growth is often accompanied by a local inflammatory response. Thus, the induction of IL-1 and other pro-inflammatory cytokines expression by the malignant cells or by stromal cells, in the vicinity of the tumor, might be efficient for tumor eradication. These findings should serve as a basis for development of novel immunotherapeutical strategies for the eradication of solid tumors.