Rolf P. de Groot

Nuclear responses to protein kinase C signal transduction are sensitive to gravity changes

A number of studies have suggested that gravity changes may influence mammalian cell growth and differentiation. To obtain insight in the molecular mechanisms underlying these effects, we have studied immediate early gene expression in response to activation of cytoplasmic signal transduction under microgravity conditions. In this paper we show that epidermal growth factor (EGF)- and 12-O-tetradecanoyl-phorbol-13-acetate (TPA)-induced expression of the c-fos and c-jun protooncogenes is decreased in microgravity, while no effect of gravity changes was observed on A23187- and forskolin-induced expression of these genes. These decrease in c-fos expression was not due to delayed kinetics under microgravity. These results demonstrate that gravity differentially modulates distinctive signal transduction pathways.

Transcriptional activation by TGFβ1 mediated by the dyad symmetry element (DSE) and the TPA responsive element (TRE)

Transforming growth factor beta 1 (TGF beta 1) is a multifunctional regulator of growth and differentiation. However, both cytoplasmatic and nuclear signal transduction mechanisms leading to the biological effects of TGF beta 1 are largely unknown. In this report we show, that TGF beta 1 induces the expression of the immediate early genes c-jun and jun B, that encode trans-acting factors regulating transcription of a variety of genes in response to growth factors and phorbol esters. The jun genes are induced by TGF beta 1 in a protein synthesis independent fashion both in quiescent mouse 3T3 fibroblasts, which are growth stimulated by TGF beta 1, as well as in mink lung CCL64 (ML-CCL64) epithelial cells, which are growth inhibited by TGF beta 1. The PDGF inducible JE gene was induced by TGF beta 1 in 3T3, but not in ML-CCL64 cells. Furthermore, we show that chimaeric reporter-CAT constructs containing the TPA responsive element (TRE) or the dyad symmetry element (DSE) are activated by TGF beta 1 in transient transfection assays in both growth inhibited and growth stimulated cells. These results show that the early genomic responses to TGF beta 1 resemble changes in gene expression induced by serum, growth factors and phorbol esters, suggesting common mechanisms of transcriptional activation.

Oestrogen directly stimulates growth factor signal transduction pathways in human breast cancer cells

We have studied the mechanism by which 17 beta-oestradiol (E2) stimulates breast cancer proliferation using the MCF7 cell line as a model system. We provide evidence that E2 directly stimulates cellular proliferation by inducing, like many growth factors, the c-fos proto-oncogene. E2 by itself, however, is poorly mitogenic and it does not induce genes from the jun family, whose gene products are necessary for heterodimerization with the c-fos encoded protein (Fos), leading to an important step in growth factor signalling pathways, stimulation of the 12-O-tetradecanoyl-phorbol-13-acetate responsive element (TRE)-dependent transcriptional activity. In combination with insulin-like growth factors (IGFs), efficient inducers of c-jun in breast cancer cells, E2 synergistically stimulates TRE-activity and proliferation. This direct stimulation by E2 of growth factor signalling pathways suggest that E2 can directly induce proliferation, independent from autocrine growth factors.

Direct stimulation by estrogen of growth factor signal transduction pathways in human breast cancer cells.

Estrogen is thought to stimulate the proliferation of human breast tumors indirectly, through induced production of autocrine polypeptide growth factors. Constitutive production of such growth factors would lead to the loss of 17 beta-estradiol (E2)-dependence that is associated with progression of the disease. Our data, however, do not support this hypothesis and suggest that hormone-dependent breast tumor cell lines like MCF7 do not react to the growth factors which they produce. Moreover, we provide evidence that E2 directly stimulates proliferation by inducing, like many growth factors, the c-fos proto-oncogene. E2 by itself, however, is poorly mitogenic. This may be caused by the lack of induction of genes from the jun family, whose gene products are necessary for dimerization with the c-fos encoded protein, leading to an important step in growth factor signalling pathways; stimulation of TPA responsive element (TRE)-dependent transcriptional activity. In combination with insulin-like growth factors, efficient inducers of c-jun in these cells, E2 synergistically stimulates proliferation and TRE-activity. Constitutive TRE-activation may lead to loss of E2-dependence.

Phosphorylation of nuclear protein is an early event in TGFβ1 action

Abstract Transforming growth factor beta (TGFβ) is a family of polypeptides that modulate growth and differentiation. TGFβ exerts its effects on target cells through interaction with specific cell surface receptors, but the signal transduction pathways are as yet largely unresolved. In this study we report that the growth inhibitory action of TGFβ on mink lung CCl 64 cells is associated with a rapid and transient phosphorylation of a number of nuclear proteins. In parallel, a transient expression of the immediate early gene jun B is observed. The expression of jun B can be inhibited by the protein kinase inhibitor H7 and can be augmented by the phosphatase inhibitor okadaic acid. Thus, protein phosphorylation can be a possible mechanism through which TGFβ1 initiates early genomic responses.

EGF-induced jun B-expression in transfected P19 embryonal carcinoma cells expressing EGF-receptors is dependent on Jun D

The TPA-inducible transcription factor AP-1, consisting of homo- or hetero-dimers of members of the Jun- and Fos-families, regulates transcription of a wide variety of genes containing the TPA response element (TRE). In P19 embryonal carcinoma (EC) cells, Jun D is the only component of AP-1 expressed, while in these cells until now none of the members of the jun- and fos-families have been found to be inducable by external stimuli. Here we demonstrate that Jun B is the only member of the Jun- and Fos-families that is induced by Epidermal Growth Factor (EGF) in transfected murine P19 EC cells, expressing functional human EGF receptors (hEGF-Rs). Induction of jun B can be mimicked in wild type P19 EC cells by the synergistic action of the phorbol ester TPA and the calcium ionophore A23187, through activation of signal transduction pathways, that are activated simultaneously by EGF. The EGF induced jun B expression in the hEGF-R expressing P19 EC cells is mediated by an inverted repeat (IR) sequence in the jun B promoter, previously shown to be responsive to both PKC and PKA signal transduction. Transactivation of the IR sequence by EGF can be blocked completely by prior expression of antisense Jun D, but not by antisense c-Jun. These studies therefore implicate Jun D in the regulation of immediate early gene expression by external stimuli.