Analysis of the Proenkephalin Second Messenger-Inducible Enhancer in Rat Striatal Cultures

Abstract: We have previously shown that in cell extracts from rat striatum, cyclic AMP response element (CRE) binding protein (CREB), rather than AP-1 proteins, preferentially interacts with the CRE-2 element of the proenkephalin second messenger-inducible enhancer, even under conditions in which AP-1 proteins are highly induced. Here we use primary striatal cultures to permit a more detailed analysis of CRE-2 function and protein binding in relevant neural cell types. By transfection we find that in primary striatal cultures, as in transformed cell lines, the CRE-1 and CRE-2 elements are required for significant induction by cyclic AMP. We report that cyclic AMP induction of the proenkephalin gene in striatal cultures is protein synthesis independent, excluding a role for newly synthesized proteins like c-Fos. We also show that cyclic AMP induces CREB phosphorylation and that phosphorylated CREB interacts strongly with CRE-2 and weakly with CRE-1. The predominant protein bound to CRE-1 is not CREB, however, and remains to be identified. Despite some prior predictions, we do not find a role for c-Fos in cyclic AMP regulation of proenkephalin gene expression in neurons.     

Secretion of human EGF and IgE in mammalian cells by recombinant DNA techniques; use of a IL-2 leader sequence

Expression plasmids were constructed containing chemically synthesized human epidermal growth factor (EGF) gene fused in a frame to a leader sequence of human interleukin-2 (IL-2) gene under the control of a viral promoter. COS7 cells transfected with the plasmids synthesized and secreted EGF. Transfection of mouse A9 cells or BALB/3T3 clone A31 cells with the plasmids permitted the isolation of cell lines secreting the product which showed EGF activity. In particular, A31 transformed cells secreting human EGF grew well even in a medium containing a minimal level of serum. Using similar vectors having IgE cDNA (C2-C4) in place of EGF gene, a human IgE Fc fragment was also produced and secreted in mouse cells. These results show that heterologous leader sequences are useful for the expression and secretion of proteins whose genes lack leader sequences.     

Analysis of a cloned colicin Ib gene: complete nucleotide sequence and implications for regulation of expression.

The complete nucleotide sequence of a 2,971 base pair EcoRI fragment carrying the structural gene for colicin Ib has been determined. The length of the gene is 1,881 nucleotides which is predicted to produce a protein of 626 amino acids and of molecular weight 71,364. The structural gene is flanked by likely promoter and terminator signals and in between the promoter and the ribosome binding site is an inverted repeat sequence which resembles other sequences known to bind the LexA protein. Further analysis of the 5' flanking sequences revealed a second region which may act either as a second LexA binding site and/or in the binding of cyclic AMP receptor protein. Comparison of the predicted amino acid sequence of colicin Ib with that of colicins A and E1 reveals localised homology. The implications of these similarities in the proteins and of regulation of the colicin Ib structural gene are discussed.     

TGF-beta 1 inhibition of transin/stromelysin gene expression is mediated through a Fos binding sequence

Transforming growth factor beta 1 (TGF-beta 1) inhibits the growth factor and oncogene induction of transin/stromelysin, a secreted matrix-degrading metalloprotease. We demonstrate that a 10 bp element in the transin promoter is required for the TGF-beta 1 inhibitory effects and that this sequence is conserved in the promoter regions of several other TGF-beta 1-inhibited genes. The TGF-beta 1 inhibitory element (TIE) specifically binds a nuclear protein complex from TGF-beta 1-stimulated rat fibroblasts. Interestingly, this complex contained the c-fos proto-oncogene product, Fos, and induction of Fos expression was required for the inhibitory effect of TGF-beta 1 on transin gene expression. These results suggest that TGF-beta 1 inhibition of gene expression is mediated by the binding of a Fos-containing protein complex to the TIE promoter sequences.     

Regulation of the Discoidin I gamma gene in Dictyostelium discoideum: identification of individual promoter elements mediating induction of transcription and repression by cyclic AMP.

We dissected the promoter of the developmentally induced and cyclic AMP-repressed discoidin I gamma gene and identified a sequence element essential for developmental induction. Transfer of the element to an inactive heterologous promoter demonstrated that this sequence is sufficient to confer expression in axenically growing cells and to induce gene activity in development after growth on bacteria. A 16-base-pair sequence within this element was shown to be sufficient for induction in the discoidin promoter context and was used to reactivate different truncated promoter constructs. This led to the localization of an element necessary for down regulation of gene expression by extracellular cyclic AMP.     

Differential sensitivity of fibroblasts to epidermal growth factor is related to cyclic AMP concentration

The differential sensitivity of various cell lines to the mitogenic effects of epidermal growth factor (EGF) was investigated. Two lines of evidence suggest that cellular capacity to respond proliferatively to EGF is related to intracellular cyclic AMP concentration. First, the ability of three density-arrested cell lines to synthesize DNA in response to EGF was directly proportional to the basal cyclic AMP level of the cells at quiescence. Second, treatment of cultures with various agents known to promote intracellular cyclic AMP accumulation increased the sensitivity of all three cell lines to EGF. The mechanism whereby cyclic AMP modulates EGF responsiveness is not known; cholera toxin did not affect the cellular capacity to bind or internalize and process EGF. Although platelet-derived growth factor (PDGF) had no effect on cyclic AMP levels, transient treatment of quiescent cultures with this polypeptide also enhanced EGF sensitivity. In agreement with previous data and in contrast to cholera toxin, PDGF induced the down-regulation of EGF receptors in the three cell lines. These data suggest that the capacity of various cell types to respond to EGF is subject to both intracellular regulation by cyclic AMP and extracellular modulation by factors such as PDGF which can affect EGF receptor activity.