Patricia Menzel scite author profile

Cyclic AMP regulates the expression of a number of genes through a conserved promoter element, the CRE1. Moreover, transcriptional induction by cAMP requires the activation of cAMP-dependent protein kinase (protein kinase A). We have previously characterized the cAMP response element binding protein (CREB) in PC12 cells and brain tissue as a nuclear factor, of relative molecular mass 43,000, whose transcriptional efficacy is regulated by protein kinase A phosphorylation. CREB stimulates transcription on binding to the CRE as a dimer. Experiments suggesting that the dimerization and transcriptional efficacy of CREB are each stimulated by phosphorylation at distinct sites prompted us to suggest that CREB is regulated by multiple kinases in vivo. We now report the isolation of a cDNA clone for rat CREB using amino-acid sequence information from purified CREB protein. Sequence analysis of this CREB cDNA predicts a cluster of protein kinase A, protein kinase C and casein kinase II consensus recognition sites near the N terminus of the protein. The proximity of these potential phosphorylation sites to one another indicates that they may interact either positively or negatively to regulate CREB bioactivity.

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Characterization of motifs which are critical for activity of the cyclic AMP-responsive transcription factor CREB.

González¹,

Menzel²,

Leonard³

et al. 1991

Mol. Cell. Biol.

230

149

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Cyclic AMP mediates the hormonal stimulation of a number of eukaryotic genes by directing the protein kinase A (PK-A)-dependent phosphorylation of transcription factor CREB. We have previously determined that although phosphorylation at Ser-133 is critical for induction, this site does not appear to participate directly in transactivation. To test the hypothesis that CREB ultimately activates transcription through domains that are distinct from the PK-A site, we constructed a series of CREB mutants and evaluated them by transient assays in F9 teratocarcinoma cells. Remarkably, a glutamine-rich region near the N terminus appeared to be important for PK-A-mediated induction of CREB since removal of this domain caused a marked reduction in CREB activity. A second region consisting of a short acidic motif (DLSSD) C terminal to the PK-A site also appeared to synergize with the phosphorylation motif to permit transcriptional activation. Biochemical experiments with purified recombinant CREB protein further demonstrate that the transactivation domain is more sensitive to trypsin digestion than are the DNA-binding and dimerization domains, suggesting that the activator region may be structured to permit interactions with other proteins in the RNA polymerase II complex.A number of growth factors and hormones regulate the expression of target genes by stimulating the phosphorylation of specific transcription factors. We have previously characterized the nuclear factor CREB, for example, which stimulates transcription of genes in response to the secondmessenger cyclic AMP (cAMP) (5,9,11,17). Biochemical and in vitro mutagenesis experiments have revealed that CREB is activated by phosphorylation at a single protein kinase A (PK-A) phosphoacceptor, site Ser-133 (4). Since phosphorylation at Ser-133 activates transcription without changing DNA-binding affinity, it appears that phosphorylation of CREB directly modulates the efficacy of the transactivation domain.Previous work showing that CREB can stimulate transcription of previously unresponsive genes when a cAMP response element (CRE) (11) is attached to these promoters has prompted us to hypothesize a general activating motif in CREB that would interact with ubiquitous proteins in the RNA polymerase II transcription complex. Indeed, two such general activating motifs have been described in a number of nuclear factors, one glutamine rich and the other containing acidic residues (1, 13). Nevertheless, a number of nuclear factors have activation domains that do not fit into either category. The direct increase in negative charge accompanying phosphorylation suggested that proteins like CREB would stimulate transcription by providing an acidic surface. The inability of acidic residues to substitute for the serine phosphoacceptor, however, has argued against this model. Rather, by analogy with other kinase substrates, phosphorylation might activate CREB by triggering a conformational change in the protein which, in turn, would permit a second activating group in the protein to ...

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Development and Characterization of Recombinant Adenoviruses Encoding Human p53 for Gene Therapy of Cancer

Wills¹,

Maneval²,

Menzel³

et al. 1994

Human Gene Therapy

213

119

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We have constructed recombinant human adenoviruses that express wild-type human p53 under the control of either the Ad 2 major late promoter (MLP) or the human cytomegalovirus (CMV) immediate early gene promoter. Each construct replaces the Ad 5 E1a and E1b coding sequences necessary for viral replication with the p53 cDNA and MLP or CMV promoter. These p53/Ad recombinants are able to express p53 protein in a dose-dependent manner in infected human cancer cells. Tumor suppressor activity of the expressed p53 protein was assayed by several methods. [3H]Thymidine incorporation assays showed that the recombinant adenoviruses were capable of inhibiting DNA synthesis in a p53-specific, dose-dependent fashion. Ex vivo treatment of Saos-2 tumor cells, followed by injection of the treated cells into nude mice, led to complete tumor suppression using the MLP/p53 recombinant. Following a single injection of CMV/p53 recombinant adenovirus into the peritumoral space surrounding an in vivo established tumor derived from a human small cell lung carcinoma cell line (NIH-H69), we were able to detect p53 mRNA in the tumors at 2 and 7 days post-injection. Continued treatment of established H69 tumors with MLP/p53 recombinant led to reduced tumor growth and increased survival time compared to control treated animals. These results indicate that recombinant adenoviruses expressing wild-type p53 may be useful vectors for gene therapy of human cancer.

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Characterization of a bipartite activator domain in transcription factor CREB

Yamamoto

González

Menzel

et al. 1990

Cell

220

117

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Expression and Tyrosine Phosphorylation of Eph Receptors Suggest Multiple Mechanisms in Patterning of the Visual System

Connor

Menzel

Pasquale

1998

Developmental Biology

143

103

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The EphA3 receptor tyrosine kinase has been implicated in guiding the axons of retinal ganglion cells as they extend in the optic tectum. A repulsive mechanism involving opposing gradients of the EphA3 receptor on retinal axons and its ligands, ephrin-A2 and ephrin-A5, in the tectum influences topographic mapping of the retinotectal projection. To investigate the overall role of the Eph family in patterning of the visual system, we have used in situ hybridization to localize nine Eph receptors in the chicken retina and optic tectum at Embryonic Day 8. Three of the receptors examined correspond to the novel chicken homologs of EphA2, EphA6, and EphA7. Unexpectedly, we found that many Eph receptors are expressed not only in retinal ganglion cells, but also in tectal cells, In particular, EphA3 mRNA is prominently expressed in the anterior tectum, with a pattern reciprocal to that of ephrin-A2 and ephrin-A5. Similarly, ephrin-A5 is expressed not only in tectal cells but also in the nasal retina, with a pattern reciprocal to that of its receptor EphA3 and partially overlapping with that of its other receptor EphA4. Consistent with the even distribution of EphA4 and the polarized distribution of EphA4 ligands in the retina, probing EphA4 immunoprecipitates from different sectors of the retina with anti-phosphotyrosine antibodies revealed spatial differences in receptor phosphorylation. These complex patterns of expression and tyrosine phosphorylation suggest that Eph receptors and ephrins contribute to establishing topography of retinal axons through multiple mechanisms, in addition to playing a role in intraretinal and intratectal organization.

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Patricia Menzel

A cluster of phosphorylation sites on the cyclic AMP-regulated nuclear factor CREB predicted by its sequence

Characterization of motifs which are critical for activity of the cyclic AMP-responsive transcription factor CREB.

Development and Characterization of Recombinant Adenoviruses Encoding Human p53 for Gene Therapy of Cancer

Characterization of a bipartite activator domain in transcription factor CREB

Expression and Tyrosine Phosphorylation of Eph Receptors Suggest Multiple Mechanisms in Patterning of the Visual System

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