Expression of an anti apoptotic recombinant short peptide in mammalian cells.

Understanding the mechanisms of the apoptotic and anti apoptotic processes may lead to a better way to control these cascades. Here we demonstrated for the first time the feasibility to express a short functional peptide in mammalian cells that abrogates the apoptosis cascade through interference with the proteolytic activity of the initiator caspase 9 and the executing caspase 3 enzymes. The expression of a short peptide that includes the pseudo-substrate motif of the apoptosis inhibitor protein P35 (Asp-Gln-Met-Asp) leads to the abrogation of cell death induced through either the mitochondrial or the death receptors pathways. Short open reading frames have been detected in several mammalian mRNAs, primarily upstream of the main long reading frame (uORFs), however, direct evidence for de-novo peptides translation has not been provided. Utilizing biochemical and imaging techniques we demonstrate here that the functional recombinant peptide was localized to the cytpoplasmic fraction of the cell. In conclusion, this work demonstrates that ribosomes recognize short ORFs to translate stable short recombinant peptides in mammalian cells. Expression of these intracellular peptides results in the knock down of apoptotic processes to generate apoptosis resistant stable cells.

Two cysteine residues in the DNA-binding domain of CREB control binding to CRE and CREB-mediated gene expression.

The cAMP-responsive element-binding protein (CREB) has been implicated in the regulation of numerous physiological functions including those of several hypoxia-responding genes. All CREB transcription-regulated genes harbor the eight base-pair cAMP-responsive element (CRE) or the seven base-pair AP-1 sequence. Utilizing mutational analysis and biochemical assays, we found that reduction of two cysteine residues located in the DNA-binding basic domain of CREB, enhances the binding efficiency of CREB to DNA and regulates CRE-mediated gene expression. Substitution of these residues to serine renders insensitivity to reduction, hypoxia and to the sulfhydryl-specific modifying agent, N-ethylmaleimide. These substitutions enhance the binding of CREB to its cognate DNA sites under oxidative conditions, and of the CREB-dependent gene expression during normoxia. These findings are supported by results of molecular modeling of the CREB-CRE interactions. We also found that HTLV-1 Tax enhancement of CREB binding to the cellular and the viral DNA sites and activation of the CRE-dependent gene expression are independent of CREB activation exerted by redox conditions. The genetic biochemical and molecular modeling presented in this work indicate that the two cysteine residues in the bZIP domain of CREB regulate the binding efficiency of CREB to its cognate DNA sites and as a consequence the activation of CREB-mediated gene expression.

Imaging transgene expression in live animals.

Monitoring the expression of therapeutic genes in targeted tissues in disease models is important to assessing the effectiveness of systems of gene therapy delivery. We applied a new light-detection cooled charged-coupled device (CCCD) camera for continuous in vivo assessment of commonly used gene therapy delivery systems (such as ex vivo manipulated cells, viral vectors, and naked DNA), without the need to kill animals. We examined a variety of criteria related to real-time monitoring of luciferase (luc) gene expression in tissues including bone, muscle, salivary glands, dermis, liver, peritoneum, testis, teeth, prostate, and bladder in living mice and rats. These criteria included determination of the efficiency of infection/transfection of various viral and nonviral delivery systems, promoter specificity, and visualization of luciferase activity, and of the ability of luciferin to reach various organs. The exposure time for detection of luc activity by the CCCD camera is relatively short (approximately 2 minutes) compared with the intensified CCD camera photon-counting method (approximately 15 minutes). Here we transduce a variety of vectors (such as viruses, transfected cells, and naked DNA) by various delivery methods, including electroporation, systemic injection of viruses, and tail-vein, high-velocity-high-volume administration of DNA plasmids. The location, intensity, and duration of luc expression in different organs were determined. The distribution of luciferin is most probably not a barrier for the detection of in vivo luciferase activity. We showed that the CCCD photon detection system is a simple, reproducible, and applicable method that enables the continuous monitoring of a gene delivery system in living animals.

Gene regulation mediated by interaction between HTLV-1 promoter elements and transcription factors Tax and CREB.

In this work we examine the role of three genetic control components in the regulation of HTLV-1 transcription: cyclic AMP-responsive element (CRE)-binding protein (CREB), the HTLV-1 trans-activator Tax, and the three Tax-responsive elements (TREs). We demonstrate that the in vivo efficiency of the HTLV-1 promoter basal expression in cell culture depends on the spacing between the three TRE elements, located at the HTLV-1 LTR (long terminal repeat), whereas the level of transcription activation mediated by Tax is affected by the number of TREs. In the presence of only one TRE, the enhancement of expression by Tax is affected by the distance between the single TRE and the transcription start site. Following CREB binding to the LTR, additional DNase I hypersensitive sites are generated in the region between the two distal TREs (I and II), while in the presence of Tax, such sites are generated also in the region between TREs II and III. Neither cooperative binding of CREB to the TREs nor preferential binding of CREB to a particular TRE was observed. Tax binding to the CREB/TRE complex does not change the DNase I protection pattern. Taken together, these results suggest that the basal CREB-mediated transcription is determined by the number and the position of the viral TREs relative to each other. Tax protein stabilizes the protein/DNA complex and suppresses the spacing limitations, probably by bridging between the CREB/TRE complexes and the basal initiation transcription complex.

Characterization of the human cytomegalovirus UL97 gene product as a virion-associated protein kinase.

The cellular localization and virion association of the human cytomegalovirus (HCMV) UL97 protein were studied. UL97 protein demonstrated early nuclear localization followed by late perinuclear accumulation. It was found to be a structural virion constituent detected in all three enveloped forms of extracellular viral particles and shown to be phosphorylated by the virion-associated protein kinase. UL97 protein immunoprecipitated from virions and from infected cells demonstrated protein kinase activity manifested by autophosphorylation. This activity was reduced in the presence of a ganciclovir-resistance mutation at residue 460, implicated in nucleotide binding. A mutant virus, from which the proposed UL97 kinase catalytic domain had been deleted, could not be propagated in the absence of a helper wild-type virus. The characterization of UL97 protein as a virion-associated protein kinase which appears essential for viral replication, provides further insight into HCMV replication and could identify a potential novel target for antiviral therapy.

Effect of herpes simplex virus type-1 UL41 gene on the stability of mRNA from the cellular genes: beta-actin, fibronectin, glucose transporter-1, and docking protein, and on virus intraperitoneal pathogenicity to newborn mice.

Infection with HSV-1 is accompanied by the shut-off of cellular gene expression. The virion-associated function is encoded by the viral gene UL41. An HSV-1 mutant, vhs-1, which has a genomic deletion in the UL41 gene, is incapable of inducing the shut-off of cellular gene expression. The effect of HSV-1 infection on the shut-off of the cellular genes (or mRNA degradation) was studied specifically with the cellular genes for beta-actin, fibronectin, glucose transporter-1, and the docking protein. The level of these specific mRNAs was measured in cells infected with several HSV-1 strains and was compared to that of vhs-1- and mock-infected cells. It was possible to demonstrate a marked reduction in the level of the specific mRNA from these cellular genes in cells infected with several HSV-1 strains but not with the vhs-1 mutant. The pathogenicity of the HSV-1 vhs-1 mutant to newborn mice was studied. It was found that the mutant is less pathogenic to newborn mice than its parental strain HSV-1 KOS.