A Key role for cyclic AMP-responsive element binding protein in hypoxia-mediated activation of the angiogenesis factor CCN1 (CYR61) in Tumor cells.

Hypoxia is a prominent feature of solid tumors known to contribute to malignant progression and therapeutic resistance. Cancer cells adapt to hypoxia using various pathways, allowing tumors to thrive in a low oxygen state. Induction of new blood vessel formation via the secretion of proangiogenic factors is one of the main adaptive responses engaged by tumor cells under hypoxic conditions.

Adenovirus expressing a bioluminescence reporter gene and cMAGI cell assay for the detection of HIV-1.

We report a fast, highly sensitive method for detecting and testing drug resistance of M-tropic and T-tropic laboratory and primary HIV-1 isolates. cMAGI cells are infected with an adenovirus vector harboring the luciferase reporter gene controlled by HIV-1 Tat-responsive element, TAR. HIV-1 Tat production by HIV-1 chronically infected cells, or by cMAGI cells as early as two days after being acutely infected with HIV-1, is readily monitored in the presence or absence of antiviral drugs.

A pivotal role of cyclic AMP-responsive element binding protein in tumor progression.

Tumor microenvironment controls the selection of malignant cells capable of surviving in stressful and hypoxic conditions. The transcription factor, cyclic AMP-responsive element binding (CREB) protein, activated by multiple extracellular signals, modulates cellular response by regulating the expression of a multitude of genes. Previously, we have demonstrated that two cystein residues, at the DNA binding domain of CREB, mediate activation of CREB-dependent gene expression at normoxia and hypoxia.

Intracellular expression of a functional short peptide confers resistance to apoptosis.

Expression of free short peptides could potentially be used to modulate biochemical cascades and consequently to change cellular phenotypes. Here we demonstrate that expression of a short peptide of 15 amino acids, including the pseudo-substrate site of the baculovirus-apoptosis inhibitor P35, Asp-Gln-Met-Asp (DQMD), leads to abrogation of the apoptotic cascade. Treatment of cells, expressing the DQMD peptide with two apoptosis inducers, etoposide and sodium nitroprusside, (SNP) results in blocking of the apoptotic cascade, indicated by DNA fragmentation and caspase activation.

Femtosecond infrared laser-an efficient and safe in vivo gene delivery system for prolonged expression.

The major advantages of "naked DNA gene therapy" are its simplicity and a low or negligible immune response. Gene delivery by DNA electroporation (EP) involves injection of DNA and the application of a brief electric pulse to enhance cellular permeability. Although EP is an efficient gene transduction technique in rodents, it requires much higher voltages (>500 V) in larger animals, and hence, in practice it would be hazardous for human patients, as it would cause serious tissue damage.