Re-engineering adenovirus regulatory pathways to enhance oncolytic specificity and efficacy.

Replicating adenoviruses may prove to be effective anticancer agents if they can be engineered to selectively destroy tumor cells. We have constructed a virus (01/PEME) containing a novel regulatory circuit in which p53-dependent expression of an antagonist of the E2F transcription factor inhibits viral replication in normal cells. In tumor cells, however, the combination of p53 pathway defects and deregulated E2F allows replication of 01/PEME at near wild-type levels. The re-engineered virus also showed significantly enhanced efficacy compared with extensively studied E1b-deleted viruses such as dl1520 in human xenograft tumor models.

Tissue-specific expression of an anti-proliferative hybrid transgene from the human smooth muscle alpha-actin promoter suppresses smooth muscle cell proliferation and neointima formation.

The retinoblastoma protein (Rb), a key regulator of cell cycle progression, can bind the transcription factor E2F converting it from a positive transcriptional factor capable of driving cells into S phase into a negative complex which arrests cells in G1. We have created a potent transcriptional repressor of E2F-dependent transcription by fusing the C-terminal fragment of Rb (p56) to the DNA and DP1-binding domains of E2F. Because the expression of E2F/56 fusion protein from a constitutive promoter was incompatible with virus growth, adenovirus constructs were prepared where transgenes were expressed from a fragment of the smooth muscle alpha-actin (SMA) promoter. Immunoblot and beta-galactosidase staining demonstrated smooth muscle-specific expression of this transcriptional element in vitro. The SMA-p56 and SMA-E2F/p56 adenoviral constructs also induced G0/G1 cell cycle arrest specifically in smooth muscle cells. Following administration to rat tissues, the SMA-beta-galactosidase construct exhibited expression in balloon-injured carotid arteries, but not in liver, bladder or skeletal muscle. Local delivery of the SMA-E2F/p56 adenoviral construct to balloon-injured carotid arteries inhibited intimal hyperplasia. Our results demonstrate that local delivery of the SMA-E2F/p56 adenoviral construct can limit intimal hyperplasia in balloon-injured vessels, while avoiding toxicity that could occur from the dissemination and expression of the viral transgene.

Adenoviral constructs encoding phosphorylation-competent full-length and truncated forms of the human retinoblastoma protein inhibit myocyte proliferation and neointima formation.

BACKGROUND: The retinoblastoma (Rb) protein is a key cell-cycle regulator that controls entry into the S phase by modulating the activity of the E2F transcription factor. We analyzed the effects of full-length phosphorylation-competent and a mutant truncated form of human Rb for their effects on vascular smooth muscle cell (VSMC) proliferation and neointima formation. METHODS AND RESULTS: A number of mutant forms, both phosphorylation competent and incompetent, of human Rb protein were evaluated for their ability to inhibit E2F activity. The results of these assays indicated that a phosphorylation competent, amino-terminal-truncated Rb protein (Rb56) was a particularly potent inhibitor of E2F-mediated transcription relative to the full-length Rb construct (Rb110). Adenoviral constructs containing Rb56 or Rb110 expressed their respective Rb forms in VSMCs, as determined by Western immunoblot analysis, and were similar in their abilities to arrest the cell cycle, as determined by assays of 3H-thymidine incorporation and by flow cytometric analyses. When examined for their effect on neointima formation after balloon injury of the rat carotid artery, both full-length and truncated forms of Rb inhibited formation of this VSMC-derived lesion. CONCLUSIONS: These analyses revealed that the maintenance of high levels of phosphorylation-competent human Rb, either full-length or truncated forms, in VSMCs is an effective method of modulating the extent of intimal hyperplasia that occurs after balloon-induced vascular injury.

Engineered mutants of pRB with improved growth suppression potential.

We have constructed a panel of substitution mutants which affect one or more of the putative cdk target sites of the RB protein. We have examined the activity of these mutants relative to wild-type RB by both a transcriptional repression assay and by measuring growth suppression in vitro. We find that some phosphorylation site mutants of pRB can repress E2 transcription more strongly than wild-type RB. These mutants are partially resistant to phosphorylation by cdks and can arrest tumor cells in G1 in vitro. Our results indicate a functional correlation between the ability to repress E2F-dependent transcription and the ability to suppress tumor cell growth in vitro. In addition, we describe two classes of RB mutants: N-terminal truncated p56RB and a novel mutant of RB containing multiple substitutions near its nuclear localization signal. Both classes of RB mutants have greater activity than the wild-type protein. Because RB is a key regulator of cell cycle progression, expression of a more potent, phosphorylation resistant RB may have utility in both RB(-/-) and RB(+/+) tumors as well as in hyperproliferative disorders.

Recombinant human retinoblastoma protein inhibits cancer cell growth.

Aberrant expression of the tumor suppressor gene RB1 is associated with a variety of solid tumors and hematopoietic neoplasms. Certain cancer cell lines in which the protein encoded by RB1 (p110RB) is absent have been reported to show decreased growth rate, clonogenicity, or tumorigenicity following insertion of a transcriptionally active RB1 gene. We asked whether these RB-deficient cells could be growth inhibited by direct exposure to purified p110RB. We report a decrease in uptake of tritiated thymidine by 5637 bladder carcinoma cells (RB-negative) when purified recombinant p110RB is added to culture media. Internalization of the protein by cells and translocation to the nucleus are demonstrated by immunohistochemistry, FACS, and detection of radiolabeled protein in subcellular fractions. Next, we chose a well-described leukemia cell culture model to investigate the potential effect of recombinant p110RB in clinical disease. We observed dose-related decreases in cell number of colony formation in vitro in 8 of 20 acute myelogenous leukemia samples, 7 of which did show endogenous p110RB detectable by immunohistochemistry. Histological appearance following exposure to p110RB shows cytoplasmic vacuolization and nuclear lobulation of degenerating cells. We conclude that purified p110RB added to culture media is internalized by cells, translocated to the nucleus, and exerts a growth-inhibitory effect on certain cancer cell types.

Inhibition of tumor cell proliferation in vitro and in vivo by exogenous p110RB, the retinoblastoma tumor suppressor protein.

Reconstitution of retinoblastoma gene (RB) deficient tumor cells with RB generally leads to growth suppression in vitro and/or reduced tumorigenicity in nude mice. An alternate approach to gene replacement is the delivery of the RB gene product (p110RB) into cells lacking its expression. In this report we demonstrate that exogenously added p110RB is taken up by and localized to the nucleus of cultured cells and has growth suppression properties similar to endogenous RB. RB-negative (RBneg) tumor cells are preferentially growth inhibited while most RB-positive (RBpos) tumor cells and normal cells are much less sensitive. We have extended these studies to relevant nude mouse xenograft models for human lung cancer. Local or systemic administration of p110RB inhibits tumor growth in treated animals. These results represent the first use of a tumor suppressor protein as a potential cancer therapeutic.

Increased protein expression through improved ribosome-binding sites obtained by library mutagenesis.

This report describes a method whereby library mutagenesis combined with drug selection was used to generate unique and efficient ribosome-binding sites (RBS) for expressing recombinant proteins in Escherichia coli. The RBS was deleted from a vector expressing beta-lactamase and replaced with a 16-base sequence containing a library of mutations. Selection of the library with ampicillin yielded several unique RBS sequences that were more efficient than ompA RBS for expressing a bacterial (beta-lactamase) and a mammalian protein (single-chain Fv antibody). The described approach provides a practical means to improve recombinant protein expression and, also, provides new sequences to further evaluate the complex regulatory mechanism underlying translation initiation.

Characterization of recombinant HIV-1 Tat and its interaction with TAR RNA.

Recombinant HIV-1 Tat (Tat 1-86) has been purified from the cytoplasmic fraction of Escherichia coli without the use of protein denaturants or chaotropic agents. Chloroquine-mediated uptake of the purified protein into cells resulted in transactivation of the HIV LTR promoter. Tat retains 1.64 mol of Zn2+/mol of protein by atomic absorption spectroscopy. Circular dichroism measurements indicated that the structure of recombinant Tat contains 15-20% alpha-helix. Filter binding assays showed that Tat binds to a 63-nucleotide target TAR RNA with a dissociation constant (Kd) of 10 nM at 25 degrees C, 0.05 M ionic strength, pH 7.5, in a 1:1 Tat-TAR RNA stoichiometry. Nonelectrostatic interactions provide the principal source of free energy of association. While the pH optimum occurs over a wide H+ concentration, the salt dependence of Kd indicates formation of a single ion pair. UV-induced protein-RNA cross-linking produced a labeled Tat-TAR RNA adduct, indicating that direct contact occurred between the Tat protein and TAR RNA.

Purification and characterization of recombinant Rev protein of human immunodeficiency virus type 1.

Recombinant Rev protein of human immunodeficiency virus type 1 has been expressed in Escherichia coli and purified by ion-exchange and gel-filtration chromatography. Specific binding of the purified protein to the Rev-responsive element of the viral RNA is demonstrated. Physical characterization of the purified protein by circular dichroism and intrinsic fluorescence spectroscopy indicate that the protein preparation is suitable for structural analysis. Circular dichroism measurements show that the protein is approximately 40-45% alpha-helix. Tryptophan fluorescence measurements suggest that the single tryptophan residue is located near the surface of the protein. Gel-filtration chromatography of the protein indicates that it has an apparent molecular mass of 33,000 daltons. This suggests that the protein in solution forms a stable tetramer consisting of monomers having molecular mass of 13,000 daltons.

Effects of heavy metals on alpha-fetoprotein in maternal sera and amniotic fluid of pregnant mice.

This report describes the effects of low levels of copper, nickel and lead salts on the concentrations of alpha-fetoprotein (AFP) in the sera and amniotic fluid of pregnant Nylar mice. During the early and mid-gestation (9-17 days), pregnant mice were injected intraperitoneally twice with heavy-metal salt solutions and were autopsied two days following the second injection. Maternal sera and amniotic fluid (AF) were collected and AFP levels were quantified by radial immunodiffusion. Metal levels determined by X-ray fluorescence spectroscopy in individual samples confirmed the presence of trace metals in the fetus. Low doses of nickel and copper were associated with elevated AFP levels in amniotic fluid in 15-17 day pregnant animals, while maternal serum AFP levels mostly remained unchanged. Decreased concentrations of maternal serum AFP occurred with increased doses of copper and lead in contrast to elevated concentrations of AFP in amniotic fluid. Furthermore, there was an increase in fetal wastage when higher doses of copper and lead were administered. A reduction of secondary litter size (F1 generation) with low dosage levels of lead was also observed. These results imply that the fetal-maternal transfer of AFP may either be impaired or reflect increased leakage or decreased placental permeability in the presence of sublethal doses of copper and lead. These findings suggest that the parallel measurements of AFP concentrations in sera and amniotic fluid might be employed for assessment of embryo- and fetotoxicity when heavy metal intake is suspected during pregnancy.