Targeted delivery of a suicide gene to human colorectal tumors by a conditionally replicating vaccinia virus.

We have generated a thymidine kinase gene-deleted vaccinia virus (VV) (Copenhagen strain) that expressed the fusion suicide gene FCU1 derived from the yeast cytosine deaminase and uracil phosphoribosyltransferase genes. Intratumoral inoculation of this thymidine kinase gene-deleted VV encoding FCU1 (VV-FCU1) in the presence of systemically administered prodrug 5-fluorocytosine (5-FC) produced statistically significant reductions in the growth of subcutaneous human colon cancer in nude mice compared with thymidine kinase gene-deleted VV treatments or with control 5-fluorouracil alone. A limitation of prodrug therapies has often been the requirement for the direct injection of the virus into relatively large, accessible tumors. Here we demonstrate vector targeting of tumors growing subcutaneously following systemic administration of VV-FCU1. More importantly we also demonstrate that the systemic injection of VV-FCU1 in nude mice bearing orthotopic liver metastasis of a human colon cancer, with concomitant administration of 5-FC, leads to substantial tumor growth retardation. In conclusion, the insertion of the fusion FCU1 suicide gene potentiates the oncolytic efficiency of the thymidine kinase gene-deleted VV and represents a potentially efficient means for gene therapy of distant metastasis from colon and other cancers.

A new signal peptide useful for secretion of heterologous proteins from yeast and its application for synthesis of hirudin.

The BGL2 gene from Saccharomyces cerevisiae encodes a beta-glucanase which is localized to the yeast cell wall. The ability of a 23-amino acid (aa) signal peptide derived from the BGL2 gene to direct a heterologous protein to the secretory pathway of yeast has been compared to that of the MF alpha 1-encoded signal peptide in a series of gene fusions. As a model protein, the leech anticoagulant, recombinant hirudin variant 2-Lys47 (HIR) has been studied. From a multicopy plasmid chimaeric proteins were produced which carry the BGL2 signal peptide (or the artificial BGL2 pre-Val7 variant) (i) in front of the MF alpha 1 pro sequence (or modified versions of MF alpha 1 pro), i.e., a prepro signal, or (ii) joined directly to the heterologous protein. Accumulation of active HIR in yeast culture supernatants was observed when the BGL2 (or the BGL2 pre-Val7) signal peptide were used in combination with either of three versions of the MF alpha 1 pro peptide: the authentic MF alpha 1 pro, a partially deleted MF alpha 1 pro-delta 22-61, or a pro bearing an aa change (MF alpha 1 pro-Gly22). In each case the BGL2 signal peptide (or its variant) has proven equally productive to the corresponding MF alpha 1 peptide. Four times more active HIR was detected in the culture supernatant when either signal peptide was fused directly to the recombinant protein, as compared to a prepro protein version. Correct signal peptide cleavage was obtained when HIR was produced as a BGL2 pre-Val7::fusion protein.

Modified vaccinia virus Ankara as a vector for suicide gene therapy.

Modified vaccinia virus Ankara (MVA) has been used successfully to express various antigens for the development of vaccines. Here we show that MVA can also be used as an efficient vector for the transfer of suicide genes to cancer cells. We have generated a new and highly potent suicide gene, FCU1, which encodes a fusion protein derived from the yeast cytosine deaminase and uracil phosphoribosyltransferase genes. We now describe the therapeutic benefit of using MVA to deliver and express the FCU1 gene in cancer cells. MVA-mediated transfer of the FCU1 gene to various human tumor cells results in the production of a bifunctional intracellular enzyme, such that exposure to the prodrug 5-FC suppresses the growth of the tumor cells both in vitro and in vivo. Moreover, we report a more potent tumor growth delay at lower doses of 5-FC using MVA-FCU1 in comparison to adenovirus encoding FCU1. Prolonged therapeutic levels of cytotoxic 5-FU were detected in tumors in mice treated with both MVA-FCU1 and 5-FC while no detectable 5-FU was found in the circulation. This original combination between MVA and FCU1 represents a potentially safe and attractive therapeutic option to test in man.

Molecular characterization of hybrid Tbp2 proteins from Neisseria meningitidis.

Transferrin-binding protein 2 (Tbp2) from Neisseria is an outer membrane-associated extracellular lipoprotein that is involved in iron capture within the infected host. The analysis of tbp2 clones isolated from various bacterial strains revealed extensive divergences throughout the open reading frame (ORF), with predicted amino acid (aa) sequences displaying 47% to 83% identity. Such a variability is likely to have resulted from the selective pressure exerted by the host immune system, but raises questions regarding the existing constraints for conservation of protein function. Indeed, the neisserial Tbp2s include a large structured domain, extending throughout the N-terminal half of the protein (approximately 270-290 aa), which is extremely stable and whose conformational integrity is required for efficient binding to human transferrin (hTf). In this work, a functional study of Tbp2s encoded by hybrid genes constructed by reassorting highly divergent tbp2 sequences in the region of the ORF encoding this structured domain was performed. The data demonstrate that the determinant intramolecular interactions allowing formation of a stable Tbp2 structure able to interact efficiently with hTf or/and that the Tbp2 residues involved in the interaction with hTf are not well conserved. However, a number of rearrangements appeared to generate genes encoding proteins which have retained structural stability and hTf-binding capacity. This suggested that despite the extreme aa sequence divergence and the conformational constraints, horizontal genetic exchanges, which are known to occur in neisserial populations, may have contributed significantly to the generation of sequence variation within tbp2 ORFs. The analysis of two tbp2 clones characterized in this work supports this hypothesis.

High level of expression of a protective antigen of schistosomes in Saccharomyces cerevisiae.

Strains of Saccharomyces cerevisiae expressing P28-I, an antigen inducing protection against schistosomiasis, have been constructed. Transformants containing a very high copy number of a P28-I expression vector were selected by genetic complementation involving deficient LEU2 or URA3 alleles carried by plasmids. Using the ura3 fur1 auto-selection system, constitutive and stable expression of P28-I could be obtained in cultures grown in rich medium. The accumulation of the foreign protein exceeds 25% of total yeast proteins when estimated by Coomassie Brilliant Blue staining of SDS-PAGE. Moreover, P28-I which was located intracellularly was soluble and biologically active.

Chromogenic identification of genetic regulatory signals in Bacillus subtilis based on expression of a cloned Pseudomonas gene.

A method to isolate fragments of DNA that promote gene expression in Bacillus subtilis is described. The system is based on production of catechol 2,3-dioxygenase [CatO2ase; catechol:oxygen 2,3-oxidoreductase (decyclizing), EC 1.13.11.2] encoded by the Pseudomonas putida TOL plasmid gene xylE. The gene was transferred to aB. subtilis/Escherichia coli plasmid vector to construct pTG402. Although xylE is functionally expressed in E. coli, CatO2ase is not detected in B. subtilis unless a fragment of DNA capable of promoting gene expression is ligated into a cleavage site on pTG402 upstream from xylE. Fragments of chromosomal DNA from B. subtilis, Bacillus licheniformis, Bacillus pumilus, and E. coli are shown to promote xylE gene expression in B. subtilis. The special feature of the system is the method of detection: colonies of cells that express xylE become yellow within seconds after selection plates are sprayed with catechol, a colorless substrate that is converted by CatO2ase to the yellow product, 2-hydroxymuconic semialdehyde. The complete nucleotide sequence of xylE is presented. Strong complementarity between the ribosome binding site and 16S rRNA suggests that xylE mRNA translation in B. subtilis may commence at the same site as that recognized by P. putida. Identity of CatO2ase produced in B. subtilis, E. coli, and P. putida support the hypothesis. Our sensitive color assay offers an approach to develop plasmid gene expression vectors for a wide variety of host organisms.

Isolation of a human anti-haemophilic factor IX cDNA clone using a unique 52-base synthetic oligonucleotide probe deduced from the amino acid sequence of bovine factor IX.

A unique 52mer oligonucleotide deduced from the amino acid sequence of bovine Factor IX was synthesized and used as a probe to screen a human liver cDNA bank. The Factor IX clone isolated shows 5 differences in nucleotide and deduced amino acid sequence as compared to a previously isolated clone. In addition, precisely one codon has been deleted.Images

Production of a non-functional nef protein in human immunodeficiency virus type 1-infected CEM cells.

The nef gene product of the human immunodeficiency virus (HIV) is suggested to be a negative factor involved in down-regulating viral expression by a mechanism in which the correct conformation of the nef protein is essential. The nef protein expressed by vaccinia virus recombinants is phosphorylated by protein kinase C. We investigated the synthesis of the nef protein and its state of phosphorylation during HIV-1 infection of a T4 cell line (CEM cells). Maximum synthesis of viral proteins occurred 3 days after infection, when more than 90% of cells were producing viral proteins. The synthesis of the nef protein was detected in parallel with the env and gag proteins. As expected, the nef protein was myristylated but not phosphorylated, and its half-life was less than 1 h. By the use of the polymerase chain reaction technique, we isolated and sequenced the nef gene of this HIV-1 stock. Two significant mutations were observed. Firstly, threonine, at amino acid number 15, the site of phosphorylation by protein kinase C, was mutated into an alanine, and secondly aspartic acid of the tetrapeptide WRFD, which is probably involved in GTP binding, was mutated into an asparagine. The mutated nef gene was expressed in a vaccinia virus system, in which it was not phosphorylated and its half-life was dramatically reduced compared to the wild-type nef gene product. Furthermore, down-regulation of CD4 cell surface expression was no longer affected by the mutated nef gene. These results emphasize that phosphorylation of the nef protein provides an efficient test to monitor its biological activity.