We investigated the safety and efficacy of liver-directed gene therapy using lentiviral vectors in a large animal model of hemophilia B, and evaluated the risk of insertional mutagenesis in tumor-prone mouse models. We show that gene therapy using lentiviral vectors targeting expression of a canine factor IX transgene to hepatocytes was well-tolerated and provided stable long-term production of coagulation factor IX in dogs with hemophilia B. By exploiting three different mouse models designed to amplify the consequences of insertional mutagenesis, we show that no genotoxicity was detected with these lentiviral vectors. Our findings suggest that lentiviral vectors may be an attractive candidate for gene therapy targeted to the liver and may be useful for the treatment of hemophilia.
Many small peptides can be displayed on every copy of the major coat protein in recombinant filamentous bacteriophages but larger peptides can only be accommodated in hybrid virions mixed with wild-type protein subunits. A peptide insert of 12 residues capable of display at high copy number in a hybrid virion was found to be incapable of supporting recombinant virion assembly, a defect that could not be overcome by over-expressing leader peptidase in the same Escherichia coli cell. In contrast, over-expressing leader peptidase did increase the copy number of two 9-residue peptides that were poorly incorporated into hybrid virions. The factors that limit peptide display are varied and not restricted to the early stages of viral assembly.z 1998 Federation of European Biochemical Societies.
Ferredoxin I in spinach chloroplasts fulfils the role of distributing electrons of low redox potential produced by photosystem I to several metabolic routes, NADP' reduction being the major output. To investigate the role of Glu92, which is conserved in the chloroplast-type ferredoxins, mutations of this residue to either Gln, Ala or Lys were obtained through site-directed mutagenesis. A Glu93Ala mutant was also designed. The four mutants of ferredoxin I were overproduced in Escherichia coli, purified and characterised. The different migration in nondenaturing gel electrophoresis of wild-type and mutant proteins confirmed that the desired mutation was present in the expressed proteins. Spectral and physical properties of the mutants were similar to those of wild-type ferredoxin; electron-transfer properties were, however, quite different in the case of the mutants at position 92. Unexpectedly, these mutant ferredoxins were found to be twice as active as the wild-type protein in supporting the NADPH-cytochrome c reductase reaction catalysed by ferredoxin-NADP' reductase. However, interactions of the mutant ferredoxins with the isolated thylakoid membranes deprived of endogenous ferredoxin showed that the mutants were less capable of supporting NADP' photoreduction than the wild-type protein: both V and the apparent K, for reduced ferredoxin were influenced. On the other hand, the K', values for the complex between oxidised ferredoxin and the reductase, measured at low ionic strength, were substantially changed only in the case of the Glu-+Lys mutation. With this mutant the rate of cross-linking between the two proteins induced by a carbodiimide was also decreased. It was found that the redox potentials of the iron-sulfur cluster of the mutants were more positive by 73-93 mV than that of ferredoxin I [Aliverti, A,, Hagen, W. R. & Zanetti, G. (1995) FEBS Lett. 368, 220-2241, Thus, the behavior of the ferredoxin mutants can be rationalised in terms of the effect of the side-chain replacement on the electrochemical properties of the [2Fe-2S] cluster and of an impairment in the interaction with the reductase under physiological conditions.
Phage display selection strategies rely on the physical link between the displayed heterologous protein ligand and the DNA encoding it. Thus, genes expressing a ligand with a specific binding affinity can be selected rapidly. To improve the specificity and sensitivity of this technology for potential use in identifying ligands to a specific antibody present in a complex mixture, we incorporated a DNA selection step along with the phage display technology. Ligands for hepatitis C virus (HCV) antibodies present in serum were identified by panning a phage-displayed random peptide library against pools of serum HCV antibodies. An additional DNA hybridization screening step using single-stranded DNA isolated from one of the pools increased the specificity and sensitivity, resulting in the selection of an HCV antibody ligand with diagnostic potential.
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