Generation of active immunotoxins containing recombinant restrictocin

Restrictocin, a toxin produced by the fungusAspergillus restrictus,is a potent inhibitor of eukaryotic protein synthesis. Recombinant restrictocin was made inEscherichia coliand purified to homogeneity in large amounts. The recombinant protein was found to be poorly immunogenic in mice with low toxicity, when injected intraperitoneally. Two immunotoxins were constructed by coupling the recombinant restrictocin to an antibody to the human transferrin receptor, using a cleavable and a stable linkage. The immunotoxins so generated showed specific cytotoxic activity toward receptor bearing cells in tissue culture. Immunotoxin with a cleavable linkage, however, was more active than that containing a stable linkage. Restrictocin appears to be a promising candidate to be developed as a chimeric toxin for targeted therapy

Cytotoxic activity of ribonucleolytic toxin restrictocin-based chimeric toxins targeted to epidermal growth factor receptor

AbstractTargeted toxins represent a new approach to specific cytocidal therapy. The ribonucleolytic protein toxin restrictocin is a potent protein synthesis inhibitor produced by the fungus Aspergillus restrictus. In the present study we have constructed two restrictocin based chimeric toxins where human transforming growth factor alpha (TGFα) has been used as a ligand. TGFα is a single chain polypeptide, which binds to epidermal growth factor receptor (EGFR) and causes proliferation in a large number of cancers. The ligand has been separately fused either at the amino terminus or carboxyl terminus of restrictocin, giving rise to TGFα-restrictocin and restrictocin-TGFα respectively. The fusion proteins were overexpressed in Escherichia coli and purified from inclusion bodies by a denaturation-renaturation protocol. Both the chimeric toxins actively inhibited eukaryotic protein synthesis in a cell free in vitro translation assay system. These chimeric toxins selectively killed human epidermal growth factor receptor positive target cells in culture. Among the two proteins, restrictocin-TGFα was more active than TGFα-restrictocin on all the cell lines studied

Overproduction of fungal ribotoxin α -sarcin in Escherichia coli: generation of an active immunotoxin

α-Sarcin is a ribonucleolytic protein secreted by the mold Aspergillus giganteus. DNA encoding a-sarcin was isolated from the host and cloned into T7 promoter based E. coli expression vectors. Using bacterial outer membrane protein A (OmpA) signal sequence, properly processed recombinant (re-) protein was secreted into the culture medium while in the absence of a signal sequence protein remained insoluble in the bacterial inclusion bodies. The re-α-sarcin was purified to homogeneity by simple chromatographic techniques both from the insoluble and soluble sources with respective yields of 40-50 μg/ml and 2-3 μg/ml. The re-ribotoxin was functionally as active as the native toxin and preserved its specificity. The re-α-sarcin was used in the construction of an active immunotoxin targeted at the human cancer cells overexpressing transferrin receptor (TFR)

Molecular phylogenetic analysis of the avian malarial parasite Plasmodium (Novyella) juxtanucleare

International audiencePlasmodium (Novyella) juxtanucleare is a widely distributed parasite that primarily infects chickens (Gallus gallus domesticus). All species of Novyella are characterized by very small schizonts, which in the case of P. juxtanucleare are always found juxtaposed to the erythrocyte nucleus, hence its name. Nearly complete small-subunit ribosomal RNA sequences have been obtained from 2 isolates of this species, and comparisons with other Plasmodium species have been made. Phylogenetic analysis reveals that this parasite is closely related to other avian-infecting Plasmodium species and that molecular relationships among the avian-infecting plasmodia do not correspond to their morphology-based subgeneric classifications

Geographic Subdivision of the Range of the Malaria Parasite, Plasmodium vivax

We examined geographically distinct isolates of Plasmodium vivax and categorized them according to developmental success in Anopheles albimanus. We found that parasites from Central America and Colombia form a group distinct from those of Asia. New World isolates have a distinct chromosomal translocation and an episomal variation in the open reading fram (ORF) 470 DNA sequence that distinguishes them from the other isolates tested. Old World types of P. vivax were introduced into the Americas, and a remnant of this lineage remains in P. simium. It is indistinguishable from Old World P. vivax to the extent determinable by using our encoded markers and the examination of its developmental pattern in mosquitoes. The cohesive characteristics that separate types of P. vivax are predictors of range and potential for transmission and hence require taxonomic distinction