Antonia Franceschi scite author profile

A chimeric protein was obtained by fusing together the ricin toxin A chain (RTA) gene and a DNA fragment encoding the N terminus of protein G of the vesicular stomatitis virus. Chimeric RTA (cRTA) retained full enzymic activity in a cell-free assay, but was 10-fold less toxic against human leukemic cells than either native RTA (nRTA) or unmodified recombinant RTA (rRTA). However, conjugates made with cRTA and human transferrin (Tfn) showed 10 -20-fold greater cell killing efficacy than Tfn-nRTA or Tfn-rRTA conjugates despite equivalent binding of the three conjugates to target tumor cells. As a consequence, by fusion of the KFT25 peptide to the RTA sequence, the specificity factor (i.e. the ratio between nonspecific and specific cytotoxicity) of Tfn-cRTA was increased 90 -240 times with respect to those of Tfn-nRTA and Tfn-rRTA. cRTA interacted with phospholipid vesicles with 15-fold faster kinetics than nRTA at acidic pH. Taken together, our results suggest that the ability of vesicular stomatitis virus protein G to interact with cell membranes can be transferred to RTA to facilitate its translocation to the cell cytosol. Our strategy may serve as a general approach for potentiating the cytotoxic efficacy of antitumor immunotoxins.Cell-surface structures mediating the efficient internalization of cell-bound molecules are frequently selected as targets of monoclonal antibody/ligand-toxin conjugates (immunotoxins (IT) 1 ) (1). Rapid internalization, however, is not always synonymous with fast intoxication rates of the target cells as a result of cell mechanisms leading to inactivation of the internalized IT molecules (e.g. recycling, degradation, slow routing to subcellular compartments competent for toxin translocation) (1). The ricin toxin A chain (RTA) is a potent ribosome-inactivating enzyme used in the synthesis of highly selective IT. However, RTA-based IT exert their effect at relatively high concentrations due to poor translocation of RTA to the cell cytosol from the endocytic compartments where the IT are internalized (1).Viruses utilize specialized envelope structures that allow them to enter the cytosol of the infected cells. We reasoned that it might be possible to modify a cytotoxic enzyme (i.e. RTA) by fusing it to a protein structure derived from viral envelopes, thus conferring to the cytotoxic enzyme the cytosol targeting properties of the virus. A peptide representing the primary sequence of the 25 N-terminal amino acids of protein G of the vesicular stomatitis virus envelope (KFT25) was found to have pH-dependent membrane destabilizing properties (2, 3). In particular, at low pH, KFT25 was shown to be hemolytic, to mediate hemagglutination, to be cytotoxic for mammalian cells, and to effect gross changes in cell permeability (2, 3). Such a virus-derived structure might be endowed with the ability to facilitate the translocation of heterologous proteins across cell membranes when they are routed to acidic intracellular compartments.The transferrin receptor is a cell-surface structure known to de...

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Cytoreductive effects of anti‐transferrin receptor immunotoxins in a multicellular tumor spheroid model

Chignola

Foroni

Candiani

et al. 1994

Intl Journal of Cancer

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We have evaluated the sensitivity to immunotoxins (IT) of monolayer and of 200-250 microns multicellular tumor spheroid (MTS) cultures obtained with human breast (MCF7) and glioblastoma (U118) tumor cells and with rat glioblastoma (9L) cells. Monolayer MCF7 and U118 cells were highly sensitive to antitransferrin receptor (anti-TfnR) ricin A chain (RTA)-IT (Tfn-RTA and MAb OKT9-RTA) treatment in the presence of the intracellular RTA-IT enhancing agent human serum albumin-monensin (HSA-Mo) conjugate. A 790- to 2000-fold higher concentration of anti-TfnR IT was instead required to reduce by 50% the volume of individually treated MCF7 spheroids, as evaluated by applying the Gompertz growth model. Monolayer 9L cells showed 230- to 5700-fold lower sensitivity to Tfn-RTA IT than MCF7 and U118 monolayers, yet 9L spheroid cells were almost as sensitive to anti-TfnR IT as monolayer 9L cultures. Binding studies performed with [125I]-Tfn and FITC-labelled anti-TfnR MAb revealed that 9L monolayers and MTS expressed 4.1-fold and 8.8-fold lower amounts of TfnR than MCF7 monolayers and MTS, respectively. However, Tfn bound to TfnR sites of 9L and of MCF7 cells with comparable affinity. Experiments carried out with the diphtheria toxin mutant CRM107 linked to Tfn confirmed the pattern observed with RTA-IT. Monolayers and spheroids showed no considerable differences in sensitivity to ricin toxin. Collectively, these results indicated that the efficacy of IT against 3-D tumors is heavily influenced by the number of target Ag expressed by the tumor cells, as well as by the affinity of IT/toxin-cell interaction.

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Enhancement of ricin toxin a chain immunotoxin activity: Synthesis, ionophoretic ability, and in vitro activity of monensin derivatives

Dosio¹,

Franceschi²,

Ceruti³

et al. 1996

Biochemical Pharmacology

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