STABILIZATION OF THE FV FRAGMENTS IN RECOMBINANT IMMUNOTOXINS BY DISULFIDE BONDS ENGINEERED INTO CONSERVED FRAMEWORK REGIONS

Disulfide-stabilized Fv's (dsFv's) are recombinant Fv fragments of ant ibodies in which the unstable variable heavy (V-H) and variable light (V-L) heterodimers are stabilized by disulfide bonds engineered at spe cific sites that lie between structurally conserved framework position s of V-H and V-L We have recently described one example of a recombina nt immunotoxin, B3(dsFv)-PE38KDEL, that is composed of such a dsFv con nected to a truncated form of Pseudomonas exotoxin [Brinkmann, U., Rei ter, Y., Jung, S.-H., Lee, B., and Pastan, I. (1993) Proc. Natl. Acad. Sci. U.S.A. 90, 7538-7542]. This disulfide-stabilized immunotoxin has the same cytotoxic activity and specificity as its single-chain immun otoxin counterpart. To determine whether the stabilization of Fv's by disulfides at these positions is generally applicable, we made and ana lyzed two other dsFv-containing immunotoxins. One is made from the e23 antibody, which binds to the carcinoma-associated antigen erbB2; the other is made from the anti-Tac antibody, which binds to the p55 subun it of the IL-2 receptor. Comparison of the specificity and activity of these immunotoxins with those of their scFv counterparts revealed tha t e23(dsFv)-PE38KDEL was considerably more active than e23(Fv)-PE38KDE L, whereas anti-Tac(dsFv)-PE38KDEL was only somewhat more active than its single-chain counterpart. These results suggest that dsFv's have a t least the same binding properties as scFv's, and in some cases they may have better binding. Thus, it should be feasible to use the positi ons we have identified in the conserved framework region to disulfide- stabilize many different Fv's. Furthermore, we have optimized the desi gn of the immunotoxin and the purification scheme, so that the yields of dsFv-immunotoxins are consistently higher than those of scFv-toxins and one can obtain up to 70 mg of pure active immunotoxin from 1 L of bacterial culture. This increased yield is mainly due to a decreased tendency of properly folded dsFv-immunotoxins to aggregate. Because ds Fv-immunotoxins have equal or improved activity, they are easier to pr oduce with high yields and are more stable than scFv-immunotoxins; dsF v-immunotoxins (and dsFv's alone) might be more useful than scFv's in clinical and other applications that require large amounts of stable r ecombinant Fv's.