Man Sung Co

A humanized monoclonal antibody produced in transgenic plants for immunoprotection of the vagina against genital herpes.

The ability to produce monoclonal antibodies (Mabs) in plants offers the opportunity for the development of an inexpensive method of mucosal immunoprotection against sexually transmitted diseases. To investigate the suitability of plant-expressed Mabs for vaginal preventive applications, we compared a humanized anti–herpes simplex virus 2 (HSV-2) Mab expressed in mammalian cell culture with the same antibody expressed in soybean. We found these Mabs to be similar in their stability in human semen and cervical mucus over 24 h, their ability to diffuse in human cervical mucus, and their efficacy for prevention of vaginal HSV-2 infection in the mouse.

Genetically engineered deglycosylation of the variable domain increases the affinity of an anti-CD33 monoclonal antibody.

M195 is a murine monoclonal antibody that binds to the CD33 antigen and is being tested for the treatment of myeloid leukemia. Surprisingly, a complementarity determining region (CDR)-grafted, humanized M195 antibody displayed a several-fold higher binding affinity for the CD33 antigen than the original murine antibody. Here we show that the increase in binding affinity resulted from eliminating an N-linked glycosylation site at residue 73 in the heavy chain variable region in the course of humanization. Re-introducing the glycosylation site in the humanized antibody reduces its binding affinity to that of the murine antibody, while removing the glycosylation site from the murine M195 variable domain increases its affinity. The removal of variable region carbohydrates may provide a method for increasing the affinity of certain monoclonal antibodies with diagnostic and therapeutic potential.

Murine and humanized constructs of monoclonal antibody m195 (anti‐cd33) for the therapy of acute myelogenous leukemia

Long‐term survival rates of patients with acute myelogenous leukemia treated with intensive chemotherapy are 15–20%, despite efforts to develop new treatment strategies. Murine M195 (131I‐M195), an anti‐CD33, immunoglobulin (Ig) G2a monoclonal antibody has reactivity restricted to early myeloid cells and myeloid leukemic blasts but not hematopoietic progenitors. Previous trials in patients with relapsed or refractory myeloid leukemia showed that 131I‐M195 rapidly targeted to the bone marrow and internalized into target cells.

Comparison of the three-dimensional structures of a humanized and a chimeric Fab of an anti-gamma-interferon antibody.

The objective of this work is to compare the three‐dimensional structures of “humanized” and mouse–human chimeric forms of a murine monoclonal antibody elicited against human γ‐interferon. It is also to provide structural explanations for the small differences in the affinities and biological interactions of the two molecules for this antigen. Antigen‐binding fragments (Fabs) were produced by papain hydrolysis of the antibodies and crystallized with polyethylene glycol (PEG) 8000 by nearly identical microseeding procedures. Their structures were solved by X‐ray analyses at 2.9 Å resolution, using molecular replacement methods and crystallographic refinement. Comparison of these structures revealed marked similarities in the light (L) chains and near identities of the constant (C) domains of the heavy (H) chains. However, the variable (V) domains of the heavy chains exhibited substantial differences in the conformations of all three complementarity‐determining regions (CDRs), and in their first framework segments (FR1). In FR1 of the humanized VH, the substitution of serine for proline in position 7 allowed the N‐terminal segment (designated strand 4‐1) to be closely juxtaposed to an adjacent strand (4‐2) and form hydrogen bonds typical of an antiparallel β‐pleated sheet. The tightening of the humanized structure was relayed in such a way as to decrease the space available for the last portion of HFR1 and the first part of HCDR1. This compression led to the formation of an α‐helix involving residues 25–32. With fewer steric constraints, the corresponding segment in the chimeric Fab lengthened by at least 1 Å to a random coil which terminated in a single turn of 310 helix. In the humanized Fab, HCDR1, which is sandwiched between HCDR2 and HCDR3, significantly influenced the structures of both regions. HCDR2 was forced into a bent and twisted orientation different from that in the chimeric Fab, both at the crown of the loop (around proline H52a) and at its base. As in HCDR1, the last few residues of HCDR2 in the humanized Fab were compressed into a space‐saving α‐helix, contrasting with a more extended 310 helix in the chimeric form. HCDR3 in the humanized Fab was also adjusted in shape and topography. The observed similarities in the functional binding activities of the two molecules can be rationalized by limited induced fit adjustments in their structures on antigen binding. While not perfect replicas, the two structures are testimonials to the progress in making high affinity monoclonal antibodies safe for human use. Copyright

Development of humanized monoclonal antibody TMA-15 which neutralizes Shiga toxin 2.

A murine monoclonal antibody (MAb), VTm1.1, specifically recognizing and neutralizing Shiga toxin 2 (Stx2), was obtained. To prevent a humoral response against murine antibody when used clinically, a humanized antibody was constructed by combining the complementarity-determining regions of VTm1.1 with human framework and constant regions. In addition, several amino acids in the framework were changed to improve the binding affinity of the antibody and further reduce its potential immunogenicity. The humanized antibody, TMA-15, recognized the B-subunit of Stx2 and had affinity for Stx2 of 3.3 x 10(-9) M, within two-fold of that of the original murine antibody. TMA-15 neutralized the cytotoxicity of Stx2 and several different Stx2 variants in vitro, and it completely protected mice from death in a Stx2-challenged mice model. These results suggest that TMA-15 will have clinical potency in Stx-producing Escherichia coli infections, including E. coli O157 infections.

Properties and pharmacokinetics of two humanized antibodies specific for L-selectin.

BACKGROUND The participation of L-selectin in leukocyte recruitment during inflammation has suggested the use of L-selectin inhibitors as potential anti-inflammatory therapeutics. Blocking monoclonal antibodies could serve as such therapeutic agents, particularly if humanized to reduce their immunogenicity and improve their serum half-life. OBJECTIVES For this purpose, two mouse monoclonal antibodies, DREG-55 and DREG-200, that block human L-selectin were humanized and characterized. STUDY DESIGN The resulting humanized antibodies, HuDREG-55 and HuDREG-200, constructed with human IgG4 constant regions, were evaluated for their specificity, affinity and ability to block L-selectin-dependent adhesion in in vitro assays. Their pharmacokinetic behavior in rhesus monkeys was also studied. RESULTS HuDREG-55 and HuDREG-200 were found to retain the specificity and affinity, within 2-fold, of the parent murine antibodies. HuDREG-55 and HuDREG-200 block L-selectin-dependent adhesion of human lymphocytes to high endothelial venules in frozen sections of lymph nodes. In addition, HuDREG-55 and HuDREG-200 are inhibitory in a novel L-selectin-dependent adhesion assay. This assay utilizes flow cytometry to measure binding of polymerized liposomes containing an analog of sialyl Lewis X, sialyl Lewis X glycoliposomes, to peripheral blood neutrophils and lymphocytes. Studying the pharmacokinetics of HuDREG-55 and HuDREG-200 in rhesus monkeys showed terminal elimination half-lives at 12.0 and 20.3 days, respectively. CONCLUSION The shorter terminal elimination half-life of HuDREG-55 in rhesus monkeys may be due to the ability of HuDREG-55 but not HuDREG-200 to bind rhesus monkey L-selectin.

Comparison of the antiplatelet agent potential of the whole molecule, F(ab)2 and Fab fragments of humanized anti-GPIIb/IIIa monoclonal antibody in monkeys.

1. The potential antiplatelet agent use of the whole molecule, F(ab)2 and Fab fragments of humanized antiglycoprotein (GP) IIb/IIIa monoclonal antibody, hC4G1, were investigated in rhesus monkeys. 2. Fab completely inhibited platelet aggregation 1 hr after an i.v. bolus administration of 1 mg/kg without a decrease in platelet count or prolongation of bleeding time, and the duration of inhibition was much shorter than that of F(ab)2. 3. These results suggest that the Fab fragment of hC4G1 may be a more useful antiplatelet agent in patients with acute thromboembolic diseases than the whole molecule or F(ab)2 fragments.