Larissa Doughty

Selection and Affinity Maturation of IgNAR Variable Domains Targeting Plasmodium falciparum AMA1

The new antigen receptor (IgNAR) is an antibody unique to sharks and consists of a disulphide‐bonded dimer of two protein chains, each containing a single variable and five constant domains. The individual variable (VNAR) domains bind antigen independently, and are candidates for the smallest antibody‐based immune recognition units. We have previously produced a library of VNAR domains with extensive variability in the CDR1 and CDR3 loops displayed on the surface of bacteriophage. Now, to test the efficacy of this library, and further explore the dynamics of VNAR antigen binding we have performed selection experiments against an infectious disease target, the malarial Apical Membrane Antigen‐1 (AMA1) from Plasmodium falciparum. Two related VNAR clones were selected, characterized by long (16‐ and 18‐residue) CDR3 loops. These recombinant VNARs could be harvested at yields approaching 5mg/L of monomeric protein from the E. coli periplasm, and bound AMA1 with nanomolar affinities (KD= ∼2 × 10−7 M). One clone, designated 12Y‐2, was affinity‐matured by error prone PCR, resulting in several variants with mutations mapping to the CDR1 and CDR3 loops. The best of these variants showed ∼10‐fold enhanced affinity over 12Y‐2 and was Plasmodium falciparum strain‐specific. Importantly, we demonstrated that this monovalent VNAR co‐localized with rabbit anti‐AMA1 antisera on the surface of malarial parasites and thus may have utility in diagnostic applications. Proteins 2004;00:000–000.

A naturally occurring NAR variable domain binds the Kgp protease from Porphyromonas gingivalis

The new antigen receptor (NAR) from sharks consists of a single immunoglobulin variable domain attached to five constant domains, and is hypothesised to function as an antibody. Two closely related NARs with affinity for the Kgp (lysine‐specific) gingipain protease from Porphyromonas gingivalis were selected by panning an NAR variable domain library. When produced in Escherichia coli, these recombinant NARs were stable, correctly folded, and specifically bound Kgp (K d=1.31±0.26×10−7 M). Binding localised to the Kgp adhesin domains, however without inhibiting adhesin activity. These naturally occurring proteins indicate an immune response to pathogenic bacteria and suggest that the NAR is a true antibody‐like molecule.

Cytotoxic properties of immunoconjugates containing melittin-like peptide 101 against prostate cancer: in vitro and in vivo studies

Background: Monoclonal antibodies (MAbs) can target therapy to tumours while minimising normal tissue exposure. Efficacy of immunoconjugates containing peptide 101, designed around the first 22 amino acids of bee venom, melittin, to maintain the amphipathic helix, to enhance water solubility, and to increase hemolytic activity, was assessed in nude mice bearing subcutaneous human prostate cancer xenografts. Methods: Mouse MAbs, J591 and BLCA-38, which recognise human prostate cancer cells, were cross-linked to peptide 101 using SPDP. Tumour-bearing mice were used to compare biodistributions of radiolabeled immunoconjugates and MAb, or received multiple sequential injections of immunoconjugates. Therapeutic efficacy was assessed by delay in tumour growth and increased mouse survival. Results: Radiolabeled immunoconjugates and antibodies showed similar xenograft tropism. Systemic or intratumoural injection of immunoconjugates inhibited tumour growth in mice relative to carrier alone, unconjugated antibody and nonspecific antibody-peptide conjugates and improved survival for treated mice. Conclusions: Immunoconjugates deliver beneficial effects; further peptide modifications may increase cytotoxicity.

Noncovalent scFv multimers of tumor‐targeting anti‐Lewisy hu3S193 humanized antibody

Single‐chain variable fragments (scFvs) of anti‐Lewisy hu3S193 humanized antibody were constructed by joining the VH and VL domains with either +2 residues, +1 residue, or by directly linking the domains. In addition two constructs were synthesized in which one or two C‐terminal residues of the VH domain were removed (−1 residue, −2 residue) and then joined directly to the VL domain. An scFv construct in the reverse orientation with the VL joined directly to the VH domain was also synthesized. Upon transformation into Escherichia coli all scFv constructs expressed active protein. Binding activity, multimeric status, and multivalent properties were assessed by flow cytometry, size exclusion chromatography, and biosensor analysis. The results for hu3S193 scFvs are consistent with the paradigm that scFvs with a linker of +3 residues or more associate to form a non‐covalent dimer, and those with a shorter linker or directly linked associate predominantly to form a non‐covalent trimer and tetramer that are in equilibrium. While the association of V domains to form either a dimer or trimer/tetramer is governed by the length of the linker, the stability of the trimer/tetramer in the equilibrium mixture is dependent on the affinity of the interaction of the individual V domains to associate to form the larger Fv module.

Biodistributions of intact monoclonal antibodies and fragments of BLCA-38, a new prostate cancer directed antibody

Background: Monoclonal antibodies (MAbs) are used for targeting agents to tumours while minimizing normal tissue exposure. Methods: A new anti–prostate cancer MAb, BLCA-38, was radioiodinated (I125) and assessed for its ability to target subcutaneous human prostate cancer (DU-145) xenografts after systemic intraperitoneal administration. For comparison, the profile of J591 MAb (now in clinical trial) against LNCaP-LN3 tumours was examined. Biodistribution profiles were obtained at various times, by assessing injected dose/gram (%ID/g) and xenograft to blood (X/B) ratios. Microautoradiography of xenografts was performed. After conjugation with a melittin peptide toxin, the profiles of BLCA-38 and J591 were compared with that of an irrelevant antibody, DS-1. Results: Xenograft localization by 125I-labeled BLCA-38 and J591 MAbs to their relevant antigen-positive tumors was comparable, and there was no unusual localization in nontumour tissues. F(ab’)2 and Fab fragments gave improved X/B ratios, but the %ID/g xenograft was decreased and they accumulated in kidneys, bladder and stomach. In contrast, the conjugates of irrelevant antibody showed no tumour targeting. Microautoradiography showed more tumour accumulation of MAbs than F(ab’)2s or Fabs. Conclusions: BLCA-38 can target prostate cancer in vivo almost as effectively as J591. Given that J591 is used clinically, BLCA-38, which targets a different antigen, has potential for radioimmunoscintigraphy and for therapeutic targeting of prostate cancer.

Structural model for the interaction of a designed Ankyrin Repeat Protein with the human epidermal growth factor receptor 2.

Designed Ankyrin Repeat Proteins are a class of novel binding proteins that can be selected and evolved to bind to targets with high affinity and specificity. We are interested in the DARPin H10-2-G3, which has been evolved to bind with very high affinity to the human epidermal growth factor receptor 2 (HER2). HER2 is found to be over-expressed in 30% of breast cancers, and is the target for the FDA-approved therapeutic monoclonal antibodies trastuzumab and pertuzumab and small molecule tyrosine kinase inhibitors. Here, we use computational macromolecular docking, coupled with several interface metrics such as shape complementarity, interaction energy, and electrostatic complementarity, to model the structure of the complex between the DARPin H10-2-G3 and HER2. We analyzed the interface between the two proteins and then validated the structural model by showing that selected HER2 point mutations at the putative interface with H10-2-G3 reduce the affinity of binding up to 100-fold without affecting the binding of trastuzumab. Comparisons made with a subsequently solved X-ray crystal structure of the complex yielded a backbone atom root mean square deviation of 0.84–1.14 Ångstroms. The study presented here demonstrates the capability of the computational techniques of structural bioinformatics in generating useful structural models of protein-protein interactions.

Cancer-targeting Antibody–Drug Conjugates: Site-specific Conjugation of Doxorubicin to Anti-EGFR 528 Fab' through a Polyethylene Glycol Linker

Antibody–drug conjugates have been prepared to examine the effect that attaching small-molecule drugs to an antibody fragment has on antibody activity. The anticancer drug doxorubicin was covalently attached through a polyethylene glycol linker to a cancer-targeting, anti-epidermal growth factor receptor antibody fragment (Fab′). The reactivity of maleimide was compared with a substituted maleimide derivative (citraconimide) in conjugation reactions with cysteine residues on a Fab′. Introduction of polyethylene glycol increased aqueous solubility of the cytotoxic drug, which led to an improvement in overall yield of the conjugation reaction with the antibody fragment. Antibody–drug conjugates prepared retained activity of the parent antibody, as determined by antigen binding experiments measured by surface plasmon resonance.

Fragment Screening for the Modelling Community: SPR, ITC, and Crystallography

The SAMPL (Statistical Assessment of the Modelling of Proteins and Ligands) challenge brought together experimentalists and modellers in an effort to improve our understanding of chemical and biochemical systems so better modelling tools can be developed. The most recent challenge, SAMPL3, held at Stanford University in August 2011, was an attempt to improve the methods used to predict how small fragment compounds bind to proteins, and the protein chosen for this test was bovine trypsin. Surface plasmon resonance was used to screen 500 compounds from a Maybridge fragment library and these compounds were subsequently used to soak crystals of trypsin and the best hits were also characterised by isothermal titration calorimetry. We present methods used for the surface plasmon resonance and the isothermal titration calorimetry experiments, as well as the results for these methods and those compounds that were found in the crystal structures.