Decreased solubility and increased adsorptivity of a biotinylated humanized anti-cocaine mAb.

Biotinylation of proteins, including antibodies, is a very useful and important modification for a variety of biochemical characterizations, including anti-drug antibody (ADA) assays used to detect antibodies raised against therapeutic antibodies. We assessed different degrees of biotin labeling of an anti-cocaine mAb currently under development for treating cocaine use disorder. We noted that higher levels of biotin labeling dramatically decreased mAb solubility, and increased the tendency to bind to surfaces, complicating characterization of the biotinylated antibody.

Novel partial reduction of the humanized anti-cocaine mAb h2E2 for selective cysteine labeling.

Monoclonal antibodies are utilized for treating many diseases and disorders, as well as for basic research and development. Covalent labeling of mAbs is important for various antibody applications and creating antibody drug conjugates. Labeling at reactive lysine residues using lysine selective reagents is useful, but is non-selective and can interfere with antigen binding and interactions of the Fc antibody region.

Characterization and optimization of fluorescein isothiocyanate labeling of humanized h2E2 anti-cocaine mAb.

Fluorescein isothiocyanate (FITC) is widely used to fluorescently label reactive lysine residues on proteins, including antibodies. The rate and extent of labeling varies with reaction conditions, concentration of label, and the concentration and nature of the protein. Fluorescently labeled proteins are very useful, and one use for FITC labeled mAbs is development of assays to measure anti-mAb antibodies produced during treatment with antibody therapeutics.

Reformulation and Thermal Stability of a Therapeutic Anti-Cocaine mAb.

We concentrated and reformulated the anti-cocaine mAb, h2E2, to reduce the amount of sucrose and histidine buffer infused with the mAb, to satisfy FDA maximum exposure levels for those components for use in clinical trials. After concentration of the original 20 mg/ml mAb, 4 reformulation buffers were evaluated for suitability. The concentration of histidine was reduced from 10 mM to 3 or 0 mM, and the concentration of sucrose reduced from 10% to 2, 4, or 6%.

Isothermal titration calorimetry determination of thermodynamics of binding of cocaine and its metabolites to humanized h2E2 anti-cocaine mAb.

We analyzed the thermodynamics of binding of cocaine and several cocaine metabolites to a humanized anti-cocaine mAb (h2E2), which is under development for the treatment of cocaine use disorders, using isothermal titration calorimetry. The calculated equilibrium dissociation (binding) constants were consistent with previous findings using other methods. All three ligands that display high affinity (nM) binding to the mAb (cocaine, cocaethylene, and benzoylecgonine) displayed similar enthalpically driven binding with substantial enthalpy-entropy compensation.