The Different Colors of mAbs in Solution

The color of a therapeutic monoclonal antibody solution is a critical quality attribute. Consistency of color is typically assessed at time of release and during stability studies against preset criteria for late stage clinical and commercial products. A therapeutic protein solution’s color may be determined by visual inspection or by more quantitative methods as per the different geographical area compendia. The nature and intensity of the color of a therapeutic protein solution is typically determined relative to calibrated standards. This review covers the analytical methodologies used for determining the color of a protein solution and presents an overview of protein variants and impurities known to contribute to colored recombinant therapeutic protein solutions.

Recombinant human hyaluronidase PH20-mediated dermal spreading activity in mice is not altered by steroids, antihistamines, or salicylic acid

Objectives Drug–drug interaction studies for hyaluronidase safety assessments have evaluated only animal-derived enzyme preparations. We therefore set out to evaluate whether high-dose administration of two antihistamines, a potent corticosteroid, steroid hormone, adrenocorticotropic hormone (ACTH), or salicylic acid would alter the dispersive activity of recombinant human hyaluronidase PH20 (rHuPH20). Methods NCr nu/nu mice were pretreated with diphenhydramine, cetirizine, dexamethasone, estrogen, ACTH, salicylic acid, and/or neutral-buffered saline (NBS). An hour following final pretreatment, dosed mice were anesthetized with ketamine/xylazine and placed in an imaging chamber. A 120 mg/mL immunoglobulin G (IgG) solution with 0.3 μg/mL IgGDL755 (labeled IgG) was injected intradermally, with/without 2,000 U/mL rHuPH20. Fluorescent images of labeled IgG dispersion were acquired ≤20 min post injection. Results Dispersion of high-concentration labeled IgG combined with rHuPH20 was greater at all time points vs. antibody alone. At 20 min post injection (last time point), the antibody dispersion area was significantly increased with rHuPH20 vs. without rHuPH20 (p≤0.005). The relative percent increase in antibody dispersion with rHuPH20 ranged from 22.8‒106.6% over the 20-min time course, compared with the corresponding non-rHuPH20 treated groups. The area of labeled IgG dispersion was statistically similar between rHuPH20 groups pretreated with an active compound and their paired NBS pretreated controls. Conclusions The addition of 2,000 U/mL rHuPH20 to a high-concentration antibody solution reproducibly incre-ased local antibody dispersion. Systemic pretreatment with diphenhydramine, cetirizine, dexamethasone, estrogen, ACTH, or salicylic acid did not affect the enzymatic spreading activity of rHuPH20, as measured by intradermal dispersion of labeled IgG in mice.

Old but not obsolete: an enhanced high-speed immunoblot

The immunoblotting technique (also known as western blotting) is an essential tool used in biomedical research to determine the relative size and abundance of specific proteins and protein modifications. However, long incubation times severely limit its throughput. We have devised a system that improves antigen binding by cyclic draining and replenishing (CDR) of the antibody solution in conjunction with an immunoreaction enhancing agent. Biochemical analyses revealed that the CDR method reduced the incubation time of the antibodies, and the presence of a commercial immunoreaction enhancing agent altered the affinity of the antibody, respectively. Combination of the CDR method with the immunoreaction enhancing agent considerably enhanced the output signal and further reduced the incubation time of the antibodies. The resulting high-speed immunoblot can be completed in 20 min without any loss in sensitivity. Further, the antibodies are fully reusable. This method is effective for both chemiluminescence and fluorescence detection. Widespread adoption of this technique could dramatically boost efficiency and productivity across the life sciences.