The prevention of an anomalous chromatographic behavior and the resulting successful removal of viruses from monoclonal antibody with an asymmetric charge distribution by using a membrane adsorber in highly efficient, anion-exchange chromatography in flow-through mode.

Anion exchange (AEX) chromatography in the flow-through mode is a widely employed purification process for removal of process/product-related impurities and exogenous/endogenous viruses from monoclonal antibodies (mAbs). The pH of the mobile phase for AEX chromatography is typically set at half a unit below the isoelectric point (pI) of each mAb (i.e., pI - 0.5) or lower and, in combination with a low ionic strength, these conditions are usually satisfactory for both the recovery of the mAb and removal of impurities. However, we have recently encountered a tight binding of mAb1 to AEX resins under these standard chromatographic conditions. This anomalous adsorption behavior appears to be an effect of the asymmetric charge distribution on the surface of the mAb1. We found that mAb1 did not bind to the AEX resins if the mobile phase has a much lower pH and higher ionic strength, but those conditions would not allow adequate virus removal. We predicted that the use of membrane adsorbers might provide effective mAb1 purification, since the supporting matrix has a network structure that would be less susceptible to interactions with the asymmetric charge distribution on the protein surface. We tested the Natriflo HD-Q AEX membrane adsorber under standard chromatographic conditions and found that mAb1 flowed through the membrane adsorber, resulting in successful separation from murine leukemia virus. This AEX membrane adsorber is expected to be useful for process development because mAbs can be purified under similar standard chromatographic conditions regardless of their charge distributions.

Imidocarb, a potent anti-protozoan drug, up-regulates interleukin-10 production by murine macrophages.

Interleukin-10 (IL-10), a potent antiinflammatory and immunosuppressive cytokine, plays an important role in the regulation of immune responses. To discover small molecules that stimulate IL-10 production, a cell-based screening assay was performed using a murine macrophage cell line, RAW264.7. Imidocarb, (3,3'-bis-2-imidazolin-2-yl)-carbanilide, which has been used as an anti-protozoan drug for the prevention and treatment of babesiosis in cattle, was thus identified. Imidocarb markedly enhanced LPS-induced IL-10 production not only by RAW264.7 cells but also by murine peritoneal macrophages in a concentration-dependent manner. It also augmented IL-10 production in the presence of zymosan, a yeast cell wall component. In contrast, imidocarb inhibited LPS-induced tumor necrosis factor (TNF)-alpha production by peritoneal macrophages. In mice, intraperitoneal administration of imidocarb significantly increased serum IL-10 levels and lowered TNF-alpha levels. Our results suggest that a novel anti-inflammatory property of imidocarb could lead to new therapeutic approaches in inflammatory conditions.