Chromatin released from dead host cells during in vitro production of IgG monoclonal antibodies exists mostly in complex hetero-aggregates consisting of nucleosomal arrays (DNA+histone proteins), non-histone proteins, and aberrant forms of IgG. They bind immobilized protein A more aggressively than IgG, through their nucleosomal histone components, and hinder access of IgG to Fc-specific binding sites, thereby reducing dynamic binding capacity. The majority of host cell contaminants in eluted IgG are leachates from chromatin hetero-aggregates that remain bound to protein A. Formation of turbidity in eluted IgG during pH titration is caused by neutral-pH insolubility of chromatin hetero-aggregates. NaOH is required at 500 mM to remove accumulated chromatin. A chromatin-directed clarification method removed 99% of histones, 90% of non-histone proteins, achieved a 6 log reduction of DNA, 4 log reduction of lipid-enveloped virus, and 5 log reduction of non-enveloped retrovirus, while conserving 98% of the native IgG. This suspended most of performance compromises imposed on protein A. IgG binding capacity increased ~20%. Host protein contamination was reduced about 100-fold compared to protein A loaded with harvest clarified by centrifugation and microfiltration. Aggregates were reduced to less than 0.05%. Turbidity of eluted IgG upon pH neutralization was nearly eliminated. Column cleaning was facilitated by minimizing the accumulation of chromatin.
Keywords: Aggregates; Capacity; Chromatin; IgG purification; Protein A; Turbidity.
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