Although human IgG heavy chain genes encode a C-terminal lysine, this residue is mostly absent from the endogenous antibodies isolated from serum. Some low but variable level of C-terminal lysine is present on therapeutic antibodies expressed in mammalian cell culture systems. Here, we monitored the C-terminal lysine processing of a recombinant human IgG2 antibody after intravenous injection into human subjects. Peptide mapping of the therapeutic antibody isolated from serum samples by affinity purification was used to quantify the C-terminal lysine levels over time in vivo. The C-terminal lysine residue was found to be rapidly lost in vivo with a half life of about an hour (62 min). In vivo C-terminal lysine processing could be reproduced in vitro, but at a faster rate, by incubating in human serum. Pretreated serum, under conditions used to inactivate carboxypeptidase U, generated in vitro C-terminal lysine processing rates that more closely matched those in vivo. Endogenous IgG, isolated from human blood, contained very low levels of C-terminal lysine (∼0.02%), consistent with the expected circulating half life of antibodies and the calculated C-terminal lysine processing rate. Thus, the low residual IgG2 C-terminal lysine is rapidly processed in vivo and such processing likely occurs on endogenous antibodies in circulation.
2010 Wiley Periodicals, Inc.