Coordination of immunoglobulin chain folding and immunoglobulin chain assembly is essential for the formation of functional IgG.

The first constant domain (CH1) of immunoglobulin heavy (H) chains is essential for BiP-mediated retention of unassembled H chains in the endoplasmic reticulum (ER). Here, we demonstrated that both wild-type and a mutant gamma chain lacking the CH1 domain bind BiP when they are reduced in vivo. However, only oxidized mutant H chain dimers are released from BiP interaction, whereas oxidized wild-type gamma chain dimers still bind BiP. In light (L) chain-producing cells, some of the mutant H chains accumulate with L chains in ER-derived vesicles and some are secreted as IgG. Furthermore, only half of the secreted antibodies bind antigen. We found the same with a mutant gamma chain, in which the CH1 domain was replaced by a CH3 domain. Therefore, we propose that BiP interaction with incompletely folded CH1 domains is required to mediate correct assembly of H and L chains.