V region carbohydrate and antibody expression.

N-Linked carbohydrates are frequently found in the V region of Ig H chains and can have a positive or negative effect on Ag binding affinity. We have studied a murine anti-alpha(1-->6) dextran V(H) that contains a carbohydrate in complementarity-determining region 2 (CDR2). This carbohydrate remains high mannose rather than being processed to a complex form, as would be expected for glycans on exposed protein loops. We have shown that the glycan remained high mannose when murine-human chimeric Abs were produced in a variety of cell types. Also, when another carbohydrate was present in CDR1, CDR2, or CDR3 of the L chain, the V(H) CDR2 glycan remained high mannose. Importantly, we found that when the anti-dextran V(H) CDR2 replaced CDR2 of an anti-dansyl V(H), the glycosylation site was used, but H chains were withheld in the endoplasmic reticulum and did not traffic to the Golgi apparatus. These results suggest that inappropriate V region glycosylation could contribute to ineffective Ab production from expressed Ig genes. In some cases, a carbohydrate addition sequence generated by either V region rearrangement or somatic hypermutation may result in an Ab that cannot be properly folded and secreted.

Cleavage of the human immunoglobulin A1 (IgA1) hinge region by IgA1 proteases requires structures in the Fc region of IgA.

Secretory immunoglobulin A (IgA) protects the mucosal surfaces against inhaled and ingested pathogens. Many pathogenic bacteria produce IgA1 proteases that cleave in the hinge of IgA1, thus separating the Fab region from the Fc region and making IgA ineffective. Here, we show that Haemophilus influenzae type 1 and Neisseria gonorrhoeae type 2 IgA1 proteases cleave the IgA1 hinge in the context of the constant region of IgA1 or IgA2m(1) but not in the context of IgG2. Both C(alpha)2 and C(alpha)3 but not C(alpha)1 are required for the cleavage of the IgA1 hinge by H. influenzae and N. gonorrhoeae proteases. While there was no difference in the cleavage kinetics between wild-type IgA1 and IgA1 containing only the first GalNAc residue of the O-linked glycans, the absence of N-linked glycans in the Fc increased the ability of the N. gonorrhoeae protease to cleave the IgA1 hinge. Taken together, these results suggest that, in addition to the IgA1 hinge, structures in the Fc region of IgA are required for the recognition and cleavage of IgA1 by the H. influenzae and N. gonorrhoeae proteases.

The role of constant region carbohydrate in the assembly and secretion of human IgD and IgA1.

Immunoglobulins are glycoproteins, containing N- linked carbohydrates in the heavy chain constant regions of all isotypes and O-linked carbohydrates in the hinge regions of human IgA1 and IgD. A previous study showed that IgD synthesized in the presence of tunicamycin and lacking the three N-linked glycans on the heavy chain was not secreted (Shin, S. U., Wei, D. F., Amin, A. R., Thorbecke, G. J., and Morrison, S. L. (1992) Hum. Antibodies 3, 65-74). The contribution of each of the carbohydrates in the Fc of IgD to assembly and secretion was now analyzed by eliminating the carbohydrate addition sequence, Asn-X-Ser/Thr, through site-directed mutagenesis. Only the carbohydrate nearest the sole disulfide bond between heavy chains, which remained high mannose and appeared to be buried within the folded molecule, was found to be essential for secretion. When IgD lacked that glycan, assembly reached only the heavy/light chain half-molecule stage, and heavy chains were held inside the endoplasmic reticulum. Using benzyl 2-acetamido-2-deoxy-alpha-d-galactopyranoside (BADG) to inhibit complete O-linked glycosylation, we found that IgA1 and IgD with incomplete hinge carbohydrates were assembled and secreted from cells. Thus, one N-linked glycan plays a structural role in IgD and is required for proper assembly and secretion, but the O-linked carbohydrates in the hinge of IgD and IgA1 are not required for folding and export.