Abstract

The heavy chain (HC) of the neonatal Fc receptor (FcRn) for IgG is non-convalently associated with beta(2)-microglobulin (beta(2)m). In beta(2)m(-/-) mice, FcRn functions are greatly impaired. We sought to determine how FcRn HC, particularly its structure and biogenesis, is affected by the absence of beta(2)m. Human FcRn HC, expressed from the beta(2)m-null cell line FO-1(FcRn), was present as a monomeric 45-kDa protein under reducing conditions but primarily as a 92-kDa oligomeric protein under non-reducing conditions. Two-dimensional electrophoresis and MS analysis showed that the 92-kDa protein was a dimer of the 45-kDa HC. Immunostaining showed that FcRn HC in FO-1(FcRn) was co-localized with the endoplasmic reticulum (ER) protein Bip/GRP78 but not with an endosome protein, EEA1. In contrast, FcRn HC in FO-1(FcRn+beta2m) was detected in both the ER and endosome. The dimeric HC in FcRn oligomers was free of beta(2)m association in FO-1(FcRn+beta2m). Mutation of non-paired cysteine residues at positions 48 and 251 within the human FcRn cDNA failed to eliminate the oligomers. The FcRn HC oligomers could be reduced by reconstitution of FO-1(FcRn) with beta(2)m or by balanced expression of FcRn HC with beta(2)m, or beta(2)m fused with a KDEL retention sequence. Similarly, the majority of FcRn HC isolated from neonatal beta(2)m(-/-) mice was in a dimeric form under non-reducing conditions. The amount of FcRn HC was significantly decreased in beta(2)m(-/-) mice and FO-1(FcRn). Furthermore, beta(2)m-free FcRn HC was sensitive to endoglycosidase digestion. These results indicate that FcRn HC alone can form disulphide-bonded oligomers in the ER, which may represent a misfolded protein. The beta(2)m association with FcRn HC is critical for correct folding of FcRn and exiting the ER for routing to endosomes and the cell surface.

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