Functional analysis of human Fc gamma RII (CD32) isoforms expressed in B lymphocytes.

The low affinity IgG receptor Fc gamma RII (CD32) represents the most widely distributed class of human Fc gamma R. To analyze the biologic functions of different Fc gamma RII isoforms, we stably transfected Fc gamma RIIb1, IIb1*, IIb2, IIa, and a IIa tail- mutant to the mouse IIA1.6 B lymphoma cell line. Of these, Fc gamma RIIb1* represents a receptor variant that is identical to IIb1 except for a single amino acid difference in the cytoplasmic tail (amino acid position 11) where a tyrosine (IIb1) is replaced by an aspartic acid (IIb1*). Evaluation of capping ability showed the Fc gamma RIIb1 molecules to cap effectively, which was even more apparent with IIb1*. None of the Fc gamma RIIa, IIa tail-, or IIb2 isoforms capped significantly. Internalization of Fc gamma R-antibody complexes proved very efficient for both the Fc gamma RIIa and IIb2 isoforms, whereas the IIb1 molecules internalized moderately compared with IIb1*, which internalized less efficiently. Notably, human IgG aggregates were internalized effectively by Fc gamma RIIa and moderately by IIb2. Neither Fc gamma RIIb1 nor IIb1* proved capable of internalizing such IgG aggregates. Cross-linking of the different Fc gamma R molecules showed Fc gamma RIIa capable of triggering increases in [Ca2+]i. Fc gamma R expressed on B cells were able to down-regulate [Ca2+]i on co-cross-linking with slgG. Notably, all three Fc gamma RIIb receptors proved active in this respect, in contrast to Fc gamma RIIa. The cell distribution of these Fc gamma RII isoforms was analyzed in a panel of human B cell lines to complement the IIA1.6 B cell model. Fc gamma RIIa was found expressed both at message and protein levels in all tested human B cell lines. In the pre-B cell lines evaluated, no Fc gamma RIIb molecules were detectable, whereas both Fc gamma RIIb1 and IIb2 molecules were found present in more mature B cell lines. These data support both a complex expression pattern of Fc gamma RII isoforms in B cell lines and functional differences between these B cell molecules.