Aberrant expression of T cell receptors in monocyte/macrophage RAW 264.7 cells: FCγRII/III compensates the need for CD3.

Conventionally T-cell receptors (TCRs) have so far been considered as a T-lymphocyte privilege. However, recent findings also place TCR expression in non-lymphoid cells, namely neutrophils, eosinophils and macrophages. In order to examine the ectopic expression of TCR, this study focused on RAW 264.7 cells, which have been broadly used for their macrophage properties. Immunofluorescence staining detected 70% and 40% of the cells to express TCRαß and TCRγδ respectively, which was also verified by RT-PCR experiments and confocal microscopy analysis. Interestingly, except from the predicted 292 and 288 bp gene products for the α- and γ-chain, additional products at 220 and 550 bp could be detected, respectively. RAW 264.7 cells also expressed the co-stimulatory CD4 and CD8 markers at a percentage of 61% and 14% respectively, which supported the expression of TCRs. However, only low numbers of cells expressed CD3ε and CD3ζ (9% and 7% respectively). Such observations contradicted the existing knowledge, and indicated that TCRs would be supported by other molecules for reaching the membrane and transducing their signal. Such candidate molecules could be the Fcγ receptors (FcγRs). Indeed, the FcγRII/III receptor was found to be expressed in 75% of the cells, which also expressed at a percentage of 25% major histocompatibility complex (MHC) class II molecules. Engagement of the FcγRII/III receptor by a recombinant IgG2aCH2 fragment, except from stimulating the macrophage-dependent properties of the cells, was shown to reduce expression of TCRαß and γδ indicating that FcγRII/III was indeed used by TCRs for their transport to the cell membrane. In order to examine the ability of RAW 264.7 cells to simultaneously display antigen presenting- and T-cell properties, functional experiments as to antigen-specific antibody and IL-2 production were performed. In in vitro immunization assays in the presence of naïve B cells, RAW264.7 failed to promote antibody production. However, RAW 264.7 cells could compete with antigen-stimulated macrophages but not T cells when applied to a system of in vivo antigen-sensitized cells followed by an in vitro immunization protocol. Interestingly, simultaneous addition of antigen and the IgG2aCH2 fragment to RAW 264.7 cells could promote IL-2 production from the cells, indicating that FcγRII/III activation could also support TCR stimulation. Extrapolating these findings to cells of the myeloid origin, the above results dictate novel regulatory mechanisms towards the alteration of the immune response.