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Exchange of plasma membrane fragments, including cell-surface proteins and lipids, in conjugates formed between lymphocytes and their cellular partners is a field of intense investigation. Apart from its natural occurrence during Ag recognition, the process of membrane transfer can be triggered in experimental or therapeutic settings when lymphocytes targeted by Abs are conjugated to FcgammaR-expressing accessory cells. The direction of membrane capture (i.e., which of the two cells is going to donate or accept plasma membrane fragments) can have important functional consequences, such as insensitivity of tumor cells to treatment by therapeutic mAbs. This effect, called antigenic modulation or shaving, occurs as a result of a process in which the FcgammaR-expressing cells remove the mAb and its target protein from the tumor cells. We therefore analyzed this process in conjugates formed between various FcgammaR-expressing cells and a series of normal or tumor T and B cells opsonized with different Abs capable of triggering membrane exchange (including the therapeutic Ab rituximab). Our results show that the direction of membrane capture is dictated by the identity of the FcgammaR-expressing cell, much more so than the type of lymphocyte or the Ab used. We found that monocytes and macrophages are prone to be involved in bidirectional trogocytosis with opsonized target cells, a process they can perform in parallel to phagocytosis. Our observations open new perspectives to understand the mechanisms involved in trogocytosis and may contribute to optimization of Ab-based immunotherapeutic approaches.

The Direction of Plasma Membrane Exchange between Lymphocytes and Accessory Cells by Trogocytosis Is Influenced by the Nature of the Accessory Cell