HRG and the copurified IgG function cooperatively to facilitate phagocytosis of necrotic cells via a FcγR-dependent mechanism. Phagocytic assays were performed using the monocytic cell line THP-1 and necrotic Jurkat T cells labeled with PKH26 or CFSE, respectively. THP-1 cells were mixed with necrotic cells at a ratio of 1:10 and incubated at 37°C for 60 minutes before analysis by flow cytometry. (A) Ability of HRGP (100 μg/mL) to enhance the phagocytosis of necrotic cells by THP-1 cells. Representative flow cytometric plots are shown for phagocytic assays performed in the presence or absence of HRGP. Values in each gated area represent percentage of cells in the assay. (B) Effect of temperature (4°C or 37°C) and the cytoskeleton disruptor Cyto-D (25 μM) on the ability of HRGP (100 μg/mL) to mediate the uptake of necrotic cells by THP-1 cells. OVA (100 μg/mL) is included as a negative control protein. (C) Effect of HRGP or HRGPID (100 μg/mL), and IgGHRG (2 μg/mL), a human IgG2κ myeloma (2 μg/mL), or pooled normal human IgG (2 μg/mL) either alone or in the presence of HRGPID (100 μg/mL) on the phagocytosis of necrotic cells by THP-1 cells. (D) Effect of a human IgG1κ myeloma on HRGP (75 μg/mL)–mediated uptake of necrotic cells, with OVA being included as a negative control. Effect of (E) a human FcγRI blocking mAb (mouse F(ab′)2 anti–human FcγRI mAb, clone 10.1) or (F) a human FcγRIIA blocking mAb (mouse F(ab′) anti–human FcγRIIA mAb, clone IV.3) on the ability of HRGP (75 μg/mL) to enhance the phagocytosis of necrotic cells. The level of phagocytosis was determined as the percentage of PKH26-positive THP-1 cells that had ingested CFSE-positive necrotic cells. Data in panels B-F are expressed as fold difference in the level of phagocytosis relative to the necrotic cells only control, with error bars representing SEM (n = 3). NS indicates not significant. *P < .05; **P < .01; ***P < .001.