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Glycoengineered CD20 antibody obinutuzumab activates neutrophils and mediates phagocytosis through CD16B more efficiently than rituximab

Blood (2013) 122(20) 3482-3491
DOI: 10.1182/blood-2013-05-504043
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Abstract

Obinutuzumab (GA101) is a glycoengineered type 2 CD20 antibody with enhanced CD16A-binding and natural killer-mediated cytotoxicity. CD16B is highly homologous to CD16A and a major FcγR on human polymorphonuclear neutrophils (PMNs). We show here that glycoengineered obinutuzumab or rituximab bound CD16B with approximately sevenfold higher affinity, compared with nonglycoengineered wild-type parental antibodies. Furthermore, glycoengineered obinutuzumab activated PMNs, either purified or in chronic lymphoblastic leukemia whole blood, more efficiently than wild-type rituximab. Activation resulted in a 50% increase in CD11b expression and 70% down-modulation of CD62L on neutrophils and in release of tumor necrosis factor alpha, IL-6, and IL-8. Activation was not accompanied by generation of reactive oxygen species or antibody-dependent cellular cytotoxicity activity, but led to up to 47% phagocytosis of glycoengineered anti-CD20 opsonized chronic lymphoblastic leukemia targets by purified PMNs. Significant phagocytosis was observed in whole blood, but only in the presence of glycoengineered antibodies, and was followed by up to 50% PMN death. Finally we show, using anti-CD16B and anti-CD32A Fab and F(ab')2 fragments, that both of these receptors are involved in PMN activation, phagocytosis, and cell death induced by glycoengineered antibodies. We conclude that phagocytosis by PMNs is an additional mechanism of action of obinutuzumab mediated through its higher binding affinity for CD16B.

Figures

  • Figure 1. Glycoengineered CD20 antibodies bind to CD16B with higher affinity than their non–glycoengineered wild-type counterparts. (A) The dissociation constants of the glycoengineered (GE; striped bars) and nonglycoengineered wildtype formats (WT, black bars) of obinutuzumab (OBZ) and rituximab (RTX) for purified solubleCD16B-NA2,CD32A-R131, orCD32A-H131proteinsweremeasuredby surface plasmon resonance. (B) The glycoengineered (GE) and nonglycoengineered wildtype (WT) CD20 antibodies were cross-linked with FITC-labeled anti-k light chain F (ab’)2, and binding to purified PMNs from NA1 (grey bars) and NA2 homozygous donors (black bars) was measured by flow cytometry. The results are the mean fluorescence intensity ratios of glycoengineered vs wild-type rituximab (RTX) or obinutuzumab (OBZ), obtained from 4 experiments using at least 3 different donors for each CD16B isoform.
  • Figure 2. Glycoengineered obinutuzumab activates purified PMNs more efficiently than wild-type rituximab. CLL (panels A-C) or BJAB targets (panel D) were opsonized with 1 to 100 mg/mL of nonglycoengineered wild-type rituximab (WT-RTX), glycoengineered obinutuzumab (GE-OBZ), or control TRZ antibodies and incubated with purified PMNs from healthy donors at a 1:3 E:T ratio. PMA was used as a control. CD11b (panel A), CD62L (panel B), or ROS expression (panels C-D) on PMNs was analyzed by flow cytometry after 24 hours, 6 hours, or 1 hour, respectively. The data are the means and standard deviations of 2 to 4 experiments.
  • Figure 3. Glycoengineered obinutuzumab activates PMNs in whole blood more efficiently than wild-type rituximab. Nonglycoengineered wild-type rituximab (WT-RTX) or glycoengineered obinutuzumab (GE-OBZ) at 10 mg/mL (panels A,B,E); 1, 10, or 100 mg/mL (panels D,C,F); or 0.1 mM of PMA were added to whole blood from healthy donors (panels A-C) or from patients with CLL (panels D-F). CD11b (panels A,D), CD62L (panels B,E), and ROS expression by PMNs (panels C,F) were analyzed after 24 hours, 6 hours, and 1 hour, respectively. The data are the means and standard deviations of 2 to 7 independent experiments, as indicated in each panel.
  • Figure 4. Glycoengineered obinutuzumab induces higher levels of TNF-a, IL-6, and IL-8 than wild-type rituximab. CLL whole blood was incubated for 2, 6, or 24 hours in the presence of 10 mg/mL of nonglycoengineered wild-type rituximab (WT-RTX, open squares), glycoengineered obinutuzumab (GE-OBZ, closed squares), control antibody cetuximab (CTRL, open circles), or 0.1 mM of PMA (closed circles). TNF-a (A), IL-6 (B), and IL-8 (C) in plasma were measured by flow cytometry using calibrated beads. The results are the means and standard deviations of 3 independent experiments.
  • Figure 5. Glycoengineered CD20 antibodiesmediate phagocytosis of CLL targets by PMNs. CLL targets were labeled with PKH26 and incubated for 24 hours with either purified PMNs (panels A,B,D) or whole blood from healthy donors (panel C), in the presence or absence of 10 mg/mL of the indicated antibodies. Phagocytosis was measured as the percentage of CD151/PKH261/CD19cells with respect to total CD151 cells. The data are the means and standard deviations of 4 to 6 experiments. In some experiments with purified PMNs, cytospins were prepared to visualize CD15-FITC–labeled PMNs (green) having engulfed PKH261 CLL targets (red). Slides were mounted in medium containing 4,6 diamidino-2-phenylindole to visualize the nuclei (blue) under a fluorescence microscope (original magnification 320). Statistical significance was calculated for antibody treated vs control. In panel D, the statistical significance was calculated for samples treated with HS or heat-inactivated HS with respect to no serum (no HS).
  • Figure 6. CD16B and CD32A mediate PMN activation and phagocytosis. (A) Phagocytosis. CLL targets were labeled with PKH26 and incubated for 24 hours in the presence or absence of 10 mg/mL of glycoengineered rituximab (GE-RTX) and/or 10 mg/mL of blocking anti-CD16 (a16) or anti-CD32 (a32) Fab fragments. Phagocytosis was measured by flow cytometry. The statistical significance of adding anti-CD16 and/or antiCD32 Fab fragments with respect to adding CD20 antibody alone is shown. (B-C) PMN activation. CLL targets were opsonized with 10 mg/mL of glycoengineered rituximab antibody and added to whole blood from healthy donors in the presence or absence of 10 mg/mL of anti-CD16 (a16) or anti-CD32 (a32) F(ab’)2 fragments. CD62L down-modulation on PMNs was measured at 6 hours (panel B), whereas CD11b induction was measured at 24 hours (panel C). The statistical significance of treated vs control (CTRL) samples is shown. All data are the means and standard deviations of 3 independent experiments.
  • Figure 7. Glycoengineered CD20 antibodies induce PMN cell death. CLL cells were labeled with PKH26 and incubated in whole blood from a healthy donor in the presence or absence of 10 mg/mL of nonglycoengineered wild-type (WT) or glycoengineered (GE) CD20 antibodies, control TRZ, or 0.1 mM of PMA (panel A). In some experiments, 10mg/mL of anti-CD16 or anti-CD32 F(ab’)2 fragments were added alone or in combination with each other or with glycoengineered rituximab (panel B). PMN cell death was measured by flow cytometry (7-AAD1/CD151) after 24-hour incubation. The results are the mean and standard deviations of 4 to 8 experiments. In both panels, the statistical significance is analyzed for antibody-treated samples with respect to untreated control.

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Golay, J., Da Roit, F., Bologna, L., Ferrara, C., Leusen, J. H., Rambaldi, A., … Introna, M. (2013). Glycoengineered CD20 antibody obinutuzumab activates neutrophils and mediates phagocytosis through CD16B more efficiently than rituximab. Blood, 122(20), 3482–3491. https://doi.org/10.1182/blood-2013-05-504043

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