Abstract
Immunotherapy using mAbs, such as rituximab, is an established means of treating hematological malignancies. Abs can elicit a number of mechanisms to delete target cells, including complement-dependent cytotoxicity, Ab-dependent cellular cytotoxicity, and Ab-dependent cellular phagocytosis. The inherent properties of the target molecule help to define which of these mechanisms are more important for efficacy. However, it is often unclear why mAb binding to different epitopes within the same target elicits different levels of therapeutic activity. To specifically address whether distance from the target cell membrane influences the aforementioned effector mechanisms, a panel of fusion proteins consisting of a CD20 or CD52 epitope attached to various CD137 scaffold molecules was generated. The CD137 scaffold was modified through the removal or addition of cysteine-rich extracellular domains to produce a panel of chimeric molecules that held the target epitope at different distances along the protein. It was shown that complement-dependent cytotoxicity and Ab-dependent cellular cytotoxicity favored a membrane-proximal epitope, whereas Ab-dependent cellular phagocytosis favored an epitope positioned further away. These findings were confirmed using reagents targeting the membrane-proximal or -distal domains of CD137 itself before investigating these properties in vivo, where a clear difference in the splenic clearance of transfected tumor cells was observed. Together, this work demonstrates how altering the position of the Ab epitope is able to change the effector mechanisms engaged and facilitates the selection of mAbs designed to delete target cells through specific effector mechanisms and provide more effective therapeutic agents.
Highlights
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We found that the effector mechanisms engaged by anti-CD20 and anti-CD52 mAbs were dependent on the fusion protein targeted and its distance from the cell surface
(SAP1–3) domains of CD137 (Fig. 1A), we explored their relative efficacy in complement-dependent cytotoxicity (CDC), Ab-dependent cellular phagocytosis (ADCP), and ADCC
Summary
F4/80-allophycocyanin was from Serotec (clone CI:A3-1), and B220-PerCP (clone RA3-6B2), anti-mouse Fc–Fab2–PE (clone Poly4053), CD55-PE (clone RIKO-3), and CD59-PE (clone mCD59.3) were purchased from BioLegend. Each fusion protein consisted of the CD52 leader sequence, Rp3/ Cp11, and CD137 (with domains removed based on the annotations provided with the UniProt reference sequence) These gene constructs were cloned into the pcDNA3.1/- (neo) expression vector (Invitrogen). A total of 1 3 105 cells was labeled with diluting concentrations of Ab for 15 min at room temperature. Target cells were labeled with 5 mM CFSE for 10 min at room temperature before washing in complete media. BMDMs were labeled with anti-F4/80–allophycocyanin for 15 min at room temperature and washed with PBS twice. Following the 1-h coculture, coverslips were washed in PBS before fixation in 2% paraformaldehyde for 15 min at room temperature. A total of 100 mg/ml of rhodamine wheat germ agglutinin was added for 30 min at room temperature before washing in PBS. All statistical analyses were performed using GraphPad Prism (version 7.01)
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