Development of an Fc-enhanced anti-B7-H3 monoclonal antibody with potent antitumor activity

Purpose: The goal of this research was to harness a monoclonal antibody (mAb) discovery platform to identify cell-surface antigens highly expressed on Cancer and develop, through Fc optimization, potent mAb therapies toward these tumor-specific antigens.

Experimental design: Fifty independent mAbs targeting the cell-surface immunoregulatory B7-H3 protein were obtained through independent intact cell-based immunizations using human tissue progenitor cells, Cancer cell lines, or cell lines displaying Cancer stem cell properties. Binding studies revealed this natively reactive B7-H3 mAb panel to bind a range of independent B7-H3 epitopes. Immunohistochemical analyses showed that a subset displayed strong reactivity to a broad range of human cancers while exhibiting limited binding to normal human tissues. A B7-H3 mAb displaying exquisite tumor/normal differential binding was selected for humanization and incorporation of an Fc domain modified to enhance effector-mediated antitumor function via increased affinity for the activating receptor CD16A and decreased binding to the inhibitory receptor CD32B.

Results: MGA271, the resulting engineered anti-B7-H3 mAb, mediates potent antibody-dependent cellular cytotoxicity against a broad range of tumor cell types. Furthermore, in human CD16A-bearing transgenic mice, MGA271 exhibited potent antitumor activity in B7-H3-expressing xenograft models of renal cell and bladder carcinoma. Toxicology studies carried out in cynomolgus monkeys revealed no significant test article-related safety findings.

Conclusions: This data supports evaluation of MGA271 clinical utility in B7-H3-expressing Cancer, while validating a combination of a nontarget biased approach of intact cell immunizations and immunohistochemistry to identify novel Cancer antigens with Fc-based mAb engineering to enable potent antitumor activity.