James F. Sampson, Ross B. Fulton, Vinodh B. Kurella, Jennifer M. Richards, Adam J. Camblin, Christina S. Wong, Alexander. Koshkaryev, James E. Lulo, James A. Qiu, Sandeep Kumar, Lia Luus, Yang Jiao, James Suchy, Stephanie Grabow, Violette Paragas, Maja Razlog, Lihui Xi, Marco Muda, Daryl C. Drummond, Eric M. Tam, Andreas Raue
- TNFR2, an emerging therapeutic target in immuno-oncology, is upregulated upon T cell activation and is expressed by tumor-infiltrating effector and regulatory T (Treg) cells. We generated a novel monoclonal antibody, Y9, specific to murine TNFR2 and investigated its mechanism of action. In vitro, Y9 stimulation of purified T cells increased proliferation and effector function, indicating that Y9 acts as an agonist and can provide co-stimulation.
In vivo, Y9 treatment of mice with established tumors resulted in complete tumor clearance across a variety of models. The activity of Y9 on immune cells was confirmed by its decreased activity in mice depleted of NK or CD8+ T cells. Unlike the proposed Treg depletion mechanism of other therapeutic antibodies, depletion of Treg cells is not the primary mechanism of action of Y9 treatment. Instead, decreased TNFR2 and other co-inhibitory receptor surface expression was observed following treatment. Y9 activity depended on FcγR binding, whichTNFR2, an emerging therapeutic target in immuno-oncology, is upregulated upon T cell activation and is expressed by tumor-infiltrating effector and regulatory T (Treg) cells. We generated a novel monoclonal antibody, Y9, specific to murine TNFR2 and investigated its mechanism of action. In vitro, Y9 stimulation of purified T cells increased proliferation and effector function, indicating that Y9 acts as an agonist and can provide co-stimulation.
In vivo, Y9 treatment of mice with established tumors resulted in complete tumor clearance across a variety of models. The activity of Y9 on immune cells was confirmed by its decreased activity in mice depleted of NK or CD8+ T cells. Unlike the proposed Treg depletion mechanism of other therapeutic antibodies, depletion of Treg cells is not the primary mechanism of action of Y9 treatment. Instead, decreased TNFR2 and other co-inhibitory receptor surface expression was observed following treatment. Y9 activity depended on FcγR binding, which facilitated enhanced agonist activity.
Based on this evidence, we developed MM-401, a human antibody targeting TNFR2. MM-401 has agonistic activity; upon incubation of MM-401 with human CD4+ and CD8+ T cells, we observed upregulation of activation markers and cytokine production comparable to MEDI6469 (anti-OX40). We also observed that MM-401 promotes antibody-dependent cellular cytotoxicity (ADCC) in an NK cell-mediated in vitro assay and a reduction in the number of Treg cells in human ovarian cancer ascites. These data suggest that MM-401 could also promote anti-tumor immunity by mediating ADCC, as well as by direct co-stimulation of T cell responses, and justifies the continued development of MM-401 as a novel cancer immunotherapy.…
