Tetanus toxoid and CCL3 improve dendritic cell vaccines in mice and glioblastoma patients
Nature, 2015•nature.com
After stimulation, dendritic cells (DCs) mature and migrate to draining lymph nodes to induce
immune responses. As such, autologous DCs generated ex vivo have been pulsed with
tumour antigens and injected back into patients as immunotherapy. While DC vaccines have
shown limited promise in the treatment of patients with advanced cancers,, including
glioblastoma,,, the factors dictating DC vaccine efficacy remain poorly understood. Here we
show that pre-conditioning the vaccine site with a potent recall antigen such as …
immune responses. As such, autologous DCs generated ex vivo have been pulsed with
tumour antigens and injected back into patients as immunotherapy. While DC vaccines have
shown limited promise in the treatment of patients with advanced cancers,, including
glioblastoma,,, the factors dictating DC vaccine efficacy remain poorly understood. Here we
show that pre-conditioning the vaccine site with a potent recall antigen such as …
Abstract
After stimulation, dendritic cells (DCs) mature and migrate to draining lymph nodes to induce immune responses. As such, autologous DCs generated ex vivo have been pulsed with tumour antigens and injected back into patients as immunotherapy. While DC vaccines have shown limited promise in the treatment of patients with advanced cancers,, including glioblastoma,,, the factors dictating DC vaccine efficacy remain poorly understood. Here we show that pre-conditioning the vaccine site with a potent recall antigen such as tetanus/diphtheria (Td) toxoid can significantly improve the lymph node homing and efficacy of tumour-antigen-specific DCs. To assess the effect of vaccine site pre-conditioning in humans, we randomized patients with glioblastoma to pre-conditioning with either mature DCs or Td unilaterally before bilateral vaccination with DCs pulsed with Cytomegalovirus phosphoprotein 65 (pp65) RNA. We and other laboratories have shown that pp65 is expressed in more than 90% of glioblastoma specimens but not in surrounding normal brain,,,, providing an unparalleled opportunity to subvert this viral protein as a tumour-specific target. Patients given Td had enhanced DC migration bilaterally and significantly improved survival. In mice, Td pre-conditioning also enhanced bilateral DC migration and suppressed tumour growth in a manner dependent on the chemokine CCL3. Our clinical studies and corroborating investigations in mice suggest that pre-conditioning with a potent recall antigen may represent a viable strategy to improve anti-tumour immunotherapy.
nature.com
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