PO.IM01.03 · 免疫学
Viral vector vaccination induces brain resident memory T cells to drive anti-glioblastoma immunity
作者与单位
摘要 Abstract
Glioblastoma is a lethal brain tumor notable for limited spontaneous induction of CD8 + T cell responses. While viral-vector vaccines can drive particularly high magnitudes of tumor-reactive T cells, they have not been investigated for the treatment of glioblastoma. Here, we demonstrate that heterologous prime-boost vaccination with the simian adenovirus ChAdOx1 and poxvirus modified vaccinia Ankara (MVA) treats the orthotopic, syngeneic, checkpoint-inhibitor refractory SB28 murine model of glioblastoma, both in the context of the murine tumor antigen, P1A, and a newly identified tumor-associated antigen expressed by SB28. Adjuvant anti-PD-1 and anti-CTLA-4 did not further improve outcomes. Vaccination induced immunoediting of tumor antigen expression and tumor-specific recruitment of antigen-specific T cells to challenged brains, the majority of which had a CD103 + CD69 + CD8 + tissue resident memory (TRM)-like phenotype. While induction of TRMs by vaccination has been implicated in superior control of other cancers, their role in mediating anti-glioblastoma immunity was unclear. ChAdOx1/MVA-induced brain TRMs displayed superior polyfunctionality compared to circulating and non-TRM brain antigen-specific CD8 + T cells. Long-term surviving mice maintained consistent levels of antigen-specific TRM cells in their brains at days 70 and 175 post-tumor challenge, despite a three-fold decrease in circulating antigen-specific T cells, indicating durable T cell memory in the brain parenchyma. Furthermore, survivors were protected against a second orthotopic, but not subcutaneous, tumor rechallenge, demonstrating tissue-specific immunological memory. Intracranial adoptive transfer of brain-derived antigen-specific TRMs isolated from vaccinated, tumor-bearing mice was sufficient to prolong the survival of naïve mice challenged with tumors, whereas blood-derived antigen-specific non-TRMs and non-antigen-specific brain-derived CD8⁺ T cells were not. Despite peripheral administration of the vaccines, antigen-specific CD8 + T cells were induced not only in the brains of tumor-free animals, but in many tissues, including the liver, lung, skin, skull bone marrow, and meninges, with distinct phenotypes observed in different tissues. Overall, we demonstrate that ChAdOx1/MVA vaccination is a potent strategy to induce TRMs to mediate anti-glioblastoma immunity, establishing a basis for further clinical investigation of ChAdOx1/MVA vaccination to treat patients with glioblastoma.
利益披露 Disclosure
E. E. Steffke, None..
L. Latifi, None..
T. Hana, None..
A. Hara, None..
M. Coombs, None..
J. Spurgeon, None..
C. Huguely, None..
J. Hancock, None..
B. Anderson, None..
J. McAuliffe, None..
V. Pereira-Almeida, None..
A. Wicki, None..
S. Abdel Malak, None..
L. Noblecourt, None..
M. Zhang, None..
W. Zhang, None..
D. Davis, None..
N. Briceno, None..
H. Song, None..
C. Cam-El Makranz, None..
M. Gilbert, None..
C. Leung, None..
B. Van den Eynde, None..
M. Terabe, None.