Abstract 4159: Lower doses of self-amplifying mRNA drive superior neoantigen-specific CD8 T cell responses in cancer patients versus high doses

Autor: Christine D. Palmer, Amy R. Rappaport, Meghan G. Hart, Lauren D. Kraemer, Sonia Kounlavouth, Martina Marrali, Jason R. Jaroslavsky, Charmaine N. Nganje, Annie Shen, Gregory R. Boucher, Melissa A. Kachura, Ciaran D. Scallan, Sue-Jean Hong, Leonid Gitlin, Alexander I. Spira, Chrisann Kyi, Daniel V. Catenacci, Raphael Rousseau, Andrew Ferguson, Karin Jooss
Rok vydání: 2022
Předmět:
Zdroj: Cancer Research. 82:4159-4159
ISSN: 1538-7445
Popis: The immunogenicity and efficacy of RNA-based vaccine platforms has been abundantly shown through their application in prophylactic SARS-CoV2 vaccines. Contrasting to mRNA based vectors, self amplifying mRNA platforms may offer dose-sparing and superior induction of T cell responses, and may also trigger distinct innate immune pathways, which may exert adjuvanting or inhibiting effects on vaccine-induced immunity. Optimal dosing for a novel self-amplifying mRNA (SAM) in a heterologous prime-boost vaccination approach consisting of Chimpanzee Adenovirus (ChAd) prime and SAM boosts was evaluated in two first-in-human phase 1/2 clinical trials assessing personalized neoantigen vaccines in patients with metastatic cancer (NCT03639714, NCT03953235). SAM vaccine dose escalation was performed to assess safety, tolerability, and immunogenicity, including administration of up to 8 SAM doses at 30, 100, or 300µg following a fixed dose of ChAd (1012 vp) over the course of a year. SAM was safe and well tolerated at all 3 dose levels, with no evidence of increasing reactogenicity with sequential doses. However, while immune monitoring via IFNγ ELISpot revealed that the 30µg SAM dose boosted T cell responses induced by the ChAd prime, the 100µg and 300µg SAM doses resulted in maintenance of T cell levels, without a clear T cell boost, suggesting a non-linear and likely bell-shaped dose-response curve to SAM in humans. Follow-up studies in non-human primates (NHPs) using a model antigen revealed dose-dependent increases in serum IFNa levels following administration of increasing SAM doses. Similarly, while multiple inflammatory cytokines were transiently increased following both ChAd and SAM administration in patients, serum IFNa levels were only increased 24h post SAM administration and correlated positively with SAM dose. Increased IFNa levels post SAM dosing suggested activation of mRNA-sensing innate immune pathways that may reduce the amplification of, and/or antigen expression by, the SAM vector and thus blunt T cell boosting at higher SAM doses. In addition, analysis of T cell responses in patients and NHPs showed increased boosting of T cell responses with longer intervals. These data lead to a reduction of the SAM dose to 30µg and adjusting SAM dosing intervals to 8 weeks in the Phase 2 portion of these clinical studies. Multiple patients have been dosed with the adjusted vaccine regimen, and preliminary data suggest robust boosting of ChAd-induced neoantigen-specific T cell responses with the selected SAM dosing regimen and the 30µg dose. We anticipate that this translational approach of adjusting clinical vaccine regimens based on strong translational immune data will increase the potency of our heterologous neoantigen vaccine, and subsequently provide more durable clinical benefit to patients with cancer. Citation Format: Christine D. Palmer, Amy R. Rappaport, Meghan G. Hart, Lauren D. Kraemer, Sonia Kounlavouth, Martina Marrali, Jason R. Jaroslavsky, Charmaine N. Nganje, Annie Shen, Gregory R. Boucher, Melissa A. Kachura, Ciaran D. Scallan, Sue-Jean Hong, Leonid Gitlin, Alexander I. Spira, Chrisann Kyi, Daniel V. Catenacci, Raphael Rousseau, Andrew Ferguson, Karin Jooss. Lower doses of self-amplifying mRNA drive superior neoantigen-specific CD8 T cell responses in cancer patients versus high doses [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 4159.
Databáze: OpenAIRE