BackgroundExtracellular adenosine triphosphate (eATP) is a ‘danger signal’ used to sense cellular damage, and recognized by purinergic receptors in mammals. Among those receptors, P2RX7 is preferentially expressed in immune cells. Notably, we recently discovered that P2RX7 is crucial for the generation and maintenance of long-lived tissue-resident and circulating memory CD8+ T cells.1 2 CD8+ T cell function is fundamental for tumor control, and therapies to harness protective CD8+ T cells that overcome exhaustion are currently in the limelight of anticancer strategies. Given our previous data, and the fact that eATP is abundantly present inside the melanoma microenvironment, we tested whether (a) P2RX7 is required for activated CD8+ T cells to infiltrate and control melanoma upon adoptive cell therapy, and (b) P2RX7 agonism can boost the anticancer capacity of CD8+ T cells.Methods(a) We in vitro-activated WT or P2rx7-/- CD8+ T cells (transgenic for the LCMV epitope gp33-P14 or for the ovalbumin SIINFEKL peptide-OTI) with anti-CD3/CD28/IL-2, ± IL-12, for 72h. Cells were adoptively transferred (single transfer of WT or P2rx7-/- cells) into mice with 7 days after subcutaneous transfer of B16 melanoma encoding gp33 or SIINFEKL. We tracked tumor growth until 60 days or at the appropriate endpoint. In some experiments, we sacrificed recipient mice 7 days after adoptive T cell transfer for immune cell phenotyping. Some parameters (cytokine production, mitochondrial respiration via Seahorse) were measured in in vitro-activated cells. (b) WT and P2rx7-/- cells were activated with anti-CD3/anti-CD28/IL-2, ± Bz-ATP, a P2RX7 agonist. Tumor growth was tracked over time until 60 days or at the appropriate endpoint.ResultsWT and P2RX7-deficient (P2rx7-/-) CD8+ T cells in the absence of IL-12 do not differ in tumor infiltration and/or control. However, P2rx7-/- CD8+ T cells activated in response to IL-12 tertiary stimulus do not control B16 melanomas as well as their WT counterparts. Phenotypically, IL-12-P2rx7-/- CD8+ T cells do not profoundly differ from IL-12-WT CD8+ T cells, except for diminished mitochondrial respiration levels in vitro, and diminished mitochondrial membrane potential (e.g. mitochondrial health) among tumor-infiltrating cells. Strikingly, Bz-ATP treatment increased the mitochondrial activity of WT CD8+ T cells in vitro and in vivo and led to increased B16 infiltration and control, in a P2RX7-dependent manner.ConclusionsWe are currently studying the mechanisms behind the ability of P2RX7 agonists to increase the antitumor function of CD8+ T cells; these are promising results that can lead to a new alternative in immune cell therapies against melanoma.AcknowledgementsWe would like to thank Jane Ding and Lily Qian for technical assistance, and Kristin Hogquist for scientific input.Ethics ApprovalThis study was approved by the IACUC board at the University of Minnesota (IACUC number A3456-01)ReferencesBorges da Silva H, Beura LK, Wang H, Hanse EA, Gore R, Scott MC, Walsh DA, Block KE, Fonseca R, Yan Y, Hippen KL, Blazar BR, Masopust D, Kelekar A, Vulchanova L, Hogquist KA, Jameson SC. The purinergic receptor P2RX7 directs metabolic fitness of long-lived memory CD8+ T cells. Nature. 2018; 559(7713):264–268.Borges da Silva H, Peng C, Wang H, Wanhainen KM, Ma C, Lopez S, Khoruts A, Zhang N, Jameson SC. Extracellular ATP sensing via P2RX7 promotes CD8+ tissue-resident memory T cells by enhancing TGF-β sensitivity. Immunity 2020;53(1):158–171.
Resident memory CD8 T cells persist for years in human small intestine