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Early CD8 + T and NK cell interactions orchestrate preemptive immunosurveillance to potentiate optimal cytotoxicity that blocks tumor antigen-escape variants

海报缩略图:Early CD8 + T and NK cell interactions orchestrate preemptive immunosurveillance to potentiate optimal cytotoxicity that blocks tumor antigen-escape variants
编号 162 展板 5 时间 4/19 02:00–05:00 区域 Section 8 主讲 Thanigaivelan Kanagasabai, PhD
分会场 Immune Cell Biology and Tumor-Immune Crosstalk
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作者与单位

Thanigaivelan Kanagasabai1, Salvador Gonzalez Ochoa1, Roman V. Uzhachenko1, Maria Teresa P. de Aquino1, Harshana Rajakaruna2, Muna A. Mohammed3, Jane Tonello1, Maria Johnson Irudayam2, Alla V. Ivanova1, Anil Shanker1

1Department of Biochemistry, Cancer Biology, Neuroscience and Pharmacology, Meharry Medical College, Nashville, TN,2The Office for Research and Innovation, Meharry Medical College, Nashville, TN,3Department of Biomedical Sciences, Meharry Medical College, Nashville, TN

摘要 Abstract

Background: Tumor antigen-escape variants pose a major barrier to immunotherapy by disrupting lymphocyte effector pathways and reconfiguring tumor-immune landscapes. A deeper understanding of immune networks during tumor development is required. We assessed whether homeostatic CD8⁺ T cell-NK cell interactions can preemptively block tumor antigen escape. Methods: Adoptive CD8⁺ T cell transfers were performed either before tumor implantation (D -7 , homeostatic pre-priming) or after tumor establishment (D +1 ) in Rag1⁻ / ⁻ and Rag1⁻ / ⁻gammac⁻ / ⁻ mice. Antigen presentation, immune activation, proliferation, cytotoxicity, and memory differentiation were quantified using multiparameter flow cytometry, live bioluminescence imaging, and high-resolution confocal microscopy. Intercellular interactions were modeled through monoculture, co-culture, and a 3D silica nanofiber carpet that recapitulates basement-membrane-like architecture. Phospho-signaling arrays and cellular motion metrics (Speed-Distance Index, deceleration) were employed to assess activation dynamics and coordination. Human ligand-receptor pairs implicated in CD8⁺ T-NK cell crosstalk were identified through in silico analyses. Results and Discussion: Our study shows that pre-tumor (D -7 ) CD8⁺ T cell transfer establishes a preemptive immune surveillance network by orchestrating NK cell activation and effector function. These early T cells enhance NK cytotoxicity (CD25, CD69, CD107a, T-bet, GzmB) and promote CD62L⁺CD44⁺ central-memory CD8⁺ T (T CM ) precursors, providing immediate and long-term protection. Spatial analyses reveal that early T cells reposition NK cells toward tumors, increasing synapse formation and infiltration effects absent in post-tumor (D +1 ) transfers that allow antigen-loss variants despite potent T cell cytotoxicity. Mechanistically, CD8⁺ T-NK interactions via pseudopodial nanotubes enable bidirectional membrane/vesicle exchange and coordinated STAT, Akt, AMPK, and mTOR signaling, enhancing NK metabolic fitness, mitochondrial potential, and T CM differentiation. In silico analyses identify conserved human adhesion and co-signaling networks (CD200-CD200R, PD-L1-PD-1, CD18/CD11a-DNAM-1, TIGIT-PVR, NTB-A/SLAM) regulating adhesion, activation thresholds, and cooperative effector functions, with translational relevance. Precise molecular signaling remains under investigation. Conclusion: Early CD8⁺ T-NK crosstalk establishes preemptive immunosurveillance by integrating metabolic, cytokine, and adhesion signals to potentiate optimal cytotoxicity blocking tumor antigen escape. This axis represents a targetable checkpoint and a framework for next-generation preventive immunotherapies against antigen-loss tumors.
利益披露 Disclosure
T. Kanagasabai, None.. S. Gonzalez Ochoa, None.. R. V. Uzhachenko, None.. M. P. de Aquino, None.. H. Rajakaruna, None.. M. A. Mohammed, None.. J. Tonello, None.. M. Irudayam, None.. A. V. Ivanova, None.. A. Shanker, None.

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