Antibody-mediated deposition of complement membrane attack complexes (MACs) on IFN-γ-primed human endothelial cells (ECs) triggers autocrine/paracrine IL-1β-mediated EC activation and IL-15 transpresentation to alloreactive effector memory T cells (TEM ), changes that enable ECs to increase T cell proliferation and cytokine release. Here, we report the use of single-cell microchip 32-plex proteomics to more deeply assess the functionality of the activated T cells and dependence upon EC-derived signals. Compared to control ECs, MAC-activated human ECs increase both the frequency and degree of polyfunctionality among both CD4+ and CD8+ -proliferated TEM , assessed as secreted proteins. IFN-γ and TNF-α remain the predominant cytokines made by alloreactive TEM , but a few CD4+ TEM also made IL-4 while more CD8+ TEM made perforin and granzyme B. Increased polyfunctionality was attenuated by treatment of the MAC-activated ECs with anti-IL-15 blocking antibody more effectively than IL-1 receptor blockade. The increased polyfunctionality of T cells resulting from interactions with MAC-activated ECs may further link binding of donor-specific antibody to T cell-mediated allograft pathologies.
Keywords: T cell biology; alloantibody; basic (laboratory) research/science; complement biology; immunobiology; molecular biology; organ transplantation in general; proteomics; translational research/science; vascular biology.
© 2021 The American Society of Transplantation and the American Society of Transplant Surgeons.