Central memory CD8+ T lymphocytes mediate lung allograft acceptance
Alexander Sasha Krupnick, … , Andrew E. Gelman, Daniel Kreisel
Alexander Sasha Krupnick, … , Andrew E. Gelman, Daniel Kreisel
Published February 24, 2014
Citation Information: J Clin Invest. 2014;124(3):1130-1143. https://doi.org/10.1172/JCI71359.
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Central memory CD8+ T lymphocytes mediate lung allograft acceptance

Abstract

Memory T lymphocytes are commonly viewed as a major barrier for long-term survival of organ allografts and are thought to accelerate rejection responses due to their rapid infiltration into allografts, low threshold for activation, and ability to produce inflammatory mediators. Because memory T cells are usually associated with rejection, preclinical protocols have been developed to target this population in transplant recipients. Here, using a murine model, we found that costimulatory blockade–mediated lung allograft acceptance depended on the rapid infiltration of the graft by central memory CD8+ T cells (CD44hiCD62LhiCCR7+). Chemokine receptor signaling and alloantigen recognition were required for trafficking of these memory T cells to lung allografts. Intravital 2-photon imaging revealed that CCR7 expression on CD8+ T cells was critical for formation of stable synapses with antigen-presenting cells, resulting in IFN-γ production, which induced NO and downregulated alloimmune responses. Thus, we describe a critical role for CD8+ central memory T cells in lung allograft acceptance and highlight the need for tailored approaches for tolerance induction in the lung.

Authors

Alexander Sasha Krupnick, Xue Lin, Wenjun Li, Ryuiji Higashikubo, Bernd H. Zinselmeyer, Hollyce Hartzler, Kelsey Toth, Jon H. Ritter, Mikhail Y. Berezin, Steven T. Wang, Mark J. Miller, Andrew E. Gelman, Daniel Kreisel

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Figure 1

Cellular mechanisms of lung allograft rejection in the absence of immunosuppression.

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Cellular mechanisms of lung allograft rejection in the absence of immuno...
(A) BALB/c→nude lung grafts remain ventilated and free of inflammation, as demonstrated by gross appearance, histology, and ISHLT A grade. (B) BALB/c→B6 Cd8–/– lung grafts are rejected acutely within a week of transplantation, as evidenced by graft collapse due to loss of ventilation and by severe perivascular infiltration with inflammatory cells. (C) Perivascular infiltration in BALB/c→B6 Cd8–/– lung grafts was composed of CD4+ but not CD8+ cells. (D) Reconstitution of nude mice with B6 CD4+ T cells results in rejection of transplanted BALB/c grafts (P = 0.0039 compared with A by Mantel-Haenszel χ2 test). All gross and histological appearances as well as rejection grades represent grafts at 7 days after transplantation (original magnification, ×200 [histology, H&E staining and immunohistochemical staining]). TXP denotes graft, and arrows point to perivascular infiltrates.