Adaptive NK cell reconstitution is associated with better clinical outcomes
Frank Cichocki, Emily Taras, Flavia Chiuppesi, John E. Wagner, Bruce R. Blazar, Claudio Brunstein, Xianghua Luo, Don J. Diamond, Sarah Cooley, Daniel J. Weisdorf, Jeffrey S. Miller
Frank Cichocki, Emily Taras, Flavia Chiuppesi, John E. Wagner, Bruce R. Blazar, Claudio Brunstein, Xianghua Luo, Don J. Diamond, Sarah Cooley, Daniel J. Weisdorf, Jeffrey S. Miller
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Clinical Research and Public Health Immunology Transplantation

Adaptive NK cell reconstitution is associated with better clinical outcomes

Abstract

BACKGROUND. Human cytomegalovirus (CMV) reactivation is a common occurrence early after transplant and is associated with heterogeneous NK cell subset expansion. These adaptive NK cell expansions are highly variable between recipients, with respect to magnitude and relative frequencies of adaptive NK cell subsets. METHODS. To gain insight into the factors that influence adaptive NK cell expansion from a CMV naive graft source, we performed a high-resolution NK cell and CD8+ T cell phenotypic analysis of 215 patients with hematological malignancies that were transplanted with 2 partially HLA matched CMV negative umbilical cord blood units. RESULTS. We found that adaptive NK cells were significantly higher in recipients who received nonmyeloablative conditioning (NMAC) relative to myeloablative conditioning (MAC), and high CMV neutralizing antibody titers correlated with the degree of adaptive NK cell expansion. The frequencies of adaptive NK cell subsets (defined by NKG2C, FcεRγ, EAT-2, and SYK expression) that reconstitute from donor hematopoietic progenitor cells largely matched the frequencies observed in the NK cell compartment of the recipient prior to conditioning, suggesting that host — as well as viral reactivation factors — may determine the phenotypic diversification after transplant. Additionally, multivariable analyses show that higher adaptive NK cell expansion associated with better disease-free survival. CONCLUSIONS. Our findings provide important insights into adaptive NK cell reconstitution after transplant and support a role for adaptive NK cells in promoting better clinical outcomes. FUNDING. The NIH and the National Marrow Donor Program.

Authors

Frank Cichocki, Emily Taras, Flavia Chiuppesi, John E. Wagner, Bruce R. Blazar, Claudio Brunstein, Xianghua Luo, Don J. Diamond, Sarah Cooley, Daniel J. Weisdorf, Jeffrey S. Miller

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Figure 2

High-resolution analysis of CD8+ T cell reconstitution from umbilical cord blood progenitors in HCT recipients.

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High-resolution analysis of CD8+ T cell reconstitution from umbilical co...
Three hundred thirteen peripheral blood samples drawn from pre- or posttransplant HCT recipients in whom CMV was reactivated were analyzed by FACS to determine the percentages of CCR7+CD27+ naive cells, CCR7CD27+ early memory cells, and CCR7CD27 late memory cells within the total CD3+CD4CD8+ T cell population. The numbers below each bar indicate how many individual transplant samples constitute each group. Solid lines with statistics above the NMAC columns in each graph indicate 2-way ANOVA analyses of the MAC versus NMAC groups. The * symbols above individual columns indicate statistically significant differences between average values at those time points compared with matched time points from CMV seronegative HCT recipients calculated using unpaired t tests. The # symbols above individual columns indicate statistically significant differences between average values at those time points compared with matched time points from HCT recipients who were CMV seropositive without viral reactivation calculated using unpaired t tests. *P < 0.05, **P < 0.01, ***P < 0.001, #P < 0.05, ##P < 0.01, ###P < 0.001. Box and whisker plots show means, along with minimum and maximum values.