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Perturbation of the preterm human immune system in early life
Benjamin A. Fensterheim, Michelle L. McKeague, Divij Mathew, Shwetank, Ajinkya Pattekar, Matthew Lee, Zahabia Rangwala, Sean Nasta, Macy C. Kee, Cynthia Clendenin, Zachary Martinez, Caroline Diorio, Allison R. Greenplate, Krithika Lingappan, E. John Wherry
Benjamin A. Fensterheim, Michelle L. McKeague, Divij Mathew, Shwetank, Ajinkya Pattekar, Matthew Lee, Zahabia Rangwala, Sean Nasta, Macy C. Kee, Cynthia Clendenin, Zachary Martinez, Caroline Diorio, Allison R. Greenplate, Krithika Lingappan, E. John Wherry
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Research Article Development Immunology Inflammation

Perturbation of the preterm human immune system in early life

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Abstract

Although inflammatory complications are common in preterm infants, the effects of these conditions on neonatal immune development remain poorly defined. We therefore investigated whether severe bronchopulmonary dysplasia (BPD) and systemic infection, 2 major complications of prematurity, produce distinct immune signatures and change immune composition over time. We performed longitudinal high-dimensional immune profiling of residual whole blood from 38 preterm infants sampled every 2 weeks, along with 10 term infants at birth. Preterm infants with severe BPD showed a progressive increase in Th17-polarized CD4+ T cells, neutrophils, and Th17-related cytokines compared with age-matched infants with moderate BPD. In contrast, some preterm infants with systemic bacterial or viral infections mounted exceptionally robust CD8+, CD4+, and γδ T cell responses, with oligoclonal expansion, terminal differentiation, and coordinated plasma cytokine shifts that persisted well beyond resolution of infection. These findings demonstrate that different preterm comorbidities imprint the neonatal immune system in divergent ways. Thus, comprehensive and longitudinal immune profiling may not only identify connections between clinical inflammatory complications and underlying immune pathways but also reveal potential targets for intervention.

Authors

Benjamin A. Fensterheim, Michelle L. McKeague, Divij Mathew, Shwetank, Ajinkya Pattekar, Matthew Lee, Zahabia Rangwala, Sean Nasta, Macy C. Kee, Cynthia Clendenin, Zachary Martinez, Caroline Diorio, Allison R. Greenplate, Krithika Lingappan, E. John Wherry

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Figure 3

Severe preterm lung disease is associated with a divergent Th17 T cell signature.

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Severe preterm lung disease is associated with a divergent Th17 T cell s...
(A) Schematic depicting the infants analyzed for this figure. One infant in the extreme prematurity subset developed Grade 1 BPD and was not included in further analyses in this figure. HFNC, high flow nasal cannula; NIMV, noninvasive mechanical ventilation; IMV, invasive mechanical ventilation. (B) PCA of all cell populations in postnatal samples from infants with Grade 2 BPD (blue) and Grade 3 BPD (green). Arrows point to a centroid at each sequential month of life. Euclidean distances between the 2 centroids at each month of life. *P < 0.01 via PERMANOVA. (C) Mixed linear regressions of neutrophils, naive CD4+ T cells, CD161+ CD4+ T cells, and Th17 CD4+ T cells. Intercept P value (representing categorical difference at birth) and interaction P value (representing divergence over time) shown for each regression comparing Grade 2 (blue) and Grade 3 (green). (D) PCA of all cytokines in postnatal samples from infants with Grade 2 BPD (blue) and Grade 3 BPD (green). Euclidean distances between the centroids at each month of life. *P < 0.01 via PERMANOVA. (E) Volcano plot demonstrating cytokines that differ between groups. Cytokines increased in Grade 3 BPD are on the right in red, decreased on the left in blue. (F) Mixed linear regressions of IL-17C, IL-17A, and CCL20 with intercept and interaction and P values shown.

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