T cell developmental arrest in former premature infants increases risk of respiratory morbidity later in infancy
Kristin M. Scheible, … , Thomas J. Mariani, Gloria S. Pryhuber
Kristin M. Scheible, … , Thomas J. Mariani, Gloria S. Pryhuber
Published February 22, 2018
Citation Information: JCI Insight. 2018;3(4):e96724. https://doi.org/10.1172/jci.insight.96724.
View: Text | PDF
Research Article Development Immunology

T cell developmental arrest in former premature infants increases risk of respiratory morbidity later in infancy

Abstract

The inverse relationship between gestational age at birth and postviral respiratory morbidity suggests that infants born preterm (PT) may miss a critical developmental window of T cell maturation. Despite a continued increase in younger PT survivors with respiratory complications, we have limited understanding of normal human fetal T cell maturation, how ex utero development in premature infants may interrupt normal T cell development, and whether T cell development has an effect on infant outcomes. In our longitudinal cohort of 157 infants born between 23 and 42 weeks of gestation, we identified differences in T cells present at birth that were dependent on gestational age and differences in postnatal T cell development that predicted respiratory outcome at 1 year of age. We show that naive CD4+ T cells shift from a CD31–TNF-α+ bias in mid gestation to a CD31+IL-8+ predominance by term gestation. Former PT infants discharged with CD31+IL8+CD4+ T cells below a range similar to that of full-term born infants were at an over 3.5-fold higher risk for respiratory complications after NICU discharge. This study is the first to our knowledge to identify a pattern of normal functional T cell development in later gestation and to associate abnormal T cell development with health outcomes in infants.

Authors

Kristin M. Scheible, Jason Emo, Nathan Laniewski, Andrea M. Baran, Derick R. Peterson, Jeanne Holden-Wiltse, Sanjukta Bandyopadhyay, Andrew G. Straw, Heidie Huyck, John M. Ashton, Kelly Schooping Tripi, Karan Arul, Elizabeth Werner, Tanya Scalise, Deanna Maffett, Mary Caserta, Rita M. Ryan, Anne Marie Reynolds, Clement L. Ren, David J. Topham, Thomas J. Mariani, Gloria S. Pryhuber

×

Figure 2

CD31+CD4+ T cell expression varies by GA at birth and sex.

Options: View larger image (or click on image) Download as PowerPoint
CD31+CD4+ T cell expression varies by GA at birth and sex. (A) Dot plots...
(A) Dot plots show identification of CD31+ and CD31CD4+ T cells by sequential gating based on FSC-A/SSC-A/FSC-H, live/CD14, CD3+, CD4+/CD8, CD31+/CD31 expression. (B) Total CD4+ cells/ml blood collected, and CD31+/CD31 subsets are shown. (C) Regression lines depict expected relative frequencies and 95% CI of CD31+CD4+ T cells as a function of GA at birth for each of the collected time points and Pearson correlations. (D) Box-and-whisker plots show median ± IQR and minimum/maximum CD31+CD4+ T cells for infants born <29 or ≥29 weeks and (E) males or females for each time point tested (**P < 0.01, ****P < 0.0001, Wilcoxon rank-sum or Wilcoxon matched-pairs signed-rank test). tCGA, term-corrected gestational age.