Neonatal Pain-Related Stress and NFKBIA Genotype Are Associated with Altered Cortisol Levels in Preterm Boys at School Age

Ruth E Grunau,Aaron F Hirschfeld,Ivan L Cepeda,Mihoko Ladd,Gideon Koren,Rollin Brant,Joanne Weinberg,Cecil M Y Chau,Evan Russell,Susanne Brummelte,Pascal M Lavoie,Stan Van Uum,Stuart E Turvey,Michael Costigan

doi:10.1371/journal.pone.0073926

Ruth E Grunau, Aaron F Hirschfeld + Show 12 more

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https://doi.org/10.1371/journal.pone.0073926

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Abstract

Neonatal pain-related stress is associated with elevated salivary cortisol levels to age 18 months in children born very preterm, compared to full-term, suggesting early programming effects. Importantly, interactions between immune/inflammatory and neuroendocrine systems may underlie programming effects. We examined whether cortisol changes persist to school age, and if common genetic variants in the promoter region of the NFKBIA gene involved in regulation of immune and inflammatory responses, modify the association between early experience and later life stress as indexed by hair cortisol levels, which provide an integrated index of endogenous HPA axis activity. Cortisol was assayed in hair samples from 128 children (83 born preterm ≤32 weeks gestation and 45 born full-term) without major sensory, motor or cognitive impairments at age 7 years. We found that hair cortisol levels were lower in preterm compared to term-born children. Downregulation of the HPA axis in preterm children without major impairment, seen years after neonatal stress terminated, suggests persistent alteration of stress system programming. Importantly, the etiology was gender-specific such that in preterm boys but not girls, specifically those with the minor allele for NFKBIA rs2233409, lower hair cortisol was associated with greater neonatal pain (number of skin-breaking procedures from birth to term), independent of medical confounders. Moreover, the minor allele (CT or TT) of NFKBIA rs2233409 was associated with higher secretion of inflammatory cytokines, supporting the hypothesis that neonatal pain-related stress may act as a proinflammatory stimulus that induces long-term immune cell activation. These findings are the first evidence that a long-term association between early pain-related stress and cortisol may be mediated by a genetic variants that regulate the activity of NF-κB, suggesting possible involvement of stress/inflammatory mechanisms in HPA programming in boys born very preterm.

Highlights

It is well established that the hypothalamic-pituitary-adrenal (HPA) axis or stress system is sensitive to programming by early life events [1,2,3,4,5,6,7,8]
We examined whether cortisol changes persist to school age, and if common genetic variants in the promoter region of the NFKBIA gene involved in regulation of immune and inflammatory responses, modify the association between early experience and later life stress as indexed by hair cortisol levels, which provide an integrated index of endogenous HPA axis activity
The minor allele (CT or TT) of NFKBIA rs2233409 was associated with higher secretion of inflammatory cytokines, supporting the hypothesis that neonatal pain-related stress may act as a proinflammatory stimulus that induces long-term immune cell activation

Summary

Introduction

It is well established that the hypothalamic-pituitary-adrenal (HPA) axis or stress system is sensitive to programming by early life events [1,2,3,4,5,6,7,8]. Dysregulation of immune/inflammatory responses may play a central role in mediating early programming effects [9]. Studies in the field of early programming have focused primarily on heightened stress reactivity later in life, often measured in terms of HPA responses to acute stressors. Infants born very preterm (#32 weeks gestation) are exposed to considerable procedural pain-related stress during weeks to months of life-saving procedures during hospitalization in the neonatal intensive care unit (NICU), that appears to impact the HPA axis long after NICU discharge [8], [10]. Glucocorticoid hormones can regulate expression of immunologically related genes [11], [12], and dysregulation of immune/inflammatory responses may play a central role in mediating early programming effects of the HPA axis [9]. The potential role of stress hormones in mediating immune/inflammatory function and in turn, the role of immune function/inflammation in mediating changes in the HPA axis in children born very preterm have not been addressed to our knowledge

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