Persistent Systemic Inflammation in Patients With Severe Burn Injury Is Accompanied by Influx of Immature Neutrophils and Shifts in T Cell Subsets and Cytokine Profiles.

Patrick P G Mulder,Evelien De Jong,Hans J P M Koenen,Bram Van Cranenbroek,Bouke K H L Boekema,Irma Joosten,Matthea M Stoop,Marcel Vlig,Magda M W Ulrich,Paul P M Van Zuijlen,Anouk Pijpe

doi:10.3389/fimmu.2020.621222

Abstract

Severe burn injury causes local and systemic immune responses that can persist up to months, and can lead to systemic inflammatory response syndrome, organ damage and long-term sequalae such as hypertrophic scarring. To prevent these pathological conditions, a better understanding of the underlying mechanisms is essential. In this longitudinal study, we analyzed the temporal peripheral blood immune profile of 20 burn wound patients admitted to the intensive care by flow cytometry and secretome profiling, and compared this to data from 20 healthy subjects. The patient cohort showed signs of systemic inflammation and persistently high levels of pro-inflammatory soluble mediators, such as IL-6, IL-8, MCP-1, MIP-1β, and MIP-3α, were measured. Using both unsupervised and supervised flow cytometry techniques, we observed a continuous release of neutrophils and monocytes into the blood for at least 39 days. Increased numbers of immature neutrophils were present in peripheral blood in the first three weeks after injury (0.1–2.8 × 106/ml after burn vs. 5 × 103/ml in healthy controls). Total lymphocyte numbers did not increase, but numbers of effector T cells as well as regulatory T cells were increased from the second week onward. Within the CD4+ T cell population, elevated numbers of CCR4+CCR6- and CCR4+CCR6+ cells were found. Altogether, these data reveal that severe burn injury induced a persistent innate inflammatory response, including a release of immature neutrophils, and shifts in the T cell composition toward an overall more pro-inflammatory phenotype, thereby continuing systemic inflammation and increasing the risk of secondary complications.

Highlights

Burn injury and its consequences affect patients’ overall health and quality of life because of long-term functional and cosmetic impairment [1]
To examine the immune profile of burn wound patients in more detail, we performed multiparameter phenotyping by flow cytometry of peripheral blood of 20 burn wound patients up to 39 days after burn injury
We found an increase in chemokines monocyte chemoattractant protein (MCP)-1 (CCL2), MIP-1b (CCL4), RANTES (CCL5) and MIP-3a (CCL20), which are known chemoattractants for monocytes, granulocytes and T cells during inflammation [27]

Summary

Introduction

Burn injury and its consequences affect patients’ overall health and quality of life because of long-term functional and cosmetic impairment [1]. Severe burn trauma induces pro-inflammatory immune responses in peripheral blood and affected tissues, regardless of infection [2, 3]. This immune response can persist up to months and can lead to additional health problems, including systemic inflammatory response syndrome (SIRS), hypermetabolic state and damage to surrounding tissues and even distant organs [4,5,6,7]. An overactive immune system can cause tissue damage by proteases and oxygen radicals released by innate immune cells, and by hypercoagulation-induced ischemia [10, 11]. Data on the mechanisms behind the propagation and regulation of burn-induced immune response in humans is still very limited [15]

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