Zymosan Particle-Induced Hemodynamic, Cytokine and Blood Cell Changes in Pigs: An
Innate Immune Stimulation Model with Relevance to Cytokine Storm Syndrome and Severe
COVID-19
National Research, Development and Innovation Office (NKFIH) of Hungary(K134939)
(Open access funding provided by Semmelweis University)
(BO/00304/20/5)
(ÚNKP- 22-5/202206201434KG)
Hemodynamic disturbance, a rise in neutrophil-to-lymphocyte ratio (NLR) and release
of inflammatory cytokines into blood, is a bad prognostic indicator in severe COVID-19
and other diseases involving cytokine storm syndrome (CSS). The purpose of this study
was to explore if zymosan, a known stimulator of the innate immune system, could reproduce
these changes in pigs. Pigs were instrumented for hemodynamic analysis and, after
i.v. administration of zymosan, serial blood samples were taken to measure blood cell
changes, cytokine gene transcription in PBMC and blood levels of inflammatory cytokines,
using qPCR and ELISA. Zymosan bolus (0.1 mg/kg) elicited transient hemodynamic disturbance
within minutes without detectable cytokine or blood cell changes. In contrast, infusion
of 1 mg/kg zymosan triggered maximal pulmonary hypertension with tachycardia, lasting
for 30 min. This was followed by a transient granulopenia and then, up to 6 h, major
granulocytosis, resulting in a 3–4-fold increase in NLR. These changes were paralleled
by massive transcription and/or rise in IL-6, TNF-alpha, CCL-2, CXCL-10, and IL-1RA
in blood. There was significant correlation between lymphopenia and IL-6 gene expression.
We conclude that the presented model may enable mechanistic studies on late-stage
COVID-19 and CSS, as well as streamlined drug testing against these conditions.