Synthetic Oligodeoxynucleotides in the Regulation of Leukotriene Synthesis in Human Neutrophils

Abstract

Polymorphonuclear leukocytes (PMNLs, neutrophils) play a central role in the defense against microbial infections. In the immune response to bacterial and fungal infections neutrophils eliminate pathogens through phagocytosis. During phagocytosis neutrophils produce physiologically active compounds called leukotrienes. Neutrophil production of leukoriene B4 is responsible for a second wave of neutrophil recruitment during inflammation. In the activation of neutrophils, not only the bacteria themselves play a role, but also pathogen associated molecular patterns, in particular, bacterial DNA and its fragments. Neutrophil priming with bacterial products makes neutrophils more responsive to activating stimuli. Synthetic CpG‐oligodeoxynucleotides (CpG‐ODNs) mimic microbial DNA and are now widely used to study DNA‐mediated cellular events. In our study we compared the effects of synthetic oligodeoxynucleotides (ODNs) of different structure on leukotriene synthesis in neutrophils during Salmonella bacteria phagocytosis. We treated PMNLs with opsonized S. typhimurium at a ratio of bacteria:PMNLs in the range 20–25:1. Leukotrienes and other 5‐lipoxygenase products were detected after priming neutrophils by 30 min incubation with 1 μM ODN and further stimulation for 15 min with opsonized Salmonella bacteria. The neutrophil exposure to A‐class CpG‐ODN, with phosphodiester inner core, inhibited leukotriene synthesis in neutrophil interaction with bacteria Salmonella typhimurium. Sequences, containing the human telomeric (TTAGGG)n repeats, on the contrary, activated leukotriene synthesis. Effects of A‐class CpG‐ODNs were sensitive to inhibitors of endosomal acidification and probably induced intracellular signaling through binding to toll like receptor TLR9. Synthetic DNA fragments containing stimulating CpG motifs initiate TLR9 signals, which lead to activation of the transcription factor NF‐kB. In our assays NF‐kB inhibitor BAY11‐7082 abolished the effects of A‐class CpG ODNs and increased the effects of telomeric ODNs on leukotriene synthesis. The results of our study revealed that the signal to inhibition of leukotriene synthesis by A‐class CpG‐ODNs and to activation of leukotriene synthesis by telomeric ODNs may be due to interaction of both classes of ODNs with TLR9 on neutrophils.Ethics statement. The authors prepared neutrophils from the blood of healthy volunteers. Blood was collected via venous puncture, as approved by the Ministry of Public Health Service of the Russian Federation. Experimental and the subject consent procedures were approved by the Ethics Committee of the A. N. Belozersky Institute of Physico‐Chemical Biology, Moscow State University. Fully informed consent was obtained, and all investigations were conducted according to the principles laid down in the Declaration of Helsinki.Support or Funding InformationThis study was funded by a grant from the Russian Foundation for Basic Research (17‐04‐01491)