Using the methodology of “click” chemistry, a singular method has been developed for the synthesis of unique conjugates based on sesquiterpene lactones: dehydrocostuslactone and alantolactone with polyalkoxybenzenes. To expand the structural range of the resulting conjugates, the length of the 1,2,3-triazole spacer was varied. For all synthesized compounds, the cytotoxic profile was determined on the cell lines of tumor origin (SH-SY5Y, HeLa, Hep-2, A549) and normal Hek 293 cells. It was found that the compounds based on alantolactone 7a–d with a long spacer and substances containing dehydrocostuslactone 10a–d with a short spacer have the greatest toxic effect. The decrease in cell survival under the action of these conjugates may be due to their ability to cause dissipation of the transmembrane potential of mitochondria and inhibit the process of glycolysis, leading to cell death. The obtained results confirm the assumption that the development of conjugates based on sesquiterpene lactones and polyalkoxybenzenes can be considered as a promising strategy for the search for potential antitumor agents.
Neutrophil dysfunction plays a considerable role.in systemic lupus erythematosus (SLE) The protective function of neutrophils is carried out through various mechanisms: isolation of granular antimicrobial peptides (gAMP), microbial phagocytosis with subsequent degradation via reactive oxygen species inside the phagolysosomes; as well as bactericidal action due to the release of networks from chromatin and gAMP, also called neutrophil extracellular traps (NECTs). The development of neutropenia in SLE has multiple causes, including the formation of antibodies directly to leukocytes; that of neutralizing autoantibodies to the growth factors of neutrophils and cells - myeloid precursors; bone marrow suppression; involvement of neutrophils in the processes of apoptosis and NETosis. Neutrophils in SLE are characterized by reduced phagocytic ability and pathological oxidative activity. In SLE, there is a decrease in the ability to remove the products of neutrophil apoptosis, which is correlated with disease activity. SLE patients are noted to have a higher expression level of the genes specific for low-density granulocytes, an abnormal immature neutrophil population. The impaired processes of formation of NECTs and removal NETosis products play a substantial role in the pathogenesis of SLE. It is shown that the abnormal formation of NECTs also causes endothelial injury and increases the risk of thromboses. The design of novel drugs that act on the specific parts of the formation of NECTs or contribute to their removal from the extracellular environment can propel therapy for SLE and other autoimmune diseases to new heights. There is evidence for further investigations of neutrophil-mediated pathogenetic processes in SLE in order to identify potential therapeutic targets and to understand the mechanisms of action of drugs used in clinical practice.
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