The structure of the yolk syncytial layer (YSL) of the larvae of two cyprinids, Danio rerio and Cyp rinus carpio koi, has been studied by transmission electron microscopy and by the histological methods. The structure of the YSL of these taxonomically related species of Teleostei is characterized by both similarity and dissimilarity in particular features, related to the overall shape of YSL, functional regionalization, and pro grammed death. Original and published data on the morphofunctional structure of the YSL have been dis cussed for representatives of Teleostei, Myxini, Chondrichthyes, Lepisosteiformes and Cephalopoda.
This work was designed to study the role of surfactant protein D in the regulation of NO synthesis by “non-alveolar” microphages. We evaluated whether the effects of surfactant protein D depend on the phenotype of macrophages. In the absence of surfactant protein D, the LPS-induced iNOS response was shown to decrease in macrophages of native and proinflammatory phenotypes by 30%, and in macrophages of the antiinflammatory phenotype (by 63%). Under the influence of lipopolysaccharide in high doses (500 ng/ml), NO2 production by mouse macrophages without surfactant protein D was reduced in native cells (by 25%), but increased in proinflammatory (by 40%) and antiinflammatory phenotypes (by 12% compared to mouse macrophages with surfactant protein D). Our results suggest that surfactant protein D is involved in the immune response in the whole organism, but not only in the lungs. The effect of surfactant protein D depends on the phenotype of macrophages.
We studied the role of extracellular and intracellular NO in the regulation of the stress response and apoptosis in macrophages of proinflammatory and antiinflammatory phenotypes under the influence of S. aureus and heat shock. Blockade of extracellular nitric oxide synthesis in cells with antiinflammatory phenotype inhibited the stress response induced by S. aureus and heat shock. The decrease in extracellular nitric oxide concentration around antiinflammatory macrophages potentiated the stress response induced by S. aureus, but had no effect on the stress response induced by heat shock. Hence, intracellular NO mediates the stress response induced by S. aureus and heat shock, while extracellular NO inhibits the stress response induced by S. aureus, but has no effect on the stress response induced by heat shock. In cells with antiinflammatory phenotype, intracellular NO plays an antiapoptotic role. S. aureus and heat shock did not cause apoptosis in macrophages with proinflammatory phenotype, while intracellular NO did not play a role in antiapoptotic activity of the proinflammatory phenotype. Extracellular NO synthesized by macrophages protects these cells from apoptosis induced by S. aureus and heat shock.
The stress response and NO production in reprogrammed proinflammatory or antiinflammatory alveolar macrophages were studied after lipopolysaccharide treatment. Experiments with macrophages not containing HSP70 showed that lipopolysaccharide in a dose of 500 ng/ml induced stress response in cells with the proinflammatory phenotype (as distinct from an antiinflammatory phenotype). The stress response was not observed in HSP70-containing lipopolysaccharide-stimulated proinflammatory macrophages, but occurred in cells with antiinflammatory phenotype. Hence, the presence of HSP70 in alveolar macrophages results in the inversion of the phenomenon of reprogramming of the stress response. Independently on the phenotype, stimulation with lipopolysaccharide was accompanied by a 60-70% increase in NO production by macrophages not containing HSP70. However, NO production by HSP70-containing macrophages did not increase in response to lipopolysaccharide treatment. Our results indicate that reprogramming of the cell response in macrophages does not concern the system for NO synthesis. HSP70 prevents the lipopolysaccharide-induced activation of NO synthesis in alveolar macrophages.
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