Abstract
Polymorphonuclear granulocytes (PMN) are potent producers of free oxygen-derived radicals. Since other granulocyte functions are affected by interleukins, we investigated whether free-radical production can be initiated by a similar mediator. For estimation of free radical production, SOD-inhibitable lucigenin-dependent chemiluminescence and SOD-inhibitable cytochrome C reduction were used. As a source of interleukins, serum-free 24 h culture supernatants of human mononuclear cells (MNC) stimulated with bacterial lipopolysaccharide were prepared. Addition of such supernatants to PMN caused stimulation of sod-inhibitable chemiluminescence and superoxide production. Studies with separated MNC showed that monocytes were the cellular source of the activity. Biochemically, this activity of the supernatants was due to a heat-labile glycoprotein with a MW of approx. 60KDa. This mediator, termed granulocyte chemiluminescence inducer (GCI), appears to be distinct from interleukin 1 (a and j?) and interferon (a and y). In conclusion we describe a novel monokine, granulocyte chemiluminescence inducer (GCI), which initiates granulocyte free radical production. This interaction of monocytes and granulocytes may also in vivo constitute a new and potent pathway leading to stimulation of free oxygen production by granulocytes.
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