Maly F E, Kapp A, Walker C, de Weck A L
Lymphokine Res. 1986 Winter;5(1):21-33.
Neutrophil granulocytes are most active producers of potentially toxic free oxygen radicals. Since other functions of granulocytes can be affected by lymphokines or monokines, we investigated whether granulocyte oxygenation activity can also be influenced by such cellular mediators. Human granulocytes emitted strong chemiluminescence after addition of culture supernatants from human mononuclear cells stimulated with bacterial lipopolysaccharide (LPS). Response of the granulocytes was dose-dependent and was inhibited up to 90% or more by superoxide dismutase. This granulocyte chemiluminescence inducer-activity (GCI-activity) in the LPS-induced supernatants was heat-labile and sensitive to trypsin treatment. Addition of cycloheximide to the cultures inhibited the generation of GCI-activity by 80%. On HPLC gel filtration GCI-activity eluted with two distinct peaks corresponding to molecular weights of 60 +/- 10 KDa and between 1 and 5 KDa. Murine interleukin 1, human recombinant interferon-alpha and -gamma were devoid of GCI-activity. When mononuclear cells were fractionated by plastic adherence or counterflow elutriation, monocytes appeared to be the source of GCI-activity. Therefore, it appears that granulocyte oxygenation activity can be enhanced strongly by a cellular mediator derived from monocytes. This interaction of monocytes and granulocytes may constitute a new and potent pathway of phagocyte-dependent production of highly reactive and potentially toxic oxygen radicals.
中性粒细胞是潜在有毒性的游离氧自由基的最活跃产生者。由于粒细胞的其他功能可受淋巴因子或单核因子影响,我们研究了粒细胞的氧化活性是否也能受此类细胞介质的影响。在添加由细菌脂多糖(LPS)刺激的人单核细胞的培养上清液后,人粒细胞发出强烈的化学发光。粒细胞的反应呈剂量依赖性,并且超氧化物歧化酶可将其抑制达90%或更多。LPS诱导的上清液中的这种粒细胞化学发光诱导活性(GCI活性)对热不稳定且对胰蛋白酶处理敏感。向培养物中添加放线菌酮可使GCI活性的产生抑制80%。在高效液相色谱凝胶过滤中,GCI活性以两个不同的峰洗脱,分别对应于分子量60±10 kDa以及1至5 kDa之间。小鼠白细胞介素1、人重组干扰素-α和-γ均无GCI活性。当通过塑料黏附或逆流淘析对单核细胞进行分级分离时,单核细胞似乎是GCI活性的来源。因此,粒细胞的氧化活性似乎可被源自单核细胞的一种细胞介质强烈增强。单核细胞与粒细胞之间的这种相互作用可能构成了吞噬细胞依赖性产生高反应性且潜在有毒性的氧自由基的一条新的有效途径。
