Lynn W A, Liu Y, Golenbock D T
Department of Internal Medicine, Maxwell Finland Laboratory for Infectious Diseases, Boston City Hospital, Boston University School of Medicine, Massachusetts 02118.
Infect Immun. 1993 Oct;61(10):4452-61. doi: 10.1128/iai.61.10.4452-4461.1993.
The stimulation of mononuclear phagocytes by lipopolysaccharide (LPS) is facilitated by the binding of complexes of LPS and LPS-binding protein to CD14. Although it is clear that CD14 is involved in LPS-induced signaling, other investigators have hypothesized the existence of additional signaling pathways in macrophages. We sought to determine whether CD14-independent pathways of monocyte activation might exist. Washed human mononuclear cells responded with reduced sensitivity to LPS in the absence of serum. Anti-CD14 monoclonal antibody (MAb) inhibited the response to LPS in serum-free conditions, but this was easily reversed at higher concentrations of LPS. We established a human monocytic cell line, designated SFM (derived from THP-1), in serum-free medium to examine LPS responses under defined conditions. Differentiation of SFM cells with 1,25-dihydroxycholecalciferol promoted the expression of abundant cell surface CD14. Differentiated SFM cells responded to LPS despite the complete absence of serum proteins for > 20 generations of growth. LPS stimulation of differentiated SFM cells was inhibited by anti-CD14 MAbs only when serum was present. In contrast to anti-CD14 MAb, the LPS antagonists lipid IVa and Rhodobacter sphaeroides lipid A inhibited monocyte activation under serum-free conditions, implying that these compounds compete with LPS at a site distinct from CD14. Undifferentiated SFM cells (expressing minimal CD14) still responded to LPS in serum-free conditions, and anti-CD14 MAb had little inhibitory effect. The addition of purified LPS-binding protein or human serum promoted a CD14-dependent pathway of monocyte activation by LPS in these cells. We conclude that monocytes do not absolutely require serum proteins to be stimulated by LPS and that CD14-independent LPS signaling pathways exist which are inhibitable by lipid IVa and R. sphaeroides lipid A.
脂多糖(LPS)与LPS结合蛋白的复合物与CD14结合,促进了单核吞噬细胞的激活。虽然很明显CD14参与LPS诱导的信号传导,但其他研究人员推测巨噬细胞中存在额外的信号通路。我们试图确定单核细胞激活是否存在不依赖CD14的途径。在无血清条件下,洗涤后的人单核细胞对LPS的反应敏感性降低。抗CD14单克隆抗体(MAb)在无血清条件下抑制对LPS的反应,但在较高浓度的LPS时这种抑制很容易逆转。我们在无血清培养基中建立了一种人单核细胞系,命名为SFM(源自THP-1),以在特定条件下检测LPS反应。用1,25-二羟基胆钙化醇分化SFM细胞可促进丰富的细胞表面CD14表达。尽管在超过20代的生长过程中完全没有血清蛋白,分化的SFM细胞仍对LPS有反应。仅当存在血清时,抗CD14 MAb才会抑制分化的SFM细胞对LPS的刺激。与抗CD14 MAb不同,LPS拮抗剂脂质IVa和球形红杆菌脂质A在无血清条件下抑制单核细胞激活,这意味着这些化合物在与CD14不同的位点与LPS竞争。未分化的SFM细胞(表达极少的CD14)在无血清条件下仍对LPS有反应,抗CD14 MAb的抑制作用很小。在这些细胞中,添加纯化的LPS结合蛋白或人血清可促进LPS通过依赖CD14的途径激活单核细胞。我们得出结论,单核细胞被LPS刺激并不绝对需要血清蛋白,并且存在不依赖CD14的LPS信号通路,脂质IVa和球形红杆菌脂质A可抑制这些通路。
