McGhee J R, Farrar J J, Michalek S M, Mergenhagen S E, Rosenstreich D L
J Exp Med. 1979 Apr 1;149(4):793-807. doi: 10.1084/jem.149.4.793.
By employing primary cultures of purified spleen cells from lipopolysaccharide (LPS) responder (C3H/HeN or C57BL/10Sn) or nonresponder (C3H/HeJ or C57BL/10ScN) mice incubated with particulate antigen and LPS prepared by phenol-water extraction (Ph), we have presented evidence that both T cells and macrophages (MO) are required for LPS-induced adjuvanticity. First, MO derived from C3H/HeN spleen cells, when mixed with responder, C3H/HeN lymphocytes and Ph-LPS, elicited enhanced antibody responses to sheep erythrocytes (SRC) antigen, whereas lymphocytes from the nonresponder, C3H/HeJ mouse strain did not evoke this response. Similarly, purified T cells from C3H/HeN spleens, when cultured with responder, nu/nu spleen cells, and Ph-LPS yielded enhanced anti-TNP PFC responses; whereas, C3H/HeJ T cells did not potentiate immune responses when mixed with optimal concentrations of Ph-LPS. LPS prepared by butanol-water extraction elicited significant adjuvant effects with all cell combinations. Finally, purified responder T cells and MO enabled either responder or nonresponder B cells to elicit LPS potentiation. These data indicate that T cells and MO are controlling LPS-induced augmentation of B-cell responses.
通过使用来自脂多糖(LPS)应答者(C3H/HeN或C57BL/10Sn)或无应答者(C3H/HeJ或C57BL/10ScN)小鼠的纯化脾细胞原代培养物,将其与通过酚水提取(Ph)制备的颗粒抗原和LPS一起孵育,我们已经证明LPS诱导的佐剂活性需要T细胞和巨噬细胞(MO)两者。首先,源自C3H/HeN脾细胞的MO,当与应答者C3H/HeN淋巴细胞和Ph-LPS混合时,引发对绵羊红细胞(SRC)抗原的增强抗体反应,而来自无应答者C3H/HeJ小鼠品系的淋巴细胞则不会引发这种反应。同样,来自C3H/HeN脾脏的纯化T细胞,当与应答者裸鼠脾细胞和Ph-LPS一起培养时,产生增强的抗TNP PFC反应;而C3H/HeJ T细胞与最佳浓度的Ph-LPS混合时不会增强免疫反应。通过丁醇水提取制备的LPS在所有细胞组合中均引发显著的佐剂效应。最后,纯化的应答者T细胞和MO使应答者或无应答者B细胞能够引发LPS增强作用。这些数据表明T细胞和MO正在控制LPS诱导的B细胞反应增强。
