Maca R D
Immunopharmacology. 1983 Dec;6(4):267-77. doi: 10.1016/0162-3109(83)90033-4.
The effects of PGE2 on cultured T lymphocytes (CTC) stimulated by either Con A, PHA, or lectin-free IL-2 were studied. PGE2, in a concentration ranging from 100 to 1 ng/ml, consistently and significantly inhibited the proliferation of CTC induced by either PHA or Con A. PGF2 alpha was essentially without effect. Although the degree of inhibition of PHA-treated CTC was increased with suboptimal amounts of PHA, significant inhibition still resulted with optimal PHA concentrations. PGE2, but not PGF2 alpha, was also effective in significantly inhibiting the proliferation of IL-2-treated CTC in a dose-related fashion; however, the addition of suboptimal amounts of IL-2 did not result in greater increases in the degree of inhibition by PGE2. Depleting the CTC of either OKT-4 or OKT-8 phenotypic cells did not abrogate this PGE2 inhibitory effect, indicating that PGE2 does not suppress the proliferative response solely by the activation of suppressor cells with the OKT-8 phenotype. PGE2 also was found to inhibit the production of IL-2 by fresh lymphocytes treated by either optimal or suboptimal amounts of PHA, however, this decrease in production by PGE2 was not necessarily associated with a decrease in the proliferation of these stimulated lymphocytes. Only with low PHA concentrations, where IL-2 production was markedly reduced and barely detectable, was lymphocyte proliferation appreciably reduced by PGE2. In additional experiments, LiCl was added to PGE2 containing cultures to determine whether LiCl could modulate the inhibitor effect of PGE2 of either PHA- or IL-2-stimulated CTC. In these studies, LiCl, in concentrations of 1-10 mM was found to lessen or completely abrogate the reduced PHA proliferative response induced by PGE2. This effect was more pronounced with suboptimal concentrations of PHA than with optimal PHA amounts. In contrast, the PGE2-induced inhibition of IL-2-stimulated CTC was not modified or altered by the addition of LiCl. Thus, these results suggest that LiCl acts at the level of IL-2 production instead of IL-2 action, and that PGE2 inhibits IL-2-induced proliferation of CTC by a different or additional mechanism than for PHA-treated cells. In conclusion, these results, taken as a whole, indicate that PGE2 suppresses the proliferation of stimulated CTC by at least two different mechanisms: 1) by reducing the production of IL-2 by stimulated lymphocytes; and 2) by directly acting on the responding CTC.(ABSTRACT TRUNCATED AT 400 WORDS)
研究了前列腺素E2(PGE2)对由刀豆蛋白A(Con A)、植物血凝素(PHA)或无凝集素白细胞介素-2(IL-2)刺激的培养T淋巴细胞(CTC)的影响。PGE2浓度在100至1 ng/ml范围内,持续且显著地抑制了由PHA或Con A诱导的CTC增殖。前列腺素F2α(PGF2α)基本无作用。尽管PHA处理的CTC的抑制程度随次优剂量的PHA增加而增加,但在最佳PHA浓度下仍有显著抑制作用。PGE2而非PGF2α也能以剂量相关的方式显著抑制IL-2处理的CTC增殖;然而,添加次优剂量的IL-2并不会导致PGE2抑制程度的更大增加。去除具有OKT-4或OKT-8表型细胞的CTC并没有消除这种PGE2抑制作用,这表明PGE2并非仅通过激活具有OKT-8表型的抑制细胞来抑制增殖反应。还发现PGE2抑制了由最佳或次优剂量PHA处理的新鲜淋巴细胞产生IL-2,然而,PGE2导致的这种产生量减少不一定与这些受刺激淋巴细胞的增殖减少相关。只有在PHA浓度较低时,IL-2产生明显减少且几乎检测不到,PGE2才会明显降低淋巴细胞增殖。在额外的实验中,将氯化锂(LiCl)添加到含PGE2的培养物中,以确定LiCl是否能调节PGE2对PHA或IL-2刺激的CTC的抑制作用。在这些研究中,发现浓度为1 - 10 mM的LiCl可减轻或完全消除PGE2诱导的PHA增殖反应降低。这种作用在次优浓度的PHA下比在最佳PHA剂量下更明显。相反,添加LiCl并未改变或影响PGE2对IL-2刺激的CTC的抑制作用。因此,这些结果表明LiCl作用于IL-2产生水平而非IL-2作用水平,并且PGE2通过与PHA处理细胞不同或额外的机制抑制IL-2诱导的CTC增殖。总之,总体而言,这些结果表明PGE2至少通过两种不同机制抑制受刺激的CTC增殖:1)通过减少受刺激淋巴细胞产生IL-2;2)通过直接作用于反应性CTC。(摘要截短至400字)
