Vodovotz Y, Kwon N S, Pospischil M, Manning J, Paik J, Nathan C
Beatrice and Samuel A. Seaver Laboratory, Cornell University Medical College, New York, NY 10021.
J Immunol. 1994 Apr 15;152(8):4110-8.
Large amounts of nitric oxide (NO) are produced by the inducible isoform of NO synthase (iNOS) in many cell types once the iNOS gene is transcriptionally activated. In primary mouse peritoneal macrophages elicited by thioglycolate broth, expression of iNOS follows treatment with IFN-gamma and is synergistically increased by the addition of bacterial LPS. Expression of iNOS is suppressible at transcriptional and translational levels by certain cytokines and microbial products. The present study describes a novel form of inactivation of iNOS that is post-translational and nondegradative. Mouse peritoneal macrophages cultured in the presence of IFN-gamma alone or IFN-gamma plus LPS rapidly depleted the medium of L-arginine, a substrate for iNOS, and stopped producing NO. Repletion of L-arginine permitted cells treated with IFN-gamma alone to resume NO production for at least 5 days, leading to the release of more NO than macrophages were previously believed capable of generating. L-Arginine repletion also boosted NO production by macrophages cultured for up to 2 to 3 days in the presence of IFN-gamma plus LPS, but thereafter, iNOS was inactive in these cells whether or not L-arginine was repleted. Activity of iNOS could be restored by adding both L-arginine and fresh IFN-gamma with or without LPS, likely reflecting the synthesis of new enzyme. However, the inactivation of iNOS seen late in culture with a single application of IFN-gamma plus LPS could be attributed neither to loss of iNOS protein nor to its autoinactivation by NO. Thus, LPS, a co-inducer of iNOS, causes macrophages to inactivate iNOS about 3 days after the onset of its induction. The mechanism, which remains to be identified, is novel for iNOS, in that it decreases neither its amount nor its apparent molecular mass.
一旦诱导型一氧化氮合酶(iNOS)基因被转录激活,许多细胞类型中由iNOS诱导型同工型产生大量一氧化氮(NO)。在用巯基乙酸肉汤诱导的原代小鼠腹腔巨噬细胞中,iNOS的表达在经γ干扰素处理后出现,并且通过添加细菌脂多糖(LPS)而协同增加。iNOS的表达在转录和翻译水平上可被某些细胞因子和微生物产物抑制。本研究描述了一种iNOS失活的新形式,它是翻译后且非降解性的。单独在γ干扰素存在下或γ干扰素加LPS存在下培养的小鼠腹腔巨噬细胞迅速耗尽培养基中的L-精氨酸(iNOS的一种底物),并停止产生NO。补充L-精氨酸可使单独用γ干扰素处理的细胞恢复NO产生至少5天,导致释放出比以前认为巨噬细胞能够产生的更多的NO。L-精氨酸补充也增强了在γ干扰素加LPS存在下培养长达2至3天的巨噬细胞的NO产生,但此后,无论是否补充L-精氨酸,这些细胞中的iNOS均无活性。通过添加L-精氨酸和新鲜的γ干扰素(有无LPS)可恢复iNOS的活性,这可能反映了新酶的合成。然而,在培养后期单次应用γ干扰素加LPS所见的iNOS失活既不能归因于iNOS蛋白的丢失,也不能归因于其被NO自身失活。因此,iNOS的共诱导剂LPS在其诱导开始约3天后导致巨噬细胞使iNOS失活。该机制仍有待确定,对于iNOS来说是新颖的,因为它既不降低其数量也不降低其表观分子量。
