Aune T M, Pogue S L
Department of Molecular Immunology, Genentech, Inc., South San Francisco, California 94080, USA.
J Clin Invest. 1989 Sep;84(3):863-75. doi: 10.1172/JCI114247.
Growth of a variety of human tumor cell lines is inhibited by interferon-gamma (IFN-gamma) in vitro. This mechanism is not well understood. The present experiments identify two separate mechanisms which account for the growth inhibitory activity of IFN-gamma. Cell lines most sensitive to IFN-gamma (inhibited by 10-30 U/ml IFN-gamma in 3 d) were stimulated by IFN-gamma to oxidize tryptophan in media to kynurenine and completely eliminated tryptophan from the culture media after 48-72 h. Addition of L-tryptophan, but not other aromatic amino acids, other essential amino acids, or D-tryptophan, prevented inhibition of cell growth by IFN-gamma. The amount of IFN-gamma required to yield 50% inhibition of cell growth was directly related to the concentration of L-tryptophan in culture media and increased from approximately 3 to 600 U/ml as the concentration of tryptophan in the media was increased from 25 to 1,000 microM. By contrast, inhibition of growth of the cell lines, BT20 and HT29, was not prevented by addition of tryptophan. Inhibition by IFN-gamma (100-300 U/ml after 5-6 d) was, however, completely prevented by addition of two inhibitors of adenosine diphosphate-ribosyl transferase (ADP-RT), 3-aminobenzamide or nicotinamide. Activity of ADP-RT was increased in these cell lines after addition of IFN-gamma. ADP-RT catalyzes the incorporation of the ADP moiety of nicotinamide adenine dinucleotide (NAD) into proteins and causes depletion of intracellular NAD. All tumor cell lines tested had reduced levels of intracellular NAD after treatment with IFN-gamma and loss of NAD preceded inhibition of cell growth by 12-24 h. Inhibitors of IFN-gamma-mediated inhibition of cell growth prevented loss of levels of intracellular NAD. Generation of reactive oxygen species lead to DNA strand breaks which result in activation of ADP-RT. Increased DNA strand breaks were induced in BT20 and HT29 cells but not ME180 and A549 cells after culture with IFN-gamma. The two enzymes known to catalyze the decyclization of tryptophan to kynurenine require superoxide anion for activity. Increased amounts of superoxide anion were released from ME180 and A549 cells after culture with IFN-gamma. Reduced oxygen concentration decreased the ability of IFN-gamma to inhibit tumor cell growth in vitro. Intracellular glutathione has been shown to protect cells against oxidative damage by various agents. Elevation or reduction of intracellular glutathione concentrations lowered or raised sensitivity of cell lines to IFN-gamma, respectively. These data indicate that at least two distinct mechanisms can account for IFN-gamma-madiated inhibition of tumor cell growth. Both mechanisms appear to be sensitive to oxygen tension and to changes in intracellular glutathione concentrations, and both mechanisms lead to loss of intracellular NAD.
多种人类肿瘤细胞系的生长在体外会受到γ干扰素(IFN-γ)的抑制。这种机制尚未完全明确。目前的实验确定了两种不同的机制来解释IFN-γ的生长抑制活性。对IFN-γ最敏感的细胞系(在3天内被10 - 30 U/ml的IFN-γ抑制)受到IFN-γ刺激后,会将培养基中的色氨酸氧化为犬尿氨酸,并在48 - 72小时后将培养基中的色氨酸完全消耗。添加L-色氨酸,但不添加其他芳香族氨基酸、其他必需氨基酸或D-色氨酸,可防止IFN-γ对细胞生长的抑制。产生50%细胞生长抑制所需的IFN-γ量与培养基中L-色氨酸的浓度直接相关,随着培养基中色氨酸浓度从25 microM增加到1000 microM,该量从约3 U/ml增加到600 U/ml。相比之下,添加色氨酸并不能阻止BT20和HT29细胞系的生长抑制。然而,添加两种二磷酸腺苷 - 核糖基转移酶(ADP - RT)抑制剂3 - 氨基苯甲酰胺或烟酰胺可完全阻止IFN-γ(5 - 6天后100 - 300 U/ml)的抑制作用。添加IFN-γ后,这些细胞系中ADP - RT的活性增加。ADP - RT催化烟酰胺腺嘌呤二核苷酸(NAD)的ADP部分掺入蛋白质中,并导致细胞内NAD的消耗。所有测试的肿瘤细胞系在接受IFN-γ处理后细胞内NAD水平均降低,NAD的损失比细胞生长抑制提前12 - 24小时。IFN-γ介导的细胞生长抑制抑制剂可防止细胞内NAD水平的损失。活性氧的产生会导致DNA链断裂,从而导致ADP - RT的激活。用IFN-γ培养后,BT20和HT29细胞中诱导的DNA链断裂增加,但ME180和A549细胞中未增加。已知催化色氨酸脱环化为犬尿氨酸的两种酶需要超氧阴离子才能发挥活性。用IFN-γ培养后,ME180和A549细胞释放的超氧阴离子量增加。降低氧气浓度会降低IFN-γ在体外抑制肿瘤细胞生长的能力。细胞内谷胱甘肽已被证明可保护细胞免受各种试剂的氧化损伤。细胞内谷胱甘肽浓度的升高或降低分别降低或提高细胞系对IFN-γ的敏感性。这些数据表明,至少有两种不同的机制可以解释IFN-γ介导的肿瘤细胞生长抑制。这两种机制似乎都对氧张力和细胞内谷胱甘肽浓度的变化敏感,并且两种机制都会导致细胞内NAD的损失。
