Hammadi Amar, Billard Christian, Faussat Anne-Marie, Kolb Jean-Pierre
UMRS 872 INSERM/Université Pierre et Marie Curie/Université Paris Descartes, Equipe 18, Centre de Recherche des Cordeliers, 15 rue de l'Ecole de Médecine, 75270 Paris cedex 06, Paris, France.
Nitric Oxide. 2008 Sep;19(2):138-45. doi: 10.1016/j.niox.2008.04.017. Epub 2008 Apr 24.
B-CLL cells are characterized by in vivo resistance to apoptosis due, in part, to the presence of an inducible nitric oxide synthase, iNOS, as the NO released plays anti-apoptotic role, notably by inhibiting caspases. The mechanisms leading to spontaneous expression of iNOS in these cells are presently unknown. The restricted use of some V(H) sub-groups and the sequences of the monoclonal immunoglobulins of the B-cell receptor expressed by the leukemia cells suggested that the latter have encountered specific auto-antigens and/or microbial derived antigens. Their binding to the BCR provides an activation signal resulting in enhanced survival, hence could be involved in the aetiology of the disease. At the interface of innate and cognate immunity, Toll-like receptors, TLR, recognize PAMPs (pathogen-associated molecular patterns) expressed by various bacteria and virus as well as some self-antigens. We thus hypothesized that TLR were involved in the early steps of B-CLL oncogenesis, notably apoptosis resistance through the induction of iNOS expression and the production of NO. Our results show that B-CLL cells express TLR-7 and TLR-9. Incubation of B-CLL cells with TLR-7 agonists effectively resulted in an increased resistance to apoptosis that was reverted with the NOS inhibitor L-NMMA. This resistance was associated with enhanced iNOS expression (protein and mRNA) and NO release, stimulation of NF-kappaB activation, phosphorylation of I kappaB alpha, all these events being suppressed with wedelolactone or Bay 11-7085, two inhibitors of I kappaB alpha phosphorylation. Our present data thus suggest that TLR-7 signaling stimulates apoptosis resistance, notably through an NF-kappaB-dependent activation of the NO pathway.
B细胞慢性淋巴细胞白血病(B-CLL)细胞的特征是在体内对凋亡具有抗性,部分原因是存在诱导型一氧化氮合酶(iNOS),因为释放的NO发挥抗凋亡作用,特别是通过抑制半胱天冬酶。目前尚不清楚导致这些细胞中iNOS自发表达的机制。白血病细胞表达的某些V(H)亚群的有限使用以及B细胞受体单克隆免疫球蛋白的序列表明,后者遇到了特定的自身抗原和/或微生物衍生抗原。它们与BCR的结合提供了一个激活信号,导致存活率提高,因此可能参与了该疾病的病因学。在固有免疫和适应性免疫的界面上,Toll样受体(TLR)识别各种细菌和病毒表达的病原体相关分子模式(PAMP)以及一些自身抗原。因此,我们假设TLR参与了B-CLL肿瘤发生的早期步骤,特别是通过诱导iNOS表达和产生NO来抵抗凋亡。我们的结果表明,B-CLL细胞表达TLR-7和TLR-9。用TLR-7激动剂孵育B-CLL细胞有效地导致对凋亡的抗性增加,而NOS抑制剂L-NMMA可逆转这种抗性。这种抗性与iNOS表达增强(蛋白质和mRNA)、NO释放增加、NF-κB激活受刺激、IκBα磷酸化有关,所有这些事件都被IκBα磷酸化的两种抑制剂水飞蓟宾或Bay 11-7085所抑制。因此,我们目前的数据表明,TLR-7信号传导刺激凋亡抗性,特别是通过NO途径的NF-κB依赖性激活。
