Möhn Nora, Bruni Elena, Schröder Arne, Frömmel Stephanie, Gueler Faikah, Vieten Gertrud, Prinz Immo, Kuebler Joachim F, Petersen Claus, Klemann Christian
Department of Pediatric Surgery, Hannover Medical School, Hannover, Germany.
Institute of Immunology, Hannover Medical School, Hannover, Germany.
Liver Int. 2020 Dec;40(12):3031-3041. doi: 10.1111/liv.14639. Epub 2020 Sep 14.
BACKGROUND & AIMS: Recent evidence suggests that Interleukin (IL)-17-producing gamma delta ( ) T cells are the dominant pathogenic cellular component in designated autoimmune or inflammatory diseases, including biliary atresia (BA). We have previously demonstrated that retinoids effectively suppress T-helper cell (Th) 17 differentiation.
Here, we established an in vitro system, enabling investigations of the effect of AM80 on the IL-17 production of T cells. Additionally, we tested the therapeutic effect of AM80 in the Rotavirus-induced mouse model of BA. Co-incubation of T cells with IL-23 and anti-CD28 mAb proved most effective in inducing an IL-17 response in vitro. The effect of AM80 on human CCR6+CD26+ V 2 cells was assessed by flow cytometry.
AM80 efficiently reduced IL-17 production by murine T cells and the expression of the master transcription factor Retinoid-Orphan-Receptor- t (ROR ) in a dose-dependent manner. The fraction of human CCR6+CD26+ V 2 cells was significantly reduced by co-incubation with AM80. Moreover, AM80 also inhibited IL-17 production by liver-infiltrating T cells isolated from animals suffering from BA. Intraperitoneal treatment with AM80 ameliorated BA-associated inflammation. However, AM80 treatment was not sufficient to control disease progression in the murine model, despite reduced inflammatory activity in the animals.
Retinoids are very efficient in down-regulating IL-17 production by T cells in vitro and, to a lesser extent, in the BA mouse model. However, retinoids do not suffice for the control of disease progression. Thus, our data suggest that IL-17 is not the only factor contributing to the pathogenesis of BA.
Biliary atresia (BA) is a rare disease which affects infants, causing progressive liver failure in most children, and is the most common indication for paediatric liver transplantation. We have previously demonstrated that IL-17, produced by T cells, contributes to hepatic inflammation in the murine model of BA and is increased in the livers of infants suffering from the disease. In the study at hand, we demonstrate that treatment with AM80, a synthetic retinoid with superior pharmacological properties, effectively inhibits the IL-17 production of gamma delta T cells without generating systemic immunosuppression. Although all-trans retinoic acid (ATRA) has been demonstrated to suppress differentiation of IL-17-producing conventional T-helper cells (Th17) in vitro, the therapeutic application of ATRA in vivo is limited by the compound's potential side effects caused by its instability and lack of receptor specificity. Our study is the first to show that AM80 suppresses the IL-17 production of T cells in a very efficient manner and that hepatic inflammation is ameliorated in mice suffering from BA. However, AM80 treatment does not suffice to block the disease progression. We conclude that factors other than IL-17 drive the progressive inflammation in BA. The addition of retinoids to the treatment regime of children suffering from BA might decrease the disease burden; however, further research is needed to clarify the pathomechanism and possible therapeutic interventions in humans.
最近的证据表明,产生白细胞介素(IL)-17的γδ T细胞是包括胆道闭锁(BA)在内的特定自身免疫性或炎性疾病中主要的致病细胞成分。我们之前已经证明,维甲酸能有效抑制辅助性T细胞(Th)17分化。
在此,我们建立了一个体外系统,用于研究AM80对γδ T细胞产生IL-17的影响。此外,我们在轮状病毒诱导的BA小鼠模型中测试了AM80的治疗效果。γδ T细胞与IL-23和抗CD28单克隆抗体共同孵育在体外诱导IL-17应答方面最为有效。通过流式细胞术评估AM80对人CCR6+CD26+ Vδ2细胞的影响。
AM80以剂量依赖的方式有效降低了小鼠γδ T细胞产生IL-17的水平以及主要转录因子视黄酸孤儿受体γt(RORγt)的表达。与AM80共同孵育后,人CCR6+CD26+ Vδ2细胞的比例显著降低。此外,AM80还抑制了从患有BA的动物分离出的肝脏浸润γδ T细胞产生IL-17。腹腔注射AM80可改善与BA相关的炎症。然而,尽管动物的炎症活性降低,但AM80治疗不足以控制小鼠模型中的疾病进展。
维甲酸在体外能非常有效地下调γδ T细胞产生IL-17,在BA小鼠模型中作用程度稍小。然而,维甲酸不足以控制疾病进展。因此,我们的数据表明IL-17不是导致BA发病机制的唯一因素。
胆道闭锁(BA)是一种影响婴儿的罕见疾病,在大多数儿童中会导致进行性肝衰竭,是儿童肝移植最常见的指征。我们之前已经证明,γδ T细胞产生的IL-17在BA小鼠模型中导致肝脏炎症,并且在患有该疾病的婴儿肝脏中升高。在本研究中,我们证明用具有优异药理特性的合成维甲酸AM80进行治疗可有效抑制γδ T细胞产生IL-17,且不会产生全身免疫抑制。尽管全反式维甲酸(ATRA)已被证明在体外可抑制产生IL-17的传统辅助性T细胞(Th17)的分化,但其在体内的治疗应用受到该化合物因其不稳定性和缺乏受体特异性而产生的潜在副作用的限制。我们的研究首次表明AM80能非常有效地抑制γδ T细胞产生IL-17,并且患有BA的小鼠肝脏炎症得到改善。然而,AM80治疗不足以阻止疾病进展。我们得出结论,除IL-17外的其他因素驱动了BA中的进行性炎症。在患有BA的儿童治疗方案中添加维甲酸可能会减轻疾病负担;然而,需要进一步研究以阐明人类的发病机制和可能的治疗干预措施。
