Stichova Julie, Slanina Peter, Chovancova Zita, Baros Jan, Litzman Marek, Litzman Jiri, Vlkova Marcela
Faculty of Medicine, Institute of Clinical Immunology and Allergology, Masaryk University, Brno, Czechia.
Institute of Clinical Immunology and Allergology, St. Anne's University Hospital, Brno, Czechia.
Front Allergy. 2024 Sep 24;5:1462579. doi: 10.3389/falgy.2024.1462579. eCollection 2024.
Previous research showed that the intracellular complement system, with CD46 as its central molecule, regulates the Th1 response associated with IFN-γ production and transition to a type 1 regulatory response (Tr1) characterized by IL-10 production. This transition can be influenced by a vitamin D (calcitriol), favouring a shift towards Tr1 cells and increased IL-10 production, as described in some autoimmune diseases.
It is unknown whether calcitriol modulates CD46-induced Th1 response towards regulatory type 1 T cells (Tr1) in allergic eosinophilic asthma and its value in relation to reducing inflammatory response.
CD4 T cells from 58 patients with allergic eosinophilic asthma (AEA) and 49 healthy donors (HDs) were stimulated with αCD3/αCD46/IL-2 or αCD3/αCD46/IL-2/Calcitriol for 60 h and analyzed by flow cytometry. IFN-γ and IL-10 levels in cell culture supernatants were measured using ELISA.
CD4 T cells from patients with AEA demonstrated elevated CD46 expression in both the non-activated state and under stimulation conditions with αCD3/αCD46/IL-2 or αCD3/αCD46/IL-2/Calcitriol. Moreover, CD46 expression in AEA patients fluctuated with the pollen season, showing a significant increase during period of low pollen exposure. Calcitriol further induced CD4Tr1 cells from generated CD4Th1 cells in both HDs and AEA patients. However, in both cohorts were individuals (HDs: 35/49, AEA: 40/58) who responded to calcitriol with a more pronounced regulatory response. The calcitriol-induced regulatory effect manifested by a stronger surface decrease of CD46 on activated CD4 T cells (by 40% in HDs and by 26% in AEA), accompanied by a significant inhibition of IFN-γ and increased IL-10 production (by 31% in HDs and by 85% in AEA). These individuals were termed as the CD46D group. Contrary to this, calcitriol induced an increase in CD46 expression at the CD4 T cell surface in a minor group of HDs (14/49), and AEA patients (18/58), who were termed as the CD46I group. In CD46I group, CD4 T cells produced less IFN-γ in comparison with CD46D group (by 33% in HDs and by 43% in AEA) and were unable to upregulate IL-10 production following stimulation with αCD3/αCD46/IL-2/Calcitriol.
Our results suggest the potential existence of a key for stratifying individuals suitable for calcitriol treatment in the context of low serum vitamin D levels. After validation in clinical studies, this key could be used as an adjunctive therapy not only for patients with allergic eosinophilic asthma, but also for other diseases.
先前的研究表明,以CD46为核心分子的细胞内补体系统调节与IFN-γ产生相关的Th1反应,并转变为以IL-10产生为特征的1型调节性反应(Tr1)。这种转变可能受维生素D(骨化三醇)影响,如在一些自身免疫性疾病中所描述的那样,有利于向Tr1细胞转变并增加IL-10的产生。
尚不清楚骨化三醇是否能调节变应性嗜酸性粒细胞性哮喘中CD46诱导的Th1反应向1型调节性T细胞(Tr1)的转变及其在减轻炎症反应方面的价值。
用αCD3/αCD46/IL-2或αCD3/αCD46/IL-2/骨化三醇刺激58例变应性嗜酸性粒细胞性哮喘(AEA)患者和49例健康供者(HD)的CD4 T细胞60小时,并用流式细胞术进行分析。用ELISA法检测细胞培养上清液中的IFN-γ和IL-10水平。
AEA患者的CD4 T细胞在未激活状态以及用αCD3/αCD46/IL-2或αCD3/αCD46/IL-2/骨化三醇刺激的条件下均表现出CD46表达升高。此外,AEA患者的CD46表达随花粉季节波动,在花粉暴露量低的时期显著增加。骨化三醇在HD和AEA患者中均能从产生的CD4 Th1细胞进一步诱导产生CD4 Tr1细胞。然而,在两个队列中均有个体(HD:35/49,AEA:40/58)对骨化三醇有更明显的调节反应。骨化三醇诱导的调节作用表现为活化的CD4 T细胞表面CD46的表面表达更强地降低(HD中降低40%,AEA中降低26%),同时伴有IFN-γ的显著抑制和IL-10产生增加(HD中增加31%,AEA中增加85%)。这些个体被称为CD46D组。与此相反,在一小部分HD(14/49)和AEA患者(18/58)中,骨化三醇诱导CD4 T细胞表面CD46表达增加,这些个体被称为CD46I组。在CD46I组中,与CD46D组相比,CD4 T细胞产生的IFN-γ更少(HD中少33%,AEA中少43%),并且在用αCD3/αCD46/IL-2/骨化三醇刺激后不能上调IL-10的产生。
我们的结果提示,在血清维生素D水平较低的情况下,可能存在一种对适合骨化三醇治疗的个体进行分层的关键因素。在临床研究中得到验证后,这一关键因素不仅可作为变应性嗜酸性粒细胞性哮喘患者的辅助治疗方法,也可用于其他疾病。
