强力霉素治疗受曼氏蛛虫感染个体可影响免疫细胞激活并导致长期T细胞极化。

Doxycycline Treatment of Mansonella perstans-Infected Individuals Affects Immune Cell Activation and Causes Long-term T-cell Polarization.

作者信息

Aniagyei Wilfred, Adjei Jonathan Kofi, Adankwah Ernest, Seyfarth Julia, Mayatepek Ertan, Antwi Berko Daniel, Sakyi Samuel Asamoah, Batsa Debrah Linda, Debrah Alexander Yaw, Hoerauf Achim, Owusu Dorcas O, Phillips Richard O, Jacobsen Marc

机构信息

Kumasi Centre for Collaborative Research in Tropical Medicine, Kumasi, Ghana.

Department of Medical Diagnostics, College of Health Sciences, Kwame Nkrumah University of Science and Technology (KNUST), Kumasi, Ghana.

出版信息

Clin Infect Dis. 2023 Feb 8;76(3):e1399-e1407. doi: 10.1093/cid/ciac428.

DOI:10.1093/cid/ciac428

PMID:35657028

Abstract

BACKGROUND

Doxycycline is used for treatment of Mansonella perstans infection. Immune modulatory effects of both M. perstans and doxycycline have been described but long-term implications on host immune response are not defined. Here we determined multiple immune parameters of M. perstans-infected individuals before and after doxycycline treatment to characterize doxycycline effects on host T-cell immunity.

METHODS

Immune characterization of doxycycline-treated M. perstans-infected individuals was performed as part of an open-label randomized clinical trial. Immune cell population phenotyping by flow cytometry and functional in vitro T-cell assays were performed at baseline, 6 months, and "long term" (18-24 months) after treatment start. Treatment efficacy, based on peripheral blood microfilaria (mf) burden, was correlated with immune parameters and effects on immune response against concomitant Mycobacterium tuberculosis infection were determined.

RESULTS

Immune population phenotyping indicated changes in functional T-cell responses after doxycycline treatment. Constitutive and superantigen-induced T-cell activation and polarization towards T-helper type (TH) 1 phenotype at baseline declined after doxycycline treatment, whereas low proportions of TH17 and TH1* cells at baseline increased significantly at follow-up. In accordance, long-term decline in antigen-specific TH1 responses against concomitant M. tuberculosis infection was seen. Notably, only TH17 and TH1* changes after 6 months and TH17 at baseline were negatively correlated with M. perstans microfilaria burden or reduction, whereas long-term changes were not associated with treatment efficacy.

CONCLUSIONS

We found long-term immune modulatory effects of doxycycline treatment leading to decreased constitutive T-cell activation, polarization towards TH17/TH1*, and impaired immune response against concomitant M. tuberculosis infection.

摘要

背景

强力霉素用于治疗常现曼森线虫感染。常现曼森线虫和强力霉素的免疫调节作用均已被描述，但对宿主免疫反应的长期影响尚不明确。在此，我们测定了强力霉素治疗前后常现曼森线虫感染个体的多个免疫参数，以表征强力霉素对宿主T细胞免疫的影响。

方法

作为一项开放标签随机临床试验的一部分，对接受强力霉素治疗的常现曼森线虫感染个体进行免疫特征分析。在治疗开始后的基线、6个月和“长期”（18 - 24个月）进行流式细胞术免疫细胞群体表型分析和体外T细胞功能检测。基于外周血微丝蚴（mf）负荷的治疗效果与免疫参数相关，并确定其对同时感染结核分枝杆菌的免疫反应的影响。

结果

免疫群体表型分析表明强力霉素治疗后功能性T细胞反应发生变化。强力霉素治疗后，基线时组成性和超抗原诱导的T细胞活化以及向辅助性T细胞（TH）1表型的极化下降，而基线时低比例的TH17和TH1细胞在随访时显著增加。相应地，观察到针对同时感染结核分枝杆菌的抗原特异性TH1反应长期下降。值得注意的是，仅6个月后的TH17和TH1变化以及基线时的TH17与常现曼森线虫微丝蚴负荷或减少呈负相关，而长期变化与治疗效果无关。