Theme 5 Human cell biology and pathology

IF 2.5 4区 医学 Q2 CLINICAL NEUROLOGY
Anne Gieseler, Reyk Hillert, Andreas Krusche, K. Zacher
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引用次数: 1

Abstract

Background: The delay from onset of the first symptoms to a definite ALS diagnosis depends also on the elusiveness of the initial clinical manifestations. The lack of disease-specific biomarkers to detect early pathology when ALS is supposed complicates the situation. This latency reduces the therapeutic time frame, in which neuron-rescuing strategies exert their greatest chance to work. Various biomarkers are currently promised, but none of them are specific enough to allow monitoring of disease progression. This, as well as the heterogeneity of the disease concerning clinical onset pattern and survival rates, makes difficult the correct stratification of patients into clinical trials, masking the potential positive outcome in some patients.Objective: Our main objective is to establish and test an early diagnostic tool based on microscopic immune cell monitoring of ALS patients' blood samples by using the Toponome Imaging System (TIS).Methods: TIS is based on automatically controlled microscopic device involving conjugated dye-tag incubation, protein-tag-dye-imaging, and tag-dye bleaching (1). This leads to the collection of at least 21 cycle images of fixated peripheral blood mononuclear cells (PBMCs) isolated from freshly drawn blood of ALS patients and healthy "control" donors. Resulting data sets contain combinatorial molecular information about the spatial protein network, called toponome. The PBMC toponome architectures are quantitatively analyzed as a threshold-binary code with 1 = protein is present and 0 = protein is absent.Results: Preliminary screening data of PBMCs from 4 ALS patients reveal a subpopulation of lymphocytes expressing a specific surface protein pattern, called "ALS toponome". These aberrant T cells could not be found in blood samples of controls. We observe that the number of these cells correlate with the ALS progression rate of patients, supporting the conclusion that these cells may be causal for the disease.Discussion and conclusion: Although these findings open up a potential strategy to detect early ALS disease and to monitor disease progression, a statistical analysis with many more patients, as well as data based differentiation to other neurodegenerative diseases, is mandatory. A clinical trial initiated by our faceALS foundation with at least 60 patients classified in three subsets (1. control, 2. ALS, and 3. Multiple Sclerosis (MS)) and in close cooperation with leading ALS centres in Germany is still in progress. The detection of specific and/or aberrant immune cells in blood samples of ALS patients may provide a key to understand disease onset and progression, could be used for the "staging" of disease, and contribute to effective therapy options.
主题5:人类细胞生物学和病理学
背景:从最初症状的发作到明确的ALS诊断的延迟也取决于最初临床表现的难以捉摸。当ALS被认为是早期病理时,缺乏疾病特异性的生物标志物来检测使情况复杂化。这种潜伏期减少了治疗时间框架,在此期间,神经元拯救策略发挥其最大的工作机会。目前有多种生物标志物被承诺,但没有一种具有足够的特异性,可以监测疾病的进展。这一点,以及该疾病在临床发病模式和生存率方面的异质性,使得很难将患者正确分层到临床试验中,掩盖了一些患者的潜在阳性结果。目的:我们的主要目的是建立和测试一种基于Toponome成像系统(TIS)对ALS患者血液样本进行显微免疫细胞监测的早期诊断工具。方法:TIS是基于自动控制的显微镜设备,包括共轭染料-标签孵育、蛋白质-标签-染料成像和标签-染料漂白(1)。这使得从ALS患者和健康“对照”供者的新鲜抽血中分离的固定外周血单个核细胞(PBMCs)收集至少21个周期图像。由此产生的数据集包含有关空间蛋白质网络的组合分子信息,称为拓扑onome。对PBMC拓扑组结构进行了定量分析,认为存在1 =蛋白质而不存在0 =蛋白质的阈值二进制代码。结果:来自4例ALS患者的PBMCs的初步筛选数据显示淋巴细胞亚群表达一种特定的表面蛋白模式,称为“ALS toponome”。这些异常的T细胞在对照组的血液样本中找不到。我们观察到这些细胞的数量与患者的ALS进展率相关,支持这些细胞可能是该疾病的病因的结论。讨论和结论:尽管这些发现为发现早期ALS疾病和监测疾病进展开辟了一种潜在的策略,但对更多患者的统计分析以及基于数据的其他神经退行性疾病的区分是必要的。我们的faceALS基金会发起了一项临床试验,至少有60名患者被分为三个亚群(1;控制,2。ALS和3。多发性硬化症(MS),并与德国领先的ALS中心密切合作,仍在进行中。ALS患者血液样本中特异性和/或异常免疫细胞的检测可能为了解疾病的发生和进展提供关键,可用于疾病的“分期”,并有助于有效的治疗选择。
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来源期刊
CiteScore
5.40
自引率
10.70%
发文量
64
期刊介绍: Amyotrophic Lateral Sclerosis and Frontotemporal Degeneration is an exciting new initiative. It represents a timely expansion of the journal Amyotrophic Lateral Sclerosis in response to the clinical, imaging pathological and genetic overlap between ALS and frontotemporal dementia. The expanded journal provides outstanding coverage of research in a wide range of issues related to motor neuron diseases, especially ALS (Lou Gehrig’s disease) and cognitive decline associated with frontotemporal degeneration. The journal also covers related disorders of the neuroaxis when relevant to these core conditions.
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