Imaging flow cytometry reveals LPS-induced changes to intracellular intensity and distribution of α-synuclein in a TLR4-dependent manner in STC-1 cells.

IF 4.2 3区 生物学 Q1 BIOCHEMICAL RESEARCH METHODS Methods Pub Date : 2024-10-30 DOI:10.1016/j.ymeth.2024.10.009
Anastazja M Gorecki, Chidozie C Anyaegbu, Melinda Fitzgerald, Kathryn A Fuller, Ryan S Anderton
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Abstract

Background: Parkinson's disease is a chronic neurodegenerative disorder, where pathological protein aggregates largely composed of phosphorylated α-synuclein are implicated in disease pathogenesis and progression. Emerging evidence suggests that the interaction between pro-inflammatory microbial factors and the gut epithelium contributes to α-synuclein aggregation in the enteric nervous system. However, the cellular sources and mechanisms for α-synuclein pathology in the gut are still unclear.

Methods: The STC-1 cell line, which models an enteroendocrine population capable of communicating with the microbiota, immune and nervous systems, was treated with a TLR4 inhibitor (TAK-242) prior to microbial lipopolysaccharide (LPS) exposure to investigate the role of TLR4 signalling in α-synuclein alterations. Antibodies targeting the full-length protein (α-synuclein) and the Serine-129 phosphorylated form (pS129) were used. Complex, multi-parametric image analysis was conducted through confocal microscopy (with Zen 3.8 analysis) and imaging flow cytometry (with IDEAS® analysis).

Results: Confocal microscopy revealed heterogenous distribution of α-synuclein and pS129 in STC-1 cells, with prominent pS129 staining along cytoplasmic processes. Imaging flow cytometry further quantified the relationship between various α-synuclein morphometric features. Thereafter, imaging flow cytometry demonstrated a dose-specific effect of LPS, where the low (8 μg/mL), but not high dose (32 μg/mL), significantly altered measures related to α-synuclein intensity, distribution, and localisation. Pre-treatment with a TLR4 inhibitor TAK-242 alleviated some of these significant alterations.

Conclusion: This study demonstrates that LPS-TLR4 signalling alters the intracellular localisation of α-synuclein in enteroendocrine cells in vitro and showcases the utility of combining imaging flow cytometry to investigate subtle protein changes that may not be apparent through confocal microscopy alone. Further investigation is required to understand the apparent dose-dependent effects of LPS on α-synuclein in the gut epithelium in healthy states as well as conditions such as Parkinson's disease.

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成像流式细胞术揭示了 LPS 以 TLR4 依赖性方式诱导 STC-1 细胞内 α-突触核蛋白强度和分布的变化。
背景:帕金森病是一种慢性神经退行性疾病,其病理蛋白聚集体主要由磷酸化的α-突触核蛋白组成,与疾病的发病和进展有关。新的证据表明,促炎微生物因子与肠道上皮细胞之间的相互作用导致了肠道神经系统中α-突触核蛋白的聚集。然而,肠道中α-突触核蛋白病变的细胞来源和机制仍不清楚:在暴露于微生物脂多糖(LPS)之前,用TLR4抑制剂(TAK-242)处理STC-1细胞系,以研究TLR4信号在α-突触核蛋白改变中的作用。研究使用了针对全长蛋白(α-突触核蛋白)和丝氨酸-129磷酸化形式(pS129)的抗体。通过共聚焦显微镜(Zen 3.8分析)和成像流式细胞仪(IDEAS®分析)进行了复杂的多参数图像分析:结果:共聚焦显微镜显示α-突触核蛋白和pS129在STC-1细胞中呈异质分布,pS129沿细胞质过程突出染色。成像流式细胞术进一步量化了各种α-突触核蛋白形态特征之间的关系。此后,成像流式细胞仪显示了 LPS 的剂量特异性效应,其中低剂量(8 μg/mL)而非高剂量(32 μg/mL)显著改变了与α-突触核蛋白强度、分布和定位相关的指标。TLR4抑制剂TAK-242的预处理减轻了其中一些明显的改变:本研究表明,LPS-TLR4 信号改变了体外肠内分泌细胞中α-突触核蛋白的胞内定位,并展示了结合成像流式细胞术研究蛋白质微妙变化的实用性,这些变化可能无法仅通过共聚焦显微镜观察到。要了解 LPS 对健康状态下肠道上皮细胞中的α-突触核蛋白以及帕金森病等疾病中的α-突触核蛋白的明显剂量依赖性效应,还需要进一步的研究。
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来源期刊
Methods
Methods 生物-生化研究方法
CiteScore
9.80
自引率
2.10%
发文量
222
审稿时长
11.3 weeks
期刊介绍: Methods focuses on rapidly developing techniques in the experimental biological and medical sciences. Each topical issue, organized by a guest editor who is an expert in the area covered, consists solely of invited quality articles by specialist authors, many of them reviews. Issues are devoted to specific technical approaches with emphasis on clear detailed descriptions of protocols that allow them to be reproduced easily. The background information provided enables researchers to understand the principles underlying the methods; other helpful sections include comparisons of alternative methods giving the advantages and disadvantages of particular methods, guidance on avoiding potential pitfalls, and suggestions for troubleshooting.
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Development and validation of a machine learning model for predicting drug-drug interactions with oral diabetes medications Development of novel digital PCR assays for the rapid quantification of Gram-negative bacteria biomarkers using RUCS algorithm Imaging flow cytometry reveals LPS-induced changes to intracellular intensity and distribution of α-synuclein in a TLR4-dependent manner in STC-1 cells. MLFA-UNet: A multi-level feature assembly UNet for medical image segmentation Editorial Board
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