利用液滴微流控技术从体内外脂肪组织动态取样,支持甘油和脂肪酸的独立分泌机制

IF 6.1 2区 工程技术 Q1 BIOCHEMICAL RESEARCH METHODS
Lab on a Chip Pub Date : 2024-09-20 DOI:10.1039/D4LC00664J
Md Moniruzzaman, Andresa B. Bezerra, Md Mohibullah, Robert L. Judd, James G. Granneman and Christopher J. Easley
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引用次数: 0

摘要

脂肪组织功能的病变与糖尿病、肥胖症、代谢综合征和癌症等人类疾病有关。在脂肪细胞和组织中已观察到代谢物的动态快速释放,但要充分研究这一过程,还需要更高的时间分辨率。在这项工作中,我们使用了一种具有精确和规则阀门自动液滴采样功能的微流控装置(称为微流控模拟数字转换器(µADC)),对小鼠直径约 0.75 毫米的脂肪外植体的分泌物进行采样,并使用片上盐水电极将采样液滴与两种不同荧光耦合酶测定法的试剂液滴合并。通过在芯片上整合取样和检测,使用荧光显微镜对合并的 12 纳升液滴中的甘油或非酯化脂肪酸 (NEFA) 或两者进行光学定量,时间分辨率高达 20 秒。甘油(70 fmol)的检测限为 6 µM,NEFA(10 fmol)的检测限为 0.9 µM。利用该系统对多个体外脂肪组织外植体进行了分析,结果表明,从进食条件转换到禁食条件后,脂肪分解功能明显增强。通过高时间分辨率,首次观察到甘油和 NEFA 在 0.2 至 1.6 min-1 范围内的脂肪分解振荡。连续小波变换(CWT)频谱图和猝发分析(0.1 至 4.0 pmol 猝发)揭示了复杂的动态变化,来自同一外植体的多重检测(甘油和 NEFA 双重检测)显示出大部分不一致的猝发。这些数据支持 NEFA 和甘油释放的不同机制,但与细胞内代谢振荡的联系仍不清楚。总之,该装置能以高分辨率对组织外植体进行自动化、高精度的时间采样,并可编程地与多种检测试剂进行下游合并,从而揭示独特的生物信息。这种装置的特点应适用于其他各种组织或球体类型以及其他检测格式。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Dynamic sampling from ex vivo adipose tissue using droplet-based microfluidics supports separate mechanisms for glycerol and fatty acid secretion†

Dynamic sampling from ex vivo adipose tissue using droplet-based microfluidics supports separate mechanisms for glycerol and fatty acid secretion†

Pathologies in adipose (fat) tissue function are linked with human diseases such as diabetes, obesity, metabolic syndrome, and cancer. Dynamic, rapid release of metabolites has been observed in adipocyte cells and tissue, yet higher temporal resolution is needed to adequately study this process. In this work, a microfluidic device with precise and regular valve-automated droplet sampling, termed a microfluidic analog-to-digital converter (μADC), was used to sample secretions from ∼0.75 mm diameter adipose explants from mice, and on-chip salt water electrodes were used to merge sampled droplets with reagent droplets from two different fluorometric coupled enzyme assays. By integrating sampling and assays on-chip, either glycerol or non-esterified fatty acids (NEFA), or both, were quantified optically within merged 12 nanoliter droplets using a fluorescence microscope with as high as 20 second temporal resolution. Limits of detection were 6 μM for glycerol (70 fmol) and 0.9 μM for NEFA (10 fmol). Multiple ex vivo adipose tissue explants were analyzed with this system, all showing clear increases in lipolytic function after switching from feeding to fasting conditions. Enabled by high temporal resolution, lipolytic oscillations of both glycerol and NEFA were observed for the first time in the range of 0.2 to 1.6 min−1. Continuous wavelet transform (CWT) spectrograms and burst analyses (0.1 to 4.0 pmol bursts) revealed complex dynamics, with multiplexed assays (duplex for glycerol and NEFA) from the same explants showing mostly discordant bursts. These data support separate mechanisms of NEFA and glycerol release, although the connection to intracellular metabolic oscillations remains unknown. Overall, this device allowed automated and highly precise temporal sampling of tissue explants at high resolution and programmable downstream merging with multiple assay reagents, revealing unique biological information. Such device features should be applicable to various other tissue or spheroid types and to other assay formats.

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来源期刊
Lab on a Chip
Lab on a Chip 工程技术-化学综合
CiteScore
11.10
自引率
8.20%
发文量
434
审稿时长
2.6 months
期刊介绍: Lab on a Chip is the premiere journal that publishes cutting-edge research in the field of miniaturization. By their very nature, microfluidic/nanofluidic/miniaturized systems are at the intersection of disciplines, spanning fundamental research to high-end application, which is reflected by the broad readership of the journal. Lab on a Chip publishes two types of papers on original research: full-length research papers and communications. Papers should demonstrate innovations, which can come from technical advancements or applications addressing pressing needs in globally important areas. The journal also publishes Comments, Reviews, and Perspectives.
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