通过定量分析数字全息显微镜中的二维相位图研究溶酶体的积累。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Giusy Giugliano, Michela Schiavo, Daniele Pirone, Jaromír Běhal, Vittorio Bianco, Sandro Montefusco, Pasquale Memmolo, Lisa Miccio, Pietro Ferraro, Diego L. Medina
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引用次数: 0

摘要

溶酶体是细胞内分解代谢途径的终点,也是发挥大分子回收、细胞器和营养适应等重要功能的信号中心。大多数溶酶体基因的缺乏会导致单基因疾病,这些疾病被称为溶酶体贮积症(LSDs),这一事实证明了溶酶体在人类健康中的重要性。溶酶体贮积症的一个共同表型特征是溶酶体区室的扩大,可通过基于免疫荧光方案的传统成像方法或标记溶酶体蛋白的过表达来检测。这些方法需要改变细胞结构(如固定方法),会改变细胞的行为(如蛋白质的过度表达),还需要准备样品并根据分析类型准确选择兼容的荧光标记物,因此限制了简单描述细胞状态的可能性。因此,通过数字全息定量相位成像(QPI-DH)等无标记定量方法对健康和疾病状态下的溶酶体进行显微成像,可能是研究和有效诊断人类疾病中溶酶体贮积的重要进展。在这里,我们利用从粘多糖病 III-A 型(MSP-IIIA)小鼠模型中提取的小鼠胚胎成纤维细胞(MEFs),并将它们与野生型(WT)MEFs 进行比较,证明了 QPI-DH 方法在检测溶酶体区室方面的有效性。我们发现,无标记的生物标记物可以对这两个群体进行初步预筛,从而表明 QPI-DH 可以成为检测溶酶体功能障碍的合适候选物,从而克服荧光检测的缺点。研究人员还开发了一种适当的数字程序,用于检测和评估体外细胞培养物中的此类细胞亚结构。本研究报告的结果令人鼓舞,有助于进一步开发拟议的 QPI-DH 方法,用于此类溶酶体功能障碍的研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Investigation on lysosomal accumulation by a quantitative analysis of 2D phase-maps in digital holography microscopy

Lysosomes are the terminal end of catabolic pathways in the cell, as well as signaling centers performing important functions such as the recycling of macromolecules, organelles, and nutrient adaptation. The importance of lysosomes in human health is supported by the fact that the deficiency of most lysosomal genes causes monogenic diseases called as a group Lysosomal Storage Diseases (LSDs). A common phenotypic hallmark of LSDs is the expansion of the lysosomal compartment that can be detected by using conventional imaging methods based on immunofluorescence protocols or overexpression of tagged lysosomal proteins. These methods require the alteration of the cellular architecture (i.e., due to fixation methods), can alter the behavior of cells (i.e., by the overexpression of proteins), and require sample preparation and the accurate selection of compatible fluorescent markers in relation to the type of analysis, therefore limiting the possibility of characterizing cellular status with simplicity. Therefore, a quantitative and label-free methodology, such as Quantitative Phase Imaging through Digital Holographic (QPI-DH), for the microscopic imaging of lysosomes in health and disease conditions may represent an important advance to study and effectively diagnose the presence of lysosomal storage in human disease. Here we proof the effectiveness of the QPI-DH method in accomplishing the detection of the lysosomal compartment using mouse embryonic fibroblasts (MEFs) derived from a Mucopolysaccharidosis type III-A (MSP-IIIA) mouse model, and comparing them with wild-type (WT) MEFs. We found that it is possible to identify label-free biomarkers able to supply a first pre-screening of the two populations, thus showing that QPI-DH can be a suitable candidate to surpass fluorescent drawbacks in the detection of lysosomes dysfunction. An appropriate numerical procedure was developed for detecting and evaluate such cellular substructures from in vitro cells cultures. Results reported in this study are encouraging about the further development of the proposed QPI-DH approach for such type of investigations about LSDs.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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