红细胞膜微极性作为1型和2型糖尿病的新诊断指标

IF 2.5 Q1 Chemistry
Giada Bianchetti , Flavio Di Giacinto , Dario Pitocco , Alessandro Rizzi , Gaetano Emanuele Rizzo , Francesca De Leva , Andrea Flex , Enrico di Stasio , Gabriele Ciasca , Marco De Spirito , Giuseppe Maulucci
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引用次数: 18

摘要

糖尿病的分类对临床医生诊断和选择正确的治疗方案至关重要。1型和2型糖尿病患者的膜和跨膜蛋白的糖基化、氧化和其他翻译后修饰,以及胆固醇稳态的损害,可以改变脂质密度、堆积和红细胞(RBC)质膜的相互作用,从而改变其膜微极性。这可以在亚微米尺度上通过测定膜的相对介电常数来估计,这是电荷之间的电场相对于真空减小的因素。本研究采用膜微极性敏感探针监测健康受试者(n=16)和1型(T1DM, n=10)和2型糖尿病(T2DM, n=24)患者的红细胞变化,为糖尿病分类提供一种经济有效的补充指标。我们发现T2DM患者的极性膜微环境较少,而T1DM患者的极性膜微环境较多。三组患者微极性差异有统计学意义(p<0.01)。研究了血清胆固醇池在确定这些差异中的作用,并考虑了其他可能改变探针反应的因素,以开发基于红细胞膜微极性的临床检测。这些初步数据为开发一种创新的检测方法铺平了道路,该方法可能成为1型和2型糖尿病诊断和进展监测的工具。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Red blood cells membrane micropolarity as a novel diagnostic indicator of type 1 and type 2 diabetes

Red blood cells membrane micropolarity as a novel diagnostic indicator of type 1 and type 2 diabetes

Classification of the category of diabetes is extremely important for clinicians to diagnose and select the correct treatment plan. Glycosylation, oxidation and other post-translational modifications of membrane and transmembrane proteins, as well as impairment in cholesterol homeostasis, can alter lipid density, packing, and interactions of Red blood cells (RBC) plasma membranes in type 1 and type 2 diabetes, thus varying their membrane micropolarity. This can be estimated, at a submicrometric scale, by determining the membrane relative permittivity, which is the factor by which the electric field between the charges is decreased relative to vacuum. Here, we employed a membrane micropolarity sensitive probe to monitor variations in red blood cells of healthy subjects (n=16) and patients affected by type 1 (T1DM, n=10) and type 2 diabetes mellitus (T2DM, n=24) to provide a cost-effective and supplementary indicator for diabetes classification. We find a less polar membrane microenvironment in T2DM patients, and a more polar membrane microenvironment in T1DM patients compared to control healthy patients. The differences in micropolarity are statistically significant among the three groups (p<0.01). The role of serum cholesterol pool in determining these differences was investigated, and other factors potentially altering the response of the probe were considered in view of developing a clinical assay based on RBC membrane micropolarity. These preliminary data pave the way for the development of an innovative assay which could become a tool for diagnosis and progression monitoring of type 1 and type 2 diabetes.

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来源期刊
Analytica Chimica Acta: X
Analytica Chimica Acta: X Chemistry-Analytical Chemistry
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