Erythrocytes' surface properties and stiffness predict survival and functional decline in ALS patients

IF 5 3区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY BioFactors Pub Date : 2023-12-27 DOI:10.1002/biof.2030
Catarina S. Lopes, Ana Catarina Pronto-Laborinho, Vasco A. Conceição, Teresa Freitas, Gonçalo L. Matias, Marta Gromicho, Nuno C. Santos, Mamede de Carvalho, Filomena A. Carvalho
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Abstract

Erythrocytes play a fundamental role in oxygen delivery to tissues and binding to inflammatory mediators. Evidences suggest that dysregulated erythrocyte function could contribute to the pathophysiology of several neurodegenerative diseases. We aimed to evaluate changes in morphological, biomechanical, and biophysical properties of erythrocytes from amyotrophic lateral sclerosis (ALS) patients, as new areas of study in this disease. Blood samples were collected from ALS patients, comparing with healthy volunteers. Erythrocytes were assessed using atomic force microscopy (AFM) and zeta potential analysis. The patients' motor and respiratory functions were evaluated using the revised ALS Functional Rating Scale (ALSFRS-R) and percentage of forced vital capacity (%FVC). Patient survival was also assessed. Erythrocyte surface roughness was significantly smoother in ALS patients, and this parameter was a predictor of faster decline in ALSFRS-R scores. ALS patients exhibited higher erythrocyte stiffness, as indicated by reduced AFM tip penetration depth, which predicted a faster ALSFRS-R score and respiratory subscore decay. A lower negative charge on the erythrocyte membrane was predictor of a faster ALSFRS-R and FVC decline. Additionally, a larger erythrocyte surface area was an independent predictor of lower survival. These changes in morphological and biophysical membrane properties of ALS patients' erythrocytes, lead to increased cell stiffness and morphological variations. We speculate that these changes might precipitate motoneurons dysfunction and accelerate disease progression. Further studies should explore the molecular alterations related to these observations. Our findings may contribute to dissect the complex interplay between respiratory function, tissue hypoxia, progression rate, and survival in ALS.

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红细胞的表面特性和硬度可预测 ALS 患者的存活率和功能衰退。
红细胞在向组织输送氧气和与炎症介质结合方面发挥着重要作用。有证据表明,红细胞功能失调可能导致多种神经退行性疾病的病理生理学。我们的目的是评估肌萎缩性脊髓侧索硬化症(ALS)患者红细胞形态学、生物力学和生物物理特性的变化,以此作为该疾病研究的新领域。研究人员采集了肌萎缩侧索硬化症患者的血液样本,并与健康志愿者进行了对比。使用原子力显微镜(AFM)和zeta电位分析对红细胞进行了评估。使用修订后的 ALS 功能评定量表(ALSFRS-R)和强迫生命容量百分比(%FVC)评估了患者的运动和呼吸功能。同时还评估了患者的存活率。ALS 患者的红细胞表面粗糙度明显更光滑,这一参数是 ALSFRS-R 评分下降更快的预测因子。ALS 患者的红细胞硬度较高,AFM 针尖穿透深度降低,这预示着 ALSFRS-R 评分和呼吸亚评分下降较快。红细胞膜上的负电荷越低,ALSFRS-R 和 FVC 下降越快。此外,红细胞表面积越大,存活率越低。ALS 患者红细胞膜形态和生物物理特性的这些变化导致细胞硬度和形态变化增加。我们推测,这些变化可能会导致运动神经元功能障碍,加速疾病进展。进一步的研究应探讨与这些观察结果相关的分子变化。我们的研究结果可能有助于剖析 ALS 患者呼吸功能、组织缺氧、进展速度和存活率之间复杂的相互作用。
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来源期刊
BioFactors
BioFactors 生物-内分泌学与代谢
CiteScore
11.50
自引率
3.30%
发文量
96
审稿时长
6-12 weeks
期刊介绍: BioFactors, a journal of the International Union of Biochemistry and Molecular Biology, is devoted to the rapid publication of highly significant original research articles and reviews in experimental biology in health and disease. The word “biofactors” refers to the many compounds that regulate biological functions. Biological factors comprise many molecules produced or modified by living organisms, and present in many essential systems like the blood, the nervous or immunological systems. A non-exhaustive list of biological factors includes neurotransmitters, cytokines, chemokines, hormones, coagulation factors, transcription factors, signaling molecules, receptor ligands and many more. In the group of biofactors we can accommodate several classical molecules not synthetized in the body such as vitamins, micronutrients or essential trace elements. In keeping with this unified view of biochemistry, BioFactors publishes research dealing with the identification of new substances and the elucidation of their functions at the biophysical, biochemical, cellular and human level as well as studies revealing novel functions of already known biofactors. The journal encourages the submission of studies that use biochemistry, biophysics, cell and molecular biology and/or cell signaling approaches.
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