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

Author:

Lopes Catarina S.1ORCID,Pronto‐Laborinho Ana Catarina1,Conceição Vasco A.1,Freitas Teresa1,Matias Gonçalo L.1,Gromicho Marta1,Santos Nuno C.1ORCID,de Carvalho Mamede12,Carvalho Filomena A.1ORCID

Affiliation:

1. Instituto de Medicina Molecular Faculdade de Medicina, Universidade de Lisboa Lisbon Portugal

2. Department of Neurosciences and Mental Health Centro Hospitalar Universitário Lisboa Norte (CHULN) Lisbon Portugal

Abstract

AbstractErythrocytes 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.

Funder

Fundação para a Ciência e a Tecnologia

Publisher

Wiley

Subject

Clinical Biochemistry,Molecular Medicine,General Medicine,Biochemistry

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