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Review
. 2024 Dec 14;16(24):4318.
doi: 10.3390/nu16244318.

Erythrocyte Membrane Fluidity and Omega-3 Fatty Acid Intake: Current Outlook and Perspectives for a Novel, Nutritionally Modifiable Cardiovascular Risk Factor

Umberto Capece  1   2 Shawn Gugliandolo  1   2 Cassandra Morciano  1   2 Adriana Avolio  1   2 Amelia Splendore  1   2 Gianfranco Di Giuseppe  1   2 Gea Ciccarelli  1   2 Laura Soldovieri  1   2 Michela Brunetti  1   2 Teresa Mezza  1   2 Alfredo Pontecorvi  1   2 Andrea Giaccari  1   2 Francesca Cinti  1   2
Affiliations
Review

Erythrocyte Membrane Fluidity and Omega-3 Fatty Acid Intake: Current Outlook and Perspectives for a Novel, Nutritionally Modifiable Cardiovascular Risk Factor

Umberto Capece et al. Nutrients. .

Abstract

Omega-3 fatty acids reduce triglycerides and have several positive effects on different organs and systems. They are also found in the plasma membrane in variable amounts in relation to genetics and diet. However, it is still unclear whether omega-3 supplementation can reduce the occurrence of major cardiovascular events (MACEs). Two trials, REDUCE-IT (Reduction of Cardiovascular Events with Icosapent Ethyl-Intervention Trial), with highly purified EPA, and STRENGTH (Effect of High-Dose Omega-3 Fatty Acids vs. Corn Oil on Major Adverse Cardiovascular Events in Patients at High Cardiovascular Risk), with a combination of EPA and DHA, have produced different outcomes, triggering a scientific debate on possible explanations for the discrepancies. Furthermore, doubts have arisen as to the anti-inflammatory and anti-aggregating activity of these compounds. Recent studies have, however, highlighted interesting effects of EPA and DHA on erythrocyte membrane fluidity (EMF). EMF is governed by a complex and dynamic biochemical framework, with fatty acids playing a central role. Furthermore, it can be easily measured in erythrocytes from a blood sample using fluorescent probes. Recent research has also shown that EMF could act as a possible cardiovascular risk factor biomarker. This review aims to synthetize the latest evidence on erythrocyte membrane fluidity, exploring its potential role as a biomarker of residual cardiovascular risk and discussing its clinical relevance. Further, we aim to dissect the possible biological mechanisms that link omega-3 modifiable membrane fluidity to cardiovascular health.

Keywords: DHA; EPA; RBC; erythrocyte membrane fluidity; omega-3; omega-6; residual cardiovascular risk.

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Conflict of interest statement

The authors declare no conflicts of interest.

Figures

Figure 1
Figure 1
This figure is a comprehensive illustration of the latest evidence on erythrocyte membrane fluidity: (A) This image was obtained through confocal microscopy after staining a blood sample with a specific probe (Laurdan). This probe is characterized by a shift in the emission spectrum reflecting the lipid phase state of the environment (bluish in ordered gel phases and greenish in disordered liquid–crystalline phases). After staining, five images of Laurdan emission intensity were acquired concurrently in two distinct channels (emission filter: 450/50 nm for the blue channel, 525/50 nm for the green channel) using a 60× immersion-oil objective. Generalized polarization (GP) was calculated as follows: GP = Iblue − G Igreen/Iblue + G Igreen, where Iblue and Igreen are the intensities for the blue and green channels, respectively, and G is a calibration factor that depends on the experimental setup. GP is a measure of membrane fluidity. (B) Longitudinal section of an erythrocyte. (C) Description of the main components of the erythrocyte membrane.
See this image and copyright information in PMC

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