AI Article Synopsis
- Epidemiological studies show a strong connection between particulate matter (PM) exposure and cardiovascular diseases, prompting this research on the role of platelet-derived extracellular vesicles (PEVs) and PM-exposed vesicles (PMEVs) in cardiovascular injury.
- The study utilized advanced separation techniques to analyze various sizes of PEVs and PMEVs, revealing that PM exposure alters the composition and function of these vesicles.
- Findings indicate that smaller PMEVs significantly impact cell survival and contain altered lipids and miRNAs related to inflammation and cell signaling, suggesting new potential biomarkers and treatment targets for cardiovascular issues linked to PM exposure.
Article Abstract
Epidemiological evidence has indicated a closely link between PM exposure and the incidence rate of cardiovascular diseases. This study explores the underlying communication roles of platelet-derived extracellular vesicles (PEVs) heterogeneous subpopulations in cardiovascular injury. PEVs and PMEVs which were extracted from platelet-rich plasma (PRP) un-exposure or exposure to PM by TIM4 affinity beads. By optimizing separation conditions, replacing pipelines, and resetting injection procedures, Asymmetric flow field-flow fractionation (AF4) was employed to separate, purify, characterize, and enrich PEVs and PMEVs heterogeneous subpopulations (small PEVs, PEVs-S/PMEVs-S: <100 nm; medium PEVs, PEVs-M/PMEVs-M: 100-200 nm; and large PEVs, PEVs-L/PMEVs-L: >200 nm). The results showed that the cargoes of PMEVs heterogeneous subpopulations which were released by PRP stimulated by PM were changed obviously. Moreover, compared with PEVs, PMEVs can lead to a decrease in the survival rate of Human Umbilical Vein Endothelial Cells (HUVECs). In PMEVs-S subpopulations, the alterations of lipids associated with membrane fusion and cell signaling transport (such as PC, Cer), as well as miRNAs related to inflammation, angiogenesis, and migration (miR-223, miR-22, miR-126, and miR-150), are similar to those in PMEVs-M subpopulations but distinct from PMEVs-L subpopulations. This study revealed the diverse communication mechanisms underlying PM-induced cardiovascular injury, thereby offering potential avenues for the development of new biomarkers and therapeutic targets.
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| http://dx.doi.org/10.1016/j.envpol.2024.123845 | DOI Listing |
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