Abstract
ABSTRACTAs a complex biological fluid, human synovial fluid (SF) presents challenges for extracellular vesicle (EV) enrichment using standard methods. In this study of human SF, a size exclusion chromatography (SEC)-based method of EV enrichment is shown to deplete contaminants that remain after standard ultracentrifugation-based enrichment methods. Specifically, considerable levels of serum albumin, the high-density lipoprotein marker, apolipoprotein A-I, fibronectin and other extracellular proteins and debris are present in EVs prepared by differential ultracentrifugation. While the addition of a sucrose density gradient purification step improved purification quality, some contamination remained. In contrast, using a SEC-based approach, SF EVs were efficiently separated from serum albumin, apolipoprotein A-I and additional contaminating proteins that co-purified with high-speed centrifugation. Finally, using high-resolution mass spectrometry analysis, we found that residual contaminants which remain after SEC, such as fibronectin and other extracellular proteins, can be successfully depleted by proteinase K. Taken together, our results highlight the limitations of ultracentrifugation-based methods of EV isolation from complex biological fluids and suggest that SEC can be used to obtain higher purity EV samples. In this way, SEC-based methods are likely to be useful for identifying EV-enriched components and improving understanding of EV function in disease.
Highlights
Synovial fluid (SF) lubricates synovial joints to provide a low-friction environment that allows joint movement, and it nourishes avascular articular cartilage
As differential ultracentrifugation is the standard means of extracellular vesicle (EV) preparation, we first assessed this technique for isolating EVs from SF
The high-density lipoproteins (HDLs) marker apolipoprotein A-I (ApoA-I) and the extracellular matrix constituent fibronectin were detected, indicating contamination with components not typically associated with EVs
Summary
Synovial fluid (SF) lubricates synovial joints to provide a low-friction environment that allows joint movement, and it nourishes avascular articular cartilage. In diseases such as rheumatoid arthritis (RA), increased levels of extracellular vesicles (EVs) in SF have been observed [1]. SF EVs are described as having potent pro-inflammatory properties that might contribute to the perpetuation of joint inflammation in RA [1,3,4,5]. Understanding the composition and function of SF EVs is of great interest and may provide insight into pathogenesis of joint diseases
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