Omega-3 and -6 Fatty Acids Alter the Membrane Lipid Composition and Vesicle Size to Regulate Exocytosis and Storage of Catecholamines

Gu, Chaoyi; Philipsen, Mai H.; Ewing, Andrew G.

doi:10.1021/acschemneuro.3c00741

ACS Chem. Neurosci.

2024

DOI: 10.1021/acschemneuro.3c00741

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Omega-3 and -6 Fatty Acids Alter the Membrane Lipid Composition and Vesicle Size to Regulate Exocytosis and Storage of Catecholamines

Chaoyi Gu,

Mai H. Philipsen,

Andrew G. Ewing

Abstract: The two essential fatty acids, alpha-linolenic acid and linoleic acid, and the higher unsaturated fatty acids synthesized from them are critical for the development and maintenance of normal brain functions. Deficiencies of these fatty acids have been shown to cause damage to the neuronal development, cognition, and locomotor function. We combined electrochemistry and imaging techniques to examine the effects of the two essential fatty acids on catecholamine release dynamics and the vesicle content as well as … Show more

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Single-Vesicle Electrochemistry Reveals Polysaccharide from Glochidion eriocarpum Champ. Regulates Vesicular Storage and Exocytotic Release of Dopamine

Cao,

Zhang,

et al. 2024

Anal. Chem.

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Polysaccharides, which are well-known natural macromolecules, have been recognized for their protective effects on neurons and their influence on extracellular dopamine levels in the brain. It is crucial to investigate the impact of plant polysaccharides on neurotransmission, particularly regarding the vesicular storage and exocytosis of neurotransmitters. In this study, we demonstrated the possibility of studying how the polysaccharide from Glochidion eriocarpum Champ.(GPS) affects vesicle dopamine content and the dynamics of exocytosis in pheochromocytoma (PC12) cells using single-cell amperometry (SCA) and intracellular vesicle impact electrochemical cytometry (IVIEC). Our results unambiguously demonstrate that GPS effectively enhances vesicular neurotransmitter content and alters the dynamics of exocytosis, favoring a smaller fraction of content released in exocytotic release, thereby inducing the partial release mode. These significant effects are attributed to GPS’s efficient elevation of calcium influx, significant alteration in the composition of exocytosis-related membrane lipids, and enhancement of free radical scavenging ability. These findings not only establish GPS as a promising candidate for preventive or therapeutic interventions against neurodegenerative disorders but also reiterate the importance of screening native neurologic drugs with single-vesicle electrochemical approaches, the combination of SCA and IVIEC, from a neurotransmitter-centric perspective.

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Single-Vesicle Electrochemistry Reveals Polysaccharide from Glochidion eriocarpum Champ. Regulates Vesicular Storage and Exocytotic Release of Dopamine

Cao,

Zhang,

et al. 2024

Anal. Chem.

View full text Add to dashboard Cite

show abstract

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Omega-3 and -6 Fatty Acids Alter the Membrane Lipid Composition and Vesicle Size to Regulate Exocytosis and Storage of Catecholamines

Cited by 1 publication

References 67 publications

Single-Vesicle Electrochemistry Reveals Polysaccharide from Glochidion eriocarpum Champ. Regulates Vesicular Storage and Exocytotic Release of Dopamine

Single-Vesicle Electrochemistry Reveals Polysaccharide from Glochidion eriocarpum Champ. Regulates Vesicular Storage and Exocytotic Release of Dopamine

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