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Volume 227, 1 February 2025, Pages 276-281
Abstract
Nitric oxide plays a critical role in regulating vascular tone, but excessive nitric oxide release during septic shock results in hypotension due to excessive vasodilation and the formation of toxic free radicals. VBI-S is a phospholipid nanoparticle based fluid composed of lipid bilayers formed primarily by phosphatidylcholine and micelles of soybean oil encapsulated by a monolayer of phosphatidylcholine. These nanoparticles offer a novel solution by absorbing and redistributing nitric oxide and nitrite, potentially mitigating the harmful effects of excessive nitric oxide in sepsis. This paper proposes a mechanism in which VBI-S not only redistributes nitric oxide but also reduces ischemia-reperfusion injury by limiting the production and availability of reactive species. VBI-S captures nitric oxide and nitrite in areas of high concentration and redistributes them in low-nitric oxide environments, primarily within oxygen-deprived tissues. Nitrite then contributes to nitric oxide regeneration in hypoxic microvasculature via various reduction pathways, thereby improving tissue perfusion and minimizing oxidative stress. Preliminary studies suggest that nitrite may also decrease reactive species production, primarily superoxide, through the inhibition of mitochondrial complex I. Additionally, the lipid composition of VBI-S is rich in poly and monounsaturated fatty acids which allows VBI-S to act as a substrate for peroxidation via peroxynitrite. Therefore, VBI-S acts as a decoy target thereby protecting cellular membranes from oxidative damage caused by reactive species. These findings position VBI-S as a promising therapeutic agent, offering both nitric oxide regulation and protection against hypotension and toxic free radicals in septic shock patients. Further research is necessary to fully elucidate the molecular pathways and optimize its clinical application.
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