Signaling roles of sphingolipids in the ischemic brain and their potential utility as therapeutic targets

鞘脂 神经科学 生物 计算生物学 细胞生物学
作者
Ayan Mohamud Yusuf,Xiaoni Zhang,Erich Gulbins,Ying Peng,Nina Hagemann,Dirk M. Hermann
出处
期刊:Neurobiology of Disease [Elsevier BV]
卷期号:201: 106682-106682 被引量:14
标识
DOI:10.1016/j.nbd.2024.106682
摘要

Sphingolipids comprise a class of lipids, which are composed of a sphingoid base backbone and are essential structural components of cell membranes. Beyond their role in maintaining cellular integrity, several sphingolipids are pivotally involved in signaling pathways controlling cell proliferation, differentiation, and death. The brain exhibits a particularly high concentration of sphingolipids and dysregulation of the sphingolipid metabolism due to ischemic injury is implicated in consecutive pathological events. Experimental stroke studies revealed that the stress sphingolipid ceramide accumulates in the ischemic brain post-stroke. Specifically, counteracting ceramide accumulation protects against ischemic damage and promotes brain remodeling, which translates into improved behavioral outcome. Sphingomyelin substantially influences cell membrane fluidity and thereby controls the release of extracellular vesicles, which are important vehicles in cellular communication. By modulating sphingomyelin content, these vesicles were shown to contribute to behavioral recovery in experimental stroke studies. Another important sphingolipid that influences stroke pathology is sphingosine-1-phosphate, which has been attributed a pro-angiogenic function, that is presumably mediated by its effect on endothelial function and/or immune cell trafficking. In experimental and clinical studies, sphingosine-1-phosphate receptor modulators allowed to modify clinically significant stroke recovery. Due to their pivotal roles in cell signaling, pharmacological compounds modulating sphingolipids, their enzymes or receptors hold promise as therapeutics in human stroke patients. • Ischemic stroke leads to dysregulation of the sphingolipid metabolism. • Ceramide accumulation occurring post-stroke deteriorates injury and inhibiting its metabolizing enzymes enhances recovery. • S1P receptor modulation influences vascular function and immune cell trafficking post-stroke. • Sphingolipids are important for the formation and release of extracellular vesicles that stimulate brain remodeling.
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