Abstract
Sciatic nerve injury (SNI) leads to sensory and motor dysfunctions. Nobiletin is a major component of polymethoxylated flavonoid extracted from citrus fruits. The role of nobiletin on sciatic nerve regeneration is still unclear. Thus, the purpose of this study was to investigate whether nobiletin increases DRG neurite elongation and regeneration-related protein expression after SNI. Cytotoxicity of nobiletin was measured in a concentration–dependent manner using the MTT assay. For an in vitro primary cell culture, the sciatic nerve on the middle thigh was crushed by holding twice with forceps. Dorsal root ganglion (DRG) and Schwann cells were cultured 3 days after SNI and harvested 36 h later and 3 days later, respectively. In order to evaluate specific regeneration-related markers and axon growth in the injured sciatic nerve, we applied immunofluorescence staining and Western blot techniques. Nobiletin increased cell viability in human neuroblastoma cells and inhibited cytotoxicity induced by exposure to H2O2. Mean neurite length of DRG neurons was significantly increased in the nobiletin group at a dose of 50 and 100 μM compared to those at other concentrations. GAP-43, a specific marker for axonal regeneration, was enhanced in injury preconditioned Schwann cells with nobiletin treatment and nobiletin significantly upregulated it in injured sciatic nerve at only 3 days post crush (dpc). In addition, nobiletin dramatically facilitated axonal regrowth via activation of the BDNF-ERK1/2 and AKT pathways. These results should provide evidence to distinguish more accurately the biochemical mechanisms regarding nobiletin-activated sciatic nerve regeneration.
Highlights
Sciatic nerve injury (SNI) has been known to induce sensory and motor dysfunctions as well as autonomic function disorders [3,4], and patients with SNI eventually suffer from long-term morbidity and incur high treatment costs
Previous studies on sciatic nerve regeneration suggested that Wallerian degeneration, in which axons in the distal segment disappear immediately after SNI, is the cause of these morbidity and economics [5]
To investigate the effect of nobiletin on cell viability, we analyzed the cytotoxicity of nobiletin in a concentration-dependent method using the SH-SY5Y cells
Summary
The peripheral nervous system (PNS) consists of somatic and autonomic nerves, and serves to transmit electrical impulses from the central nervous system (CNS) to peripheral tissues. The sciatic nerve, the largest peripheral nerve in the human body, has a high incidence of damage in sports or daily life due to various anatomical changes such as herniation of intervertebral discs or compression of the piriform muscle [1,2]. Sciatic nerve injury (SNI) has been known to induce sensory and motor dysfunctions as well as autonomic function disorders [3,4], and patients with SNI eventually suffer from long-term morbidity and incur high treatment costs. Previous studies on sciatic nerve regeneration suggested that Wallerian degeneration, in which axons in the distal segment disappear immediately after SNI, is the cause of these morbidity and economics [5]
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