Shin Jie Yong, Abhi Veerakumarasivam, Seong Lin Teoh, Wei Ling Lim, Jactty Chew
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引用次数: 0
Abstract
Parkinson’s disease (PD) is a common motor neurodegenerative disease that still lacks effective therapeutic options. Previous studies have reported that lactoferrin exhibited neuroprotective effects in cellular and animal models of PD, typically induced by 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) or 1-methyl-4-phenylpyridinium (MPP+) synthetic toxin. However, the neuroprotective capacity of lactoferrin in the rotenone-induced cellular model of PD remains relatively less established. Unlike MPTP/MPP+, rotenone is a naturally occurring environmental toxin known to induce chronic toxicity and increase the risk of PD in humans. In this study, we constructed a cellular model of PD by differentiating SH-SY5Y neuroblastoma cells with retinoic acid into mature dopaminergic neurons with increased β-tubulin III and tyrosine hydroxylase expression, followed by 24 h of rotenone exposure. Using this cellular model of PD, we showed that lactoferrin (1–10 µg/ml) pre-treatment for 48 h decreased loss of cell viability, mitochondrial membrane potential impairment, reactive oxygen species generation and pro-apoptotic activities (pan-caspase activation and nuclear condensation) in cells exposed to rotenone (1 and 5 µM) using biochemical assays, Hoechst 33342 staining and immunocytochemical techniques. We further demonstrated that 48 h of lactoferrin (10 µg/ml) pre-treatment decreased Bax:Bcl2 ratio and p42/44 mitogen-activated protein kinase expression but increased pAkt expression in 5 µM rotenone-exposed cells. Our study demonstrates that lactoferrin neuroprotective capacity is present in the rotenone-induced cellular model of PD, further supporting lactoferrin as a potential PD therapeutic that warrants further studies.
期刊介绍:
The Journal of Molecular Neuroscience is committed to the rapid publication of original findings that increase our understanding of the molecular structure, function, and development of the nervous system. The criteria for acceptance of manuscripts will be scientific excellence, originality, and relevance to the field of molecular neuroscience. Manuscripts with clinical relevance are especially encouraged since the journal seeks to provide a means for accelerating the progression of basic research findings toward clinical utilization. All experiments described in the Journal of Molecular Neuroscience that involve the use of animal or human subjects must have been approved by the appropriate institutional review committee and conform to accepted ethical standards.