Birgit Kastberger, Anupam Sah, Simone B Sartori, Nicolas Singewald, Zita Liutkevičiūtė, Angela Risch, Jutta Horejs-Höck, Winfried Neuhaus, Julia Schartner, Lisa-Franziska Seidl, Stefan Winter
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引用次数: 0
Abstract
This study investigates the effects of N‑PEP‑12, a neuroprotective dietary supplement, on cognitive function, neuroplasticity, and neurogenesis in aged 129S1/SvImJ (S1) mice, which are known for age‑associated cognitive impairments. The primary objective was to determine whether N‑PEP‑12 could improve memory retention and enhance neural health by modulating hippocampal plasticity and neurogenesis. S1 mice were chronically treated with N‑PEP‑12 or a Vehicle to assess its impact on cognitive performance using cued fear conditioning (CFC) and object location memory (OLM) tests. Additionally, in vitro studies examined the effects of N‑PEP‑12 on neuroplasticity markers such as Neurofilament Light Chain (NF‑L) expression and vasopressin (AVP) promoter methylation, to elucidate the molecular mechanisms underlying cognitive enhancements. N‑PEP‑12 treatment significantly improved associative and contextual memory in the CFC and OLM tests respectively. In vitro assays revealed that N‑PEP‑12 increased NF‑L expression and decreased AVP promoter methylation, indicating enhanced neuroplasticity and neurogenesis. Furthermore, N‑PEP‑12 preserved blood‑brain barrier integrity under oxidative stress conditions, suggesting a protective role against vascular‑related cognitive decline. The findings suggest that N‑PEP‑12 promotes hippocampal health by enhancing neurogenesis and neuroplasticity, potentially mitigating age‑related cognitive decline. These results highlight N‑PEP‑12 as a promising agent for supporting healthy cognitive function in aging populations through the modulation of neurobiological pathways associated with learning and memory.
本研究调查了N - PEP - 12(一种神经保护膳食补充剂)对老年129S1/SvImJ (S1)小鼠的认知功能、神经可塑性和神经发生的影响,这些小鼠已知存在与年龄相关的认知障碍。主要目的是确定N - PEP - 12是否可以通过调节海马可塑性和神经发生来改善记忆保留和增强神经健康。S1小鼠长期接受N - PEP - 12或Vehicle治疗,通过线索恐惧条件反射(CFC)和物体定位记忆(OLM)测试评估其对认知表现的影响。此外,体外研究检测了N - PEP - 12对神经可塑性标志物(如神经丝轻链(NF - L)表达和抗利尿激素(AVP)启动子甲基化)的影响,以阐明认知增强的分子机制。在CFC和OLM测试中,N - PEP - 12治疗分别显著改善了联想记忆和情境记忆。体外实验显示,N - PEP - 12增加了NF - L表达,降低了AVP启动子甲基化,表明神经可塑性和神经发生增强。此外,N - PEP - 12在氧化应激条件下保持了血脑屏障的完整性,这表明它对血管相关的认知能力下降具有保护作用。研究结果表明,N - PEP - 12通过增强神经发生和神经可塑性来促进海马健康,可能减轻与年龄相关的认知能力下降。这些结果突出了N - PEP - 12作为一种有前景的药物,通过调节与学习和记忆相关的神经生物学通路,支持老年人健康的认知功能。
期刊介绍:
The Journal of Dietary Supplements (formerly the Journal of Nutraceuticals, Functional & Medical Foods) has been retitled to reflect the bold departure from a traditional scientific journal presentation to a leading voice for anyone with a stake in dietary supplements. The journal addresses important issues that meet the broad range of interests from researchers, regulators, marketers, educators, and health professionals from academic, governmental, industry, healthcare, public health, and consumer education sectors. This vital tool not only presents scientific information but interprets it - helping you more readily pass it on to your students, patients, clients, or company.
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