神经营养反式邦烯的蛋白质组学研究揭示了铁稳态的潜在联系。

IF 4.6 2区医学 Q1 NEUROSCIENCES

Molecular Neurobiology Pub Date : 2025-07-01 Epub Date: 2025-03-14 DOI:10.1007/s12035-025-04772-1

Piyumi B Wijesiri Gunawardana, Khyati Gohil, Kyung-Mee Moon, Leonard J Foster, Florence J Williams

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引用次数: 0

摘要

为了深入了解受神经营养反式苯丙烯（t-BG）影响的细胞系统，采用了全球蛋白质组学分析和Western blot分析。将t-BG治疗后的表达水平变化与神经生长因子（NGF）治疗后的表达水平变化进行比较，NGF是一种天然神经营养蛋白，功能类似于t-BG。这些研究的发现并没有指向t-BG直接阻断NGF/TrkA信号。相反，观察到铁结合蛋白和铁调节蛋白的显著变化。虽然总铁水平在所有处理中都没有变化，但细胞内铁测量和线粒体铁测量显示，t-BG处理的细胞中亚铁（Fe2+）离子水平较低，而NGF处理的细胞中没有。这些结果强调了铁调节和神经营养活动之间的潜在联系，这种关系迄今尚未得到很好的研究。这些结果也值得注意，因为大多数神经退行性疾病发生铁调节失调，铁已被证明促进蛋白质聚集和凋亡机制。

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Proteomic Investigation of Neurotrophic trans-Banglene Reveals Potential Link to Iron Homeostasis.

In an effort to gain insight into cellular systems impacted by neurotrophic trans-banglene (t-BG), global proteomic profiling and Western blot analyses were employed. Expression level changes in response to t-BG treatment were compared to those observed with nerve growth factor (NGF), a natural neurotrophic protein and functional analog to t-BG. Findings from these studies did not point to direct interception of NGF/TrkA signaling by t-BG. Instead, significant alterations in iron-binding and iron-regulating proteins were observed. While total iron levels showed no change across all treatments, intracellular iron measurements and mitochondrial iron measurements demonstrated lower ferrous (Fe²⁺) ion levels in t-BG treated cells but not in NGF treated cells. These results highlight a potential connection between iron regulation and neurotrophic activity, a relationship which has, to date, not been well studied. These results are also notable given that iron dysregulation occurs in most neurodegenerative disease settings, and that iron has been shown to facilitate protein aggregation and apoptotic mechanisms.

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来源期刊

Molecular Neurobiology 医学-神经科学

CiteScore

9.00

自引率

2.00%

发文量

480

审稿时长

1 months

期刊介绍： Molecular Neurobiology is an exciting journal for neuroscientists needing to stay in close touch with progress at the forefront of molecular brain research today. It is an especially important periodical for graduate students and "postdocs," specifically designed to synthesize and critically assess research trends for all neuroscientists hoping to stay active at the cutting edge of this dramatically developing area. This journal has proven to be crucial in departmental libraries, serving as essential reading for every committed neuroscientist who is striving to keep abreast of all rapid developments in a forefront field. Most recent significant advances in experimental and clinical neuroscience have been occurring at the molecular level. Until now, there has been no journal devoted to looking closely at this fragmented literature in a critical, coherent fashion. Each submission is thoroughly analyzed by scientists and clinicians internationally renowned for their special competence in the areas treated.