L-DOPA 通过星形胶质细胞的特异性 L-DOPA 受体 GPR143 促进功能性增殖

IF 4.1 3区 医学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY
Ye-Ji Kim, Gyeong Min Park, Woo Kyung Cho, Dong Ho Woo
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引用次数: 0

摘要

l-3,4-二羟基苯丙氨酸(本文中为左旋多巴和 L-DOPA)与多巴胺一样,具有很高的生物相容性,因此工业界需要将其用作涂层材料。事实上,左旋多巴作为一种口服治疗剂,可用于治疗脑神经退行性疾病,尤其是帕金森病(PD),其疗效正在稳步上升。然而,L-DOPA 对星形胶质细胞(大脑中主要的胶质细胞和数量最多的胶质细胞)的生长和功能的影响尚不清楚。在此,我们研究了 L-DOPA 是否可以作为大鼠原代星形胶质细胞在盖玻片和聚苯乙烯上的涂层材料。我们通过 X 射线光电子能谱(XPS)和静态水接触角(WCA)对 L-DOPA 在盖板玻璃和聚苯乙烯上的涂覆状态进行了表征。有趣的是,涂布在盖板玻璃上的 L-DOPA 促进了星形胶质细胞的增殖,但并没有促进神经元的增殖。此外,与聚苯乙烯相比,涂在盖玻片上的 L-DOPA 能促进星形胶质细胞的增殖。在涂有 L-DOPA 的盖玻片上生长的星形胶质细胞通过激活蛋白酶活化受体亚型 1(PAR-1)表现出功能性受体活化 Ca2+ 瞬态,而 PAR-1 是公认的星形胶质细胞功能标记。然而,涂有 0、500、1000、2000 和 4000 μg/mL L-DOPA 的盖玻片能维持星形胶质细胞的活力,而补充 500 和 1000 μM L-DOPA 则会显著降低星形胶质细胞的活力。这表明,游离 500 和 1000 μM L-DOPA 能显著减少星形胶质细胞的数量。与涂有聚二赖氨酸(PDL)的盖玻片上的星形胶质细胞相比,涂有 L-DOPA 的盖玻片上的星形胶质细胞的活力降低了。这表明 L-DOPA 通过激活 GPR143 信号通路促进星形胶质细胞增殖。这些发现意味着 L-DOPA 可通过激活 GPR143 使功能性星形胶质细胞增殖。这些结果首次报道了左旋多巴涂覆盖玻片可通过激活 GPR143 使大鼠原发性星形胶质细胞增殖。左旋多巴能增强细胞粘附性这一发现能在多个方面对研究产生重大影响。它为细胞行为、疾病机制以及组织工程和再生医学中的潜在治疗应用提供了见解。此外,它还为探索改进细胞疗法和组织再生的新方法提供了机会。总之,这一发现开辟了新的研究途径,对各个科学领域都有广泛的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
L-DOPA Promotes Functional Proliferation Through GPR143, Specific L-DOPA Receptor of Astrocytes.

l-3,4-Dihydroxyphenylalanine (levodopa and L-DOPA in this text), alongside dopamine, boasts high biocompatibility, prompting industrial demand for its use as a coating material. Indeed, the effectiveness of L-DOPA is steadily rising as it serves as an oral therapeutic agent for neurodegenerative brain diseases, particularly Parkinson's disease (PD). However, the effects of L-DOPA on the growth and function of astrocytes, the main glial cells, and the most numerous glial cells in the brain, are unknown. Here, we investigated whether L-DOPA is possible as a coating material on cover glass and polystyrene for rat primary astrocytes. The coating state of L-DOPA on the cover glass and polystyrene was characterized by X-ray photoelectron spectroscopy (XPS) and static water contact angle (WCA). Interestingly, L-DOPA coated on the cover glass promoted the proliferation of astrocytes but not neurons. Furthermore, L-DOPA coated on the cover glass, as opposed to polystyrene, facilitated the proliferation of the astrocytes. The astrocytes grown on L-DOPA-coated cover glasses exhibited functional receptor-activated Ca2+ transients through the activation of protease-activated receptor subtype 1 (PAR-1), recognized as an astrocytic functional marker. However, cover glass coated with 0, 500, 1000, 2000, and 4000 μg/mL L-DOPA maintained astrocyte viability, while supplementation with 500 and 1000 μM L-DOPA significantly decreased astrocyte viability. This suggests that treatments with free 500 and 1000 μM L-DOPA significantly reduced the number of astrocytes. Both Pimozide, an inhibitor of G protein-coupled receptor 143 (GPR143), also known as Ocular albinism type 1 (OA1), and CCG2046, an inhibitor of regulator of G protein signaling 4 (RGS4), reduced the viability of astrocytes on cover glass coated with L-DOPA compared to astrocytes on cover glass coated with poly-d-lysine (PDL). This suggests that L-DOPA promotes astrocyte proliferation through activation of the GPR143 signaling pathway. These findings imply that L-DOPA proliferates functional astrocytes through the activation of GPR143. These results are the first report that L-DOPA coating cover glass proliferates rat primary astrocytes with the activation of GPR143. The discovery that levodopa enhances cell adhesion can significantly influence research in multiple ways. It provides insights into cell behavior, disease mechanisms, and potential therapeutic applications in tissue engineering and regenerative medicine. Additionally, it offers opportunities to explore novel approaches for improving cell-based therapies and tissue regeneration. Overall, this finding opens up new avenues for research, with broad implications across various scientific fields.

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来源期刊
ACS Chemical Neuroscience
ACS Chemical Neuroscience BIOCHEMISTRY & MOLECULAR BIOLOGY-CHEMISTRY, MEDICINAL
CiteScore
9.20
自引率
4.00%
发文量
323
审稿时长
1 months
期刊介绍: ACS Chemical Neuroscience publishes high-quality research articles and reviews that showcase chemical, quantitative biological, biophysical and bioengineering approaches to the understanding of the nervous system and to the development of new treatments for neurological disorders. Research in the journal focuses on aspects of chemical neurobiology and bio-neurochemistry such as the following: Neurotransmitters and receptors Neuropharmaceuticals and therapeutics Neural development—Plasticity, and degeneration Chemical, physical, and computational methods in neuroscience Neuronal diseases—basis, detection, and treatment Mechanism of aging, learning, memory and behavior Pain and sensory processing Neurotoxins Neuroscience-inspired bioengineering Development of methods in chemical neurobiology Neuroimaging agents and technologies Animal models for central nervous system diseases Behavioral research
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