经紫外线预处理的带有平行微通道的 CR-39 支架上的 PC12 在 660 纳米低强度激光的激活下分化为神经元细胞

IF 2.9 2区 医学 Q2 BIOCHEMICAL RESEARCH METHODS Biomedical optics express Pub Date : 2024-07-12 DOI:10.1364/boe.530876
Somayeh Hashamdar, P. Parvin, Fatemeh Ramezani, Fatemeh Ahmadinouri, Amir Jafargholi, M. Refahizadeh, Mahzad Akbarpour, Mohammadreza Aghaei, O. Heidari
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引用次数: 0

摘要

中枢和外周神经系统中受伤的神经元缺乏再生能力,导致患者受损组织修复失败。虽然大多数神经退行性疾病都无法彻底治愈,但能促进神经元增殖和分化的新治疗方法却备受关注。神经元细胞在损伤后无法增殖、缺乏初始刺激、中枢神经系统神经元周围的微环境含有多种抑制因子等难题阻碍了神经元的再生,因此,在目前的治疗中,创造一种类似细胞外基质的结构有助于细胞增殖。本文介绍了一种基于新型合成支架的 PC12 细胞神经元样细胞快速分化方法。首先,在高剂量 ArF 紫外线准分子激光(1000 次,300 mJ/脉冲,相当于 193 纳米波长下 300 J/cm2)下对聚烯丙基二醇碳酸酯(CR-39)基底进行纹理处理,以形成间距为微米、宽度为亚微米的表层周期性平行微通道。紫外线处理过的 CR-39(UT CR-39)为加速 PC12 细胞的转化/分化提供了合适的支架。后者是大鼠肾上腺髓质的嗜铬细胞瘤,胚胎起源于神经嵴,通常暴露于神经生长因子(NGF)。事实上,PC12 细胞被播种在微通道上,同时受到治疗窗口内波长为 660 纳米的相干红色光子的刺激。在光生物调制(PBM)机制方面,UT CR-39 支架在 12 分钟的激光激活后可获得 30% 的额外改善。相干光子对细胞的激活还能促进细胞的增殖/分化。在这里,根据免疫细胞化学(ICC)和基于 MAP2 和突触素-1 蛋白表达的 Western Blot 验证测试,PC12 细胞有效地分化成了神经元。总的来说,UT CR-39 作为一种优质床,可将神经元样细胞的数量提高到未经处理(对照)细胞的三倍。我们的结论是,紫外线照射导致的表面交联以及随后诱导的亲水性显著促进了 PC12 神经元样细胞的分化,而无需添加 NGF。
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PC12 differentiation to neuron cells activated by a low-level laser at 660 nm on UV pre-treated CR-39 scaffolds with parallel microchannels
The lack of regeneration of injured neurons in the central and peripheral neural system leads to the failure of damaged tissue repair in patients. While there is no definitive cure for most neurodegenerative diseases, new therapeutic methods that cause the proliferation and differentiation of neurons are of interest. Challenges such as the inability of neuronal cells to proliferate after injury, the lack of a stimulus for initial stimulation, and the presence of the microenvironment around CNS neurons contain several inhibitory factors that prevent neuron regeneration, thus, creating a structure similar to the extracellular matrix helps the cell proliferation in current treatment. A rapid method of neuron-like cell differentiation of PC12 cells is introduced here based on a novel synthetic scaffold. Initially, poly allyldiglycol carbonate (CR-39) substrate is textured under a high dose of ArF UV excimer laser (1000 shot, 300 mJ/pulse equivalent to 300 J/cm2 at 193 nm) to create superficial periodic parallel microchannels with the micrometer spacing and sub-micron width. Ultraviolet treated CR-39 (UT CR-39) provides a suitable scaffold to speed up the transformation/differentiation of PC12 cells. The latter is pheochromocytoma of the rat adrenal medulla as an embryonic origin from the neural crest usually exposed to the nerve growth factor (NGF). In fact, PC12 cells are seeded on the microchannels and simultaneously are stimulated by coherent red photons at 660 nm within the therapeutic window. The UT CR-39 scaffold undergoes extra improvement of ∼ 30% after 12 minutes of laser activation regarding the photo-biomodulation (PBM) mechanism. The cell activation due to the coherent photons also gives rise to enhanced proliferation/differentiation. Here, PC12 cells are efficiently differentiated into neurons according to immunocytochemistry (ICC) and Western Blot verification tests based on MAP2 and synapsin-1 protein expression. In general, UT CR-39 acts as a superior bed to elevate the population of neuron-like cells up to threefold against those of untreated (control)ones. We conclude that the surface cross-linking due to UV exposure and subsequent induced hydrophilicity notably contribute to the neuron-like cell differentiation of PC12 without adding NGF.
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来源期刊
Biomedical optics express
Biomedical optics express BIOCHEMICAL RESEARCH METHODS-OPTICS
CiteScore
6.80
自引率
11.80%
发文量
633
审稿时长
1 months
期刊介绍: The journal''s scope encompasses fundamental research, technology development, biomedical studies and clinical applications. BOEx focuses on the leading edge topics in the field, including: Tissue optics and spectroscopy Novel microscopies Optical coherence tomography Diffuse and fluorescence tomography Photoacoustic and multimodal imaging Molecular imaging and therapies Nanophotonic biosensing Optical biophysics/photobiology Microfluidic optical devices Vision research.
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