Proliferation of SH-SY5Y neuroblastoma cells on confined spaces

IF 2.7 4区 医学 Q2 BIOCHEMICAL RESEARCH METHODS
Ewelina Kalwarczyk , Agnieszka Lukasiak , Damian Woznica , Weronika Switlik , Julia Anchimowicz , Piotr Zielonka , Slawomir Jakiela
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引用次数: 0

Abstract

Background:

Microfluidics offers precise drug delivery and continuous monitoring of cell functions, which is crucial for studying the effects of toxins and drugs. Ensuring proper cell growth in these space-constrained systems is essential for obtaining consistent results comparable to standard Petri dishes.

New method:

We investigated the proliferation of SH-SY5Y cells on circular polycarbonate chambers with varying surface areas. SH-SY5Y cells were chosen for their relevance in neurodegenerative disease research.

Results:

Our study demonstrates a correlation between the chamber surface area and SH-SY5Y cell growth rates. Cells cultured in chambers larger than 10 mm in diameter exhibited growth comparable to standard 60-mm dishes. In contrast, smaller chambers significantly impeded growth, even at identical seeding densities. Similar patterns were observed for HeLaGFP cells, while 16HBE14σ cells proliferated efficiently regardless of chamber size. Additionally, SH-SY5Y cells were studied in a 12-mm diameter sealed chamber to assess growth under restricted gas exchange conditions.

Comparison with existing methods:

Our findings underscore the limitations of small chamber sizes in microfluidic systems for SH-SY5Y cells, an issue not typically addressed by conventional methods.

Conclusions:

SH-SY5Y cell growth is highly sensitive to spatial constraints, with markedly reduced proliferation in chambers smaller than 10 mm. This highlights the need to carefully consider chamber size in microfluidic experiments to achieve cell growth rates comparable to standard culture dishes. The study also shows that while SH-SY5Y and HeLaGFP cells are affected by chamber size, 16HBE14σ cells are not. These insights are vital for designing effective microfluidic systems for bioengineering research.

SH-SY5Y 神经母细胞瘤细胞在密闭空间增殖。
背景:微流控技术可提供精确的药物输送和对细胞功能的连续监测,这对研究毒素和药物的作用至关重要。要获得与标准培养皿相当的一致结果,确保细胞在这些空间受限的系统中正常生长至关重要:我们研究了 SH-SY5Y 细胞在不同表面积的圆形聚碳酸酯培养皿中的增殖情况。选择 SH-SY5Y 细胞是因为它们与神经退行性疾病研究有关:我们的研究表明,细胞室表面积与 SH-SY5Y 细胞生长率之间存在相关性。在直径大于 10 毫米的培养室中培养的细胞,其生长速度与 60 毫米的标准培养皿相当。相反,较小的培养室明显阻碍了细胞的生长,即使在相同的播种密度下也是如此。在 HeLaGFP 细胞中也观察到类似的模式,而 16HBE14σ 细胞无论培养室大小都能有效增殖。此外,我们还在直径为 12 毫米的密封室内对 SH-SY5Y 细胞进行了研究,以评估其在气体交换受限条件下的生长情况:与现有方法的比较:我们的发现强调了微流控系统的小室尺寸对 SH-SY5Y 细胞生长的限制,这是传统方法通常无法解决的问题:结论:SH-SY5Y 细胞生长对空间限制高度敏感,在小于 10 毫米的腔室中增殖明显减少。这突出表明,在微流控实验中需要仔细考虑腔室的大小,以实现与标准培养皿相当的细胞生长率。研究还表明,SH-SY5Y 和 HeLaGFP 细胞会受到腔室大小的影响,而 16HBE14σ 细胞则不会。这些见解对于为生物工程研究设计有效的微流控系统至关重要。
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来源期刊
Journal of Neuroscience Methods
Journal of Neuroscience Methods 医学-神经科学
CiteScore
7.10
自引率
3.30%
发文量
226
审稿时长
52 days
期刊介绍: The Journal of Neuroscience Methods publishes papers that describe new methods that are specifically for neuroscience research conducted in invertebrates, vertebrates or in man. Major methodological improvements or important refinements of established neuroscience methods are also considered for publication. The Journal''s Scope includes all aspects of contemporary neuroscience research, including anatomical, behavioural, biochemical, cellular, computational, molecular, invasive and non-invasive imaging, optogenetic, and physiological research investigations.
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