Glomerulus-on-a-Chip: Current Insights and Future Potential Towards Recapitulating Selectively Permeable Filtration Systems.

IF 2.1 Q2 UROLOGY & NEPHROLOGY International Journal of Nephrology and Renovascular Disease Pub Date : 2022-03-10 eCollection Date: 2022-01-01 DOI:10.2147/IJNRD.S344725
Kotaro Doi, Hiroshi Kimura, Yukiko T Matsunaga, Teruo Fujii, Masaomi Nangaku
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Abstract

Glomerulopathy, characterized by a dysfunctional glomerular capillary wall, results in proteinuria, leading to end-stage renal failure and poor clinical outcomes, including renal death and increased overall mortality. Conventional glomerulopathy research, including drug discovery, has mostly relied on animal experiments because in-vitro glomerulus models, capable of evaluating functional selective permeability, was unavailable in conventional in-vitro cell culture systems. However, animal experiments have limitations, including time- and cost-consuming, multi-organ effects, unstable reproducibility, inter-species reliability, and the social situation in the EU and US, where animal experiments have been discouraged. Glomerulus-on-a-chip, a new in-vitro organ model, has recently been developed in the field of organ-on-a-chip research based on microfluidic device technology. In the glomerulus-on-a-chip, the podocytes and endothelial cells are co-cultured in a microfluidic device with physical stimuli that mimic the physiological environment to enhance cell function to construct a functional filtration barrier, which can be assessed by permeability assays using fluorescently labeled molecules including inulin and albumin. A combination of this glomerulus-on-a chip technology with the culture technology to induce podocytes and endothelial cells from the human pluripotent stem cells could provide an alternative organ model and solve the issue of animal experiments. Additionally, previous experiments have verified the difference in the leakage of albumin using differentiated podocytes derived from patients with Alport syndrome, such that it could be applied to intractable hereditary glomerulopathy models. In this review, we provide an overview of the features of the existing glomerulus-on-a-chip systems, focusing on how they can address selective permeability verification tests, and the challenges they involved. We finally discuss the future approaches that should be developed for solving those challenges and allow further improvement of glomerulus-on-a-chip technologies.

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芯片上的肾小球:目前的见解和未来对选择性渗透过滤系统的潜力
肾小球病变以肾小球毛细血管壁功能障碍为特征,可导致蛋白尿,导致终末期肾衰竭和不良临床结果,包括肾性死亡和总死亡率增加。传统的肾小球疾病研究,包括药物发现,主要依赖于动物实验,因为能够评估功能选择通透性的体外肾小球模型在传统的体外细胞培养系统中是不可用的。然而,动物实验有其局限性,包括时间和成本消耗,多器官效应,可重复性不稳定,种间可靠性,以及欧盟和美国的社会状况,这些都不鼓励动物实验。芯片肾小球(Glomerulus-on-a-chip)是近年来基于微流控器件技术在芯片器官研究领域发展起来的一种新型体外器官模型。在芯片肾小球中,足细胞和内皮细胞在模拟生理环境的物理刺激下在微流控装置中共同培养,以增强细胞功能,构建功能性过滤屏障,可通过使用包括菊粉和白蛋白在内的荧光标记分子的渗透性测定来评估。将这种芯片肾小球技术与培养技术相结合,从人多能干细胞中诱导足细胞和内皮细胞,可以提供一种替代器官模型,解决动物实验的问题。此外,既往实验利用Alport综合征患者分化足细胞证实了白蛋白渗漏的差异,可应用于难治性遗传性肾小球病变模型。在这篇综述中,我们概述了现有的肾小球芯片系统的特点,重点介绍了它们如何解决选择性渗透性验证测试,以及它们所涉及的挑战。我们最后讨论了解决这些挑战的未来方法,并允许进一步改进芯片上的肾小球技术。
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来源期刊
CiteScore
3.90
自引率
5.00%
发文量
40
审稿时长
16 weeks
期刊介绍: International Journal of Nephrology and Renovascular Disease is an international, peer-reviewed, open-access journal focusing on the pathophysiology of the kidney and vascular supply. Epidemiology, screening, diagnosis, and treatment interventions are covered as well as basic science, biochemical and immunological studies. In particular, emphasis will be given to: -Chronic kidney disease- Complications of renovascular disease- Imaging techniques- Renal hypertension- Renal cancer- Treatment including pharmacological and transplantation- Dialysis and treatment of complications of dialysis and renal disease- Quality of Life- Patient satisfaction and preference- Health economic evaluations. The journal welcomes submitted papers covering original research, basic science, clinical studies, reviews & evaluations, guidelines, expert opinion and commentary, case reports and extended reports. The main focus of the journal will be to publish research and clinical results in humans but preclinical, animal and in vitro studies will be published where they shed light on disease processes and potential new therapies and interventions.
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