Engineering choroid plexus-on-a-chip with oscillatory flow for modeling brain metastasis

脉络丛 芯片上器官 脑脊液 细胞外基质 免疫系统 细胞生物学 化学 病理 神经科学 生物 免疫学 医学 中枢神经系统 纳米技术 微流控 材料科学
作者
J. Lim,Stephen Rhee,Hyeri Choi,Jungseub Lee,Shruthy Kuttappan,Thao Nguyen,Seung Ah Choi,Yong Tae Kim,Noo Li Jeon
出处
期刊:Materials today bio [Elsevier BV]
卷期号:22: 100773-100773 被引量:3
标识
DOI:10.1016/j.mtbio.2023.100773
摘要

The human brain choroid plexus (ChP) is a highly organized secretory tissue with a complex vascular system and epithelial layers in the ventricles of the brain. The ChP is the body's principal source of cerebrospinal fluid (CSF); it also functions as a barrier to separate the blood from CSF, because the movement of CSF through the body is pulsatile in nature. Thus far, it has been challenging to recreate the specialized features and dynamics of the ChP in a physiologically relevant microenvironment. In this study, we recapitulated the ChP structure by developing a microfluidic chip in accordance with established design rules. Furthermore, we used image processing and analysis to mimic CSF flow dynamics within a rlcking system; we also used a hydrogel containing laminin to mimic brain extracellular matrix (ECM). Human ChP cells were cultured in the ChP-on-a-chip with in vivo-like CSF dynamic flow and an engineered ECM. The key ChP characteristics of capillaries, the epithelial layer, and secreted components were recreated in the adjusted microenvironment of our human ChP-on-a-chip. The drug screening capabilities of the device were observed through physiologically relevant drug responses from breast cancer cells that had spread in the ChP. ChP immune responses were also recapitulated in this device, as demonstrated by the motility and cytotoxic effects of macrophages, which are the most prevalent immune cells in the ChP. Our human ChP-on-a-chip will facilitate the elucidation of ChP pathophysiology and support the development of therapeutics to treat cancers that have metastasized into the ChP.

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