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In vitro induction of in vivo–relevant stellate astrocytes in 3D brain-derived, decellularized extracellular matrices

去细胞化 体内 细胞外基质 体外 材料科学 细胞生物学 肝星状细胞 生物医学工程 细胞外 生物物理学 医学 化学 病理 生物 生物化学 生物技术
作者
Sol Han,Kim Jungnam,Su Hyun Kim,Wongu Youn,Jihoo Kim,Gil Yong Ji,Seoin Yang,Joohyouck Park,Gyun Min Lee,Youjeong Kim,Insung S. Choi
出处
期刊:Acta Biomaterialia [Elsevier BV]
卷期号:172: 218-233 被引量:3
标识
DOI:10.1016/j.actbio.2023.09.046
摘要

In vitro fabrication of 3D cell culture systems that could provide in vivo tissue–like, structural, and biochemical environments to neural cells is essential not only for fundamental studies on brain function and behavior, but also for tissue engineering and regenerative medicine applicable to neural injury and neurodegenerative diseases. In particular, for astrocytes—which actively respond to the surroundings and exhibit varied morphologies based on stimuli (e.g., stiffness and chemicals) in vitro, as well as physiological or pathological conditions in vivo—it is crucial to establish an appropriate milieu in in vitro culture platforms. Herein, we report the induction of in vivo–relevant, stellate-shaped astrocytes derived from cortices of Rattus norvegicus by constructing the 3D cell culture systems of brain-derived, decellularized extracellular matrices (bdECMs). The bdECM hydrogels were mechanically stable and soft, and the bdECM-based 3D scaffolds supplied biochemically active environments that astrocytes could interact with, leading to the development of in vivo–like stellate structures. In addition to the distinct morphology with actively elongated endfeet, the astrocytes, cultured in 3D bdECM scaffolds, would have neurosupportive characteristics, indicated by the accelerated neurite outgrowth in the astrocyte-conditioned media. Furthermore, next-generation sequencing showed that the gene expression profiles of astrocytes cultured in bdECMs were significantly different from those cultured on 2D surfaces. The stellate-shaped astrocytes in the bdECMs were analyzed to have reached a more mature state, for instance, with decreased expression of genes for scaffold ECMs, actin filaments, and cell division. The results suggest that the bdECM-based 3D culture system offers an advanced platform for culturing primary cortical astrocytes and their mixtures with other neural cells, providing a brain–like, structural and biochemical milieu that promotes the maturity and in vivo–like characteristics of astrocytes in both form and gene expression. Decellularized extracellular matrices (dECMs) have emerged as strong candidates for the construction of three-dimensional (3D) cell cultures in vitro, owing to the potential to provide native biochemical and physical environments. In this study, we fabricated hydrogels of brain-derived dECMs (bdECMs) and cultured primary astrocytes within the bdECM hydrogels in a 3D context. The cultured astrocytes exhibited a stellate morphology distinct from conventional 2D cultures, featuring tridimensionally elongated endfeet. qRT-PCR and NGS-based transcriptomic analyses revealed gene expression patterns indicative of a more mature state, compared with the 2D culture. Moreover, astrocytes cultured in bdECMs showed neurosupportive characteristics, as demonstrated by the accelerated neurite outgrowth in astrocyte-conditioned media. We believe that the bdECM hydrogel-based culture system can serve as an in vitro model system for astrocytes and their coculture with other neural cells, holding significant potential for neural engineering and therapeutic applications.
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