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Vascularized adipocyte organoid model using isolated human microvessel fragments

类有机物 脂肪细胞 微血管 脂肪组织 间充质干细胞 细胞生物学 血管生成 生物 细胞外基质 癌症研究 内分泌学
作者
Hannah A. Strobel,Thomas Gerton,James B. Hoying
出处
期刊:Biofabrication [IOP Publishing]
卷期号:13 (3): 035022-035022 被引量:50
标识
DOI:10.1088/1758-5090/abe187
摘要

Abstract Tissue organoids are proving valuable for modeling tissue health and disease in a variety of applications. This is due, in part, to the dynamic cell–cell interactions fostered within the 3D tissue-like space. To this end, the more that organoids recapitulate the different cell–cell interactions found in native tissue, such as that between parenchyma and the microvasculature, the better the fidelity of the model. The microvasculature, which is comprised of a spectrum of cell types, provides not only perfusion in its support of tissue health, but also important cellular interactions and biochemical dynamics important in tissue phenotype and function. Here, we incorporate whole, intact human microvessel fragments isolated from adipose tissue into organoids to form both mesenchymal stem cell (MSC) and adipocyte vascularized organoids. Isolated microvessels retain their native structure and cell composition, providing a more complete representation of the microvasculature within the organoids. Microvessels expanded via sprouting angiogenesis within organoids comprised of either MSCs or MSC-derived adipocytes grew out of the organoids when placed in a 3D collagen matrix. In MSC organoids, a ratio of 50 MSCs to 1 microvessel fragment created the optimal vascularization response. We developed a new differentiation protocol that enabled the differentiation of MSCs into adipocytes while simultaneously promoting microvessel angiogenesis. The adipocyte organoids contained vascular networks, were responsive in a lipolysis assay, and expressed the functional adipocyte markers adiponectin and peroxisome proliferator-activated receptor gamma. The presence of microvessels promoted insulin receptor expression by adipocytes and modified interleukin-6 secretion following a tumor necrosis factor alpha challenge. Overall, we demonstrate a robust method for vascularizing high cell-density organoids with potential implications for other tissues as well.
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