Bovine and human endometrium-derived hydrogels support organoid culture from healthy and cancerous tissues

类有机物 去细胞化 基质凝胶 自愈水凝胶 细胞外基质 细胞生物学 组织工程 生物 化学 病理 生物医学工程 医学 血管生成 癌症研究 有机化学
作者
M. Fairuz B. Jamaluddin,Arnab Ghosh,Aviraj Ingle,Riazuddin Mohammed,Ayesha Ali,Mohammad Bahrami,Gerard E. Kaiko,Zamira Gibb,Elysse C. Filipe,Thomas R. Cox,Angela Boulton,Rachel O’Sullivan,Yvette Ius,Ajay Karakoti,Ajayan Vinu,Pravin Nahar,Kenneth Jaaback,Vipul Bansal,Pradeep S. Tanwar
出处
期刊:Proceedings of the National Academy of Sciences of the United States of America [National Academy of Sciences]
卷期号:119 (44): e2208040119-e2208040119 被引量:76
标识
DOI:10.1073/pnas.2208040119
摘要

Organoid technology has provided unique insights into human organ development, function, and diseases. Patient-derived organoids are increasingly used for drug screening, modeling rare disorders, designing regenerative therapies, and understanding disease pathogenesis. However, the use of Matrigel to grow organoids represents a major challenge in the clinical translation of organoid technology. Matrigel is a poorly defined mixture of extracellular matrix proteins and growth factors extracted from the Engelbreth-Holm-Swarm mouse tumor. The extracellular matrix is a major driver of multiple cellular processes and differs significantly between tissues as well as in healthy and disease states of the same tissue. Therefore, we envisioned that the extracellular matrix derived from a native healthy tissue would be able to support organoid growth akin to organogenesis in vivo. Here, we have developed hydrogels from decellularized human and bovine endometrium. These hydrogels supported the growth of mouse and human endometrial organoids, which was comparable to Matrigel. Organoids grown in endometrial hydrogels were proteomically more similar to the native tissue than those cultured in Matrigel. Proteomic and Raman microspectroscopy analyses showed that the method of decellularization affects the biochemical composition of hydrogels and, subsequently, their ability to support organoid growth. The amount of laminin in hydrogels correlated with the number and shape of organoids. We also demonstrated the utility of endometrial hydrogels in developing solid scaffolds for supporting high-throughput, cell culture-based applications. In summary, endometrial hydrogels overcome a major limitation of organoid technology and greatly expand the applicability of organoids to understand endometrial biology and associated pathologies.
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