Omentum-on-a-chip: A multicellular, vascularized microfluidic model of the human peritoneum for the study of ovarian cancer metastases

卵巢癌 间质细胞 腹膜 间皮 腹水 转移 腹膜腔 血管通透性 病理 血管内皮生长因子 医学 肿瘤微环境 血管生成 间皮细胞 细胞因子 腹膜液 癌症研究 癌症 内科学 解剖 血管内皮生长因子受体
作者
Lina Ibrahim,Cynthia Hajal,Giovanni S. Offeddu,Mark R. Gillrie,Roger D. Kamm
出处
期刊:Biomaterials [Elsevier BV]
卷期号:288: 121728-121728 被引量:51
标识
DOI:10.1016/j.biomaterials.2022.121728
摘要

Epithelial ovarian cancer has the highest mortality rate of any gynecologic malignancy and most frequently metastasizes to the peritoneal cavity. Intraperitoneal metastases are highly associated with ascites, the pathologic accumulation of peritoneal fluid due to impaired drainage, increased peritoneal permeability, and tumor and stromal cytokine secretion. However, the relationship between ascites, vascular and mesothelial permeability, and ovarian cancer intraperitoneal metastases remains poorly understood. In this study, a vascularized in vitro model of the human peritoneal omentum and ovarian tumor microenvironment (TME) was employed to study stromal cell effects on tumor cell (TC) attachment and growth, as well as TC effects on vascular and mesothelial permeability in models of both early- and late-stage metastases. Control over the number of TCs seeded in the vascularized peritoneum revealed a critical cell density requirement for tumor growth, which was further enhanced by stromal adipocytes and endothelial cells found in the peritoneal omentum. This tumor growth resulted in both a physically-mediated decrease and cytokine-mediated increase in microvascular permeability, emphasizing the important and potentially opposing roles of tumor cells in ascites formation. This system provides a robust platform to elucidate TC-stromal cell interactions during intraperitoneal metastasis of ovarian cancer and presents the first in vitro vascularized model of the human peritoneum and ovarian cancer TME.
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