Development of Scaffold-free 3D Cholangiocyte Organoids to Study the Progression of Primary Sclerosing Cholangitis

Abstract

ABSTRACTOrganoids are novelin vitromodels to study intercellular crosstalk between the different types of cells in the pathophysiology of disease. To better understand the underlying mechanisms driving the progression of primary sclerosing cholangitis (PSC), we developed scaffold-free multi-cellular 3D cholangiocyte organoids (3D-CHO) using ‘primary’ liver cell lines derived from normal and PSC patients. Human liver samples from healthy donors and late-stage PSC patients were used to isolate ‘primary’ cholangiocytes (EPCAM+/CK-19+), liver endothelial cells (LECs, CD31+), and hepatic stellate cells (HSCs, CD31−/CD68−/Desmin+/Vitamin A+). 3D-CHOs were formed using cholangiocytes:HSCs:LECs and kept viable for up to 1 month. Isolated primary cell lines and 3D-CHOs were further characterized by immunofluorescence (IF), qRT-PCR, and transmission electron microscopy. Gene expressions for cholangiocytes (SOX9, CFTR, EpCAM, AE, SCT, SCTR), fibrosis (ACTA2, COL1A1, DESMIN, TGFβ1), angiogenesis (PECAM, VEGF, CDH5, vWF), and inflammation (IL-6, TNF-α) confirmed PSC phenotypes of 3D-CHOs. Since cholangiocytes develop a neuroendocrine phenotype and express neuromodulators, confocal-IF demonstrated that neurokinin-1 receptor (NK-1R, expressed by cholangiocytes and upregulated in PSC), was localized within CK-19+cholangiocytes. Moreover, 3D-CHOs from PSC patients confirmed PSC phenotypes with upregulated NK-1R, tachykinin precursor 1, and downregulated membrane metalloendopeptidase. Our viable scaffold-free multiple-cell 3D-CHOs showed superiority as anin vitromodel in mimicking PSCin vivophenotypes compared to 2D cell culture, which can be used in PSC disease-related research.