Primary cultures of human hepatocyte spheroids are a promising in vitro model for longterm studies of hepatic metabolism and cytotoxicity. The lack of robust methodologies to culture cell spheroids, as well as a poor characterization of human hepatocyte spheroid architecture and liver-specific functionality, have hampered a widespread adoption of this three-dimensional culture format. In this work, an automated perfusion bioreactor was used to obtain and maintain human hepatocyte spheroids. These spheroids were cultured for 3-4 weeks in serum-free conditions, sustaining their phase I enzyme expression and permitting repeated induction during long culture times; rate of albumin and urea synthesis, as well as phase I and II drug-metabolizing enzyme gene expression and activity of spheroid hepatocyte cultures, presented reproducible profiles, despite basal interdonor variability (n 5 3 donors). Immunofluorescence microscopy of human hepatocyte spheroids after 3-4 weeks of long-term culture confirmed the presence of the liver-specific markers, hepatocyte nuclear factor 4a, albumin, cytokeratin 18, and cytochrome P450 3A. Moreover, immunostaining of the atypical protein kinase C apical marker, as well as the excretion of a fluorescent dye, evidenced that these spheroids spontaneously assemble a functional bile canaliculi network, extending from the surface to the interior of the spheroids, after 3-4 weeks of culture. Conclusion: Perfusion bioreactor cultures of primary human hepatocyte spheroids maintain a liver-specific activity and architecture and are thus suitable for drug testing in a long-term, repeated-dose format. (HEPATOLOGY 2012;55:1227-1236 T he liver-specific functions of hepatocytes, such as albumin secretion or drug-metabolizing activity, are rapidly down-regulated during in vitro primary cultures, limiting their use for drug development and toxicity tests. 1 For such assays, the current gold standard for long-term human hepatocyte culture is the collagen sandwich in vitro model. 2 The overlaying collagen layer increases cell-cell and cell-matrix contacts, providing a more three-dimensional (3D)-like architecture than a monolayer culture. For rat hepatocyte spheroids, where cell-cell interactions are maximized, liverspecific functions 3,4 and multicellular architecture 5,6 are increased, when compared to monolayer cultures.The use of microfluidic devices for primary cultures of hepatocytes is a promising approach to enable highthroughput screening in drug development. 7,8 However, the downscaling enabled by these technologies makes the culture environment harder to be controlled and limits the application of microfluidics for longterm primary cultures of hepatocytes. In fact, the most useful applications of microtechnologies for such cultures couple either microfluidic perfusion or coculture micropatterning to 12-9 or 24-well culture plates, 10Abbreviations: 2D, two-dimensional; 3D, three-dimensional; 7-EC, 7-ethoxycoumarin; 7-HC, 7-hydroxycoumarin; ANOVA, analysis of variance; aPKC, atypical protein ki...
Long-term primary cultures of hepatocytes are essential for bioartificial liver (BAL) devices and to reduce and replace animal tests in lead candidate optimization in drug discovery and toxicology tests. The aim of this work was to improve bioreactor cultures of hepatocyte spheroids by adding a more physiological perfusion feeding regime to these bioreactor systems. A continuous perfusion feeding was compared with 50% medium replacement (routinely used for in vitro tests) at the same dilution rate, 0.125 day(-1), for three operative weeks. Perfusion feeding led to a 10-fold improvement in albumin synthesis in bioreactors containing non-encapsulated hepatocyte spheroids; no significant improvement was observed in phase I drug metabolizing activity. When ultra high viscous alginate encapsulated spheroids were cultured in perfusion, urea synthesis, phase I drug metabolizing activity and oxygen consumption had a threefold improvement over the 50% medium replacement regime; albumin production was the same for both feeding regimes. The effective diffusion of albumin in the alginate capsules was 7.75.10(-9) cm(2) s(-1) and no diffusion limitation for this protein was observed using these alginate capsules under our operational conditions. In conclusion, perfusion feeding coupled with alginate encapsulation of hepatocyte spheroids showed a synergistic effect with a threefold improvement in three independent liver-specific functions of long-term hepatocyte spheroid cultures.
During mitosis different types of cells can have differential requirements for chromosome segregation. We isolated two new alleles of the separation anxiety gene (san). san was previously described in both Drosophila and in humans to be required for centromeric sister chromatid cohesion (Hou et al., 2007; Williams et al., 2003). Our work confirms and expands the observation that san is required in vivo for normal mitosis of different types of somatic cells. In addition, we suggest that san is also important for the correct resolution of chromosomes, implying a more general function of this acetyltransferase. Surprisingly, during oogenesis we cannot detect mitotic defects in germ line cells mutant for san. We hypothesize the female germ line stem cells have differential requirements for mitotic sister chromatid cohesion.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
hi@scite.ai
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.