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Significance Liver disease causes ∼2 million annual deaths, yet medical treatments and transplantable organs are both lacking. The liver can regenerate when mature hepatocytes divide, and while this process is… Click to show full abstract
Significance Liver disease causes ∼2 million annual deaths, yet medical treatments and transplantable organs are both lacking. The liver can regenerate when mature hepatocytes divide, and while this process is well studied in rodents, parallel study of human biology has been impossible. We developed a microfluidic device that allows us to manipulate fluid flow, circulating cytokines, and/or paracrine interactions between liver and vascular cells, in order to model multicellular aspects of human liver regeneration. We found that physiologically relevant shear stresses increased the secretion of angiogenesis- and regeneration-associated factors, including prostaglandin E2 from endothelial cells, and induced primary human hepatocytes to enter the cell cycle. Next, we can dissect the resulting secretome data to identify factors that stimulate liver regeneration.
Journal Title: Proceedings of the National Academy of Sciences of the United States of America
Year Published: 2022
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