Retrorsine has been used extensively to inhibit proliferation of resident hepatocytes in various transplantation models. Here we report a successful alternative to currently unavailable retrorsine that can be used in cellular transplantation models. Based on structural and molecular similarities, we investigate the use of monocrotaline (MCT) in cell transplantation studies in rodents. In this study, MCT was given to rats intraperitoneally in two injections 2 weeks apart. Two weeks after the final injection, a partial hepatectomy followed by splenic hepatocyte transplantation was performed. The results indicate that MCT, at two doses of 30 mg/kg, highly enhances liver repopulation by donor hepatocytes following partial hepatectomy and produces 15.3 +/- 4.9% liver repopulation within the first 6 weeks following transplantation. Additionally, we tested the effectiveness of MCT in a murine model. Using two injections of 50 mg/kg each, given 2 weeks apart, hepatocyte proliferation in the native liver was inhibited and subsequent oval cell transplants engrafted at 18 +/- 21.3% after 16 weeks posttransplantation. In conclusion, MCT can be used as an effective selective pressure for donor hepatocytes in cell transplantation to the liver in rodents.
Microbial pathogens are able to modulate host cells and evade the immune system by multiple mechanisms. For example, Salmonella injects effector proteins into host cells and evades the host immune system in part by inhibiting dendritic cell (DC) migration. The identification of microbial factors that modulate normal host functions should lead to the development of new classes of therapeutics that target these pathways. Current screening methods to identify either host or pathogen genes involved in modulating migration towards a chemical signal are limited because they do not employ stable, precisely controlled chemical gradients. Here, we develop a positive selection microfluidic-based genetic screen that allows us to identify Salmonella virulence factors that manipulate DC migration within stable, linear chemokine gradients. Our screen identified 7 Salmonella effectors (SseF, SifA, SspH2, SlrP, PipB2, SpiC and SseI) that inhibit DC chemotaxis toward CCL19. This method is widely applicable for identifying novel microbial factors that influence normal host cell chemotaxis as well as revealing new mammalian genes involved in directed cell migration.
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.