Serban Morosan scite author profile

Hepatic tumors, exhibiting mature hepatocytes and undifferentiated cells merging with cholangiocyte and hepatocyte phenotypes, are frequently described. The mechanisms by which they occur remain unclear. We report differentiation and transdifferentiation behaviors of human HepaRG cells isolated from a differentiated tumor developed consecutively to chronic HCV infection. We demonstrate that, in vitro, proliferating HepaRG cells differentiate toward hepatocyte-like and biliary-like cells at confluence. If hepatocyte-like cells are selectively isolated and cultured at high cell density, they proliferate and preserve their differentiation status. However, when plated at low density, they transdifferentiate into hepatocytic and biliary lineages through a bipotent progenitor. In accordance, transplantation of either undifferentiated or differentiated HepaRG cells in uPA/SCID mouse damaged liver gives rise mainly to functional human hepatocytes infiltrating mouse parenchyma. Analysis of the differentiation/transdifferentiation process reveals that: (1) H epatic tumors with combined hepatocellular cholangiocarcinoma have been frequently described for instance, hepatoblastoma with cholangioblastic features in young patients 1 and HCCs with dual expression of hepatocyte and bile duct markers in adult patients suffering from diseases related to HCV and/or HBV infection. 2 Such tumors usually contain mature hepatocytes and so-called transitional areas that consist of undifferentiated cells that have morphological and immunological features of both hepatocytes and cholangiocytes. 3 Co-expression of hepatocytic and biliary markers suggests involvement of hepatic progenitor cells in development of these human tumors and supports the concept of genetic events to explain their abnormal growth during tumor formation. 4 However, mechanisms of occurrence of these progenitors and abnormal control of their expansion and differentiation are still unclear.Hepatic progenitor cells, also referred to as oval cells in rodents, have been defined as immature epithelial cells able to differentiate toward both biliary and hepatocytic lineages. The smallest ramification of the biliary tree in adult liver, the canal of Hering, may constitute the niche for these hepatic progenitor cells. 5 They are few in number, and because bile ductular and hepatocytic cells have a tremendous capacity to proliferate and differentiate, heAbbreviations: BrdU, bromodeoxyuridine; HNF, hepatocyte nuclear factor; RT, reverse transcription.

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Plasmodium falciparum full life cycle and Plasmodium ovale liver stages in humanized mice

Soulard

et al. 2015

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Experimental studies of Plasmodium parasites that infect humans are restricted by their host specificity. Humanized mice offer a means to overcome this and further provide the opportunity to observe the parasites in vivo. Here we improve on previous protocols to achieve efficient double engraftment of TK-NOG mice by human primary hepatocytes and red blood cells. Thus, we obtain the complete hepatic development of P. falciparum, the transition to the erythrocytic stages, their subsequent multiplication, and the appearance of mature gametocytes over an extended period of observation. Furthermore, using sporozoites derived from two P. ovale-infected patients, we show that human hepatocytes engrafted in TK-NOG mice sustain maturation of the liver stages, and the presence of late-developing schizonts indicate the eventual activation of quiescent parasites. Thus, TK-NOG mice are highly suited for in vivo observations on the Plasmodium species of humans.

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Serban Morosan

Transdifferentiation of hepatocyte‐like cells from the human hepatoma HepaRG cell line through bipotent progenitor†

Plasmodium falciparum full life cycle and Plasmodium ovale liver stages in humanized mice

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