Experimental study of non-alcoholic fatty liver disease (NAFLD) on a model of starving chickens: is generalization of steatosis accompanied by fibrosis of the liver tissue?

The objective of this work was to study the mechanism of liver parenchyma development under the influence of restriction of diet. Useful information is presented about the pathologic features associated with diet restriction in a chicken animal model of NAFLD. There were 96 chickens of two genotypes, Ross 308 and Cobb 500, in the experiment. The control group was fed a standard mixture ad libitum (ADL). The first experimental group, under restriction from the age of 2 weeks, was fed 80% ADL. The second experimental group was fed 65% ADL from the age of 2 weeks. There were 16 animals in each group. The experiment lasted 5 weeks. Liver parenchyma samples were obtained at the age of 35 days by the necropsy method and then processed by standard histologic methods. The slices were stained by standard staining: hematoxylin-eosin and by Sirius red kit for collagen type I and reticulin visualization. Hepatocyte diameter and the proportion of interstitial tissue to the parenchyma of the liver were measured objectively. Microvesicular liver steatosis was observed after 35 days of restriction. Hepatocyte diameter was significantly influenced by sex, genotype, and the experimental group. The proportion of interstitial tissue to the liver parenchyma was highly influenced by genotype and group, but there were no interactions. An increase in the steatosis histologic grade is associated with inflammatory changes, with decrease of hepatocyte diameter and with a decreasing proportion of interstitial tissue to the liver parenchyma. The results show that early restriction is not associated with the development of fibrosis of the liver tissue.

The roles of c-Jun N-terminal kinase (JNK) and p38 mitogen-activated protein kinase (p38 MAPK) in aged pig oocytes.

After reaching metaphase II, in vitro matured oocytes undergo the complex processes referred to as oocyte aging. Under our culture conditions, some aged oocytes remained at the stage of metaphase II, some underwent spontaneous parthenogenetic activation and others underwent cellular death, either through apoptosis (fragmentation) or lysis. We investigated the effect of c-Jun N-terminal kinases (JNK) and p38 Mitogen-activated protein kinase (p38 MAPK) inhibition on pig oocyte aging and the activity of JNK and p38 MAPK during the aging period. Inhibition of JNK protected the oocytes from fragmentation (0% fragmented oocytes under JNK inhibition vs. 26% fragmented oocytes in the control group). Inhibition of p38 MAPK had no effect on fragmentation. Inhibition of JNK also had an influence on spontaneous parthenogenetic activation of aged oocytes. The ratio of activated JNK to total JNK decreased during aging of oocytes. However, exit from MII had no effect on it. The ratio of activated p38 MAPK to total p38 MAPK did not change significantly. The phosphorylated form of JNK is present in fragmented and activated oocytes, while lysed oocytes lack the active form of JNK. Based on our data, we can conclude that JNK plays an active role in fragmentation of pig oocytes and that p38 MAPK is not involved in this process.