Association of α2-macroglobulin-thrombin and α2-macroglobulin-plasmin complexes with isolated hepatocytes

¹²⁵I-labelled $\text{α}{}_2\text{-}\text{macroglobulin}$ complexed with thrombin or plasmin bound to hepatocytes in a concentration-and time-dependent manner. The apparent $\text{K}{}_{\mathrm{<mtext>d</mtext>}}$ values calculated from displacement experiments were 7.9 · 10^?8 M for $\text{α}{}_2\text{-}\text{macroglobulin-thrombin}$ and 8.5 · 10^?8 M for $\text{α}{}_2\text{-}\text{macroglobulin-plasmin}$. Association of these complexes was only partially reversible; after a 180 min incubation period, 50–60% of the bound radioactivity was internalized by the cells. $\text{α}{}_2\text{-}\text{Macroglobulin}$ itself bound also to hepatocytes, but the affinity of the $\text{α}{}_2\text{-}\text{macroglobulin}$ complexes was higher than that of the inhibitor alone, and $\text{α}{}_2\text{-}\text{macroglobulin}$ was not internalized, either. ¹²⁵I-labelled thrombin or plasmin bound to hepatocytes as well. These bindings were also concentration-dependent and could be decreased with an excess of unlabelled ligands. Binding rates and amounts of the bound proteinases were higher than those of their $\text{α}{}_2\text{-}\text{macroglobulin}$ complexes. The $\text{α}{}_2\text{-}\text{macroglobulin-thrombin}$ complex competed with the $\text{α}{}_2\text{-}\text{macroglobulin-plasmin}$ complex in binding to hepatocytes, whereas there was no competition between these complexes and the antithrombin III-thrombin complex. These results suggest that the binding sites of hepatocytes for $\text{α}{}_2\text{-}\text{macroglobulin-proteinase}$ and antithrombin III-proteinase complexes are different.     

Subunit composition and developmental regulation of hepatic protein phosphatase 2A (PP2A)

The prototypical form of the Ser/Thr phosphatase PP2A is a heterotrimeric complex consisting of catalytic subunit (C), and A and B regulatory subunits. C-terminal methylation of PP2A-C influences holoenzyme assembly. Using late gestation development in the rat as an in vivo model of liver growth, we found that PP2A-C protein and activity levels were higher in fetal compared to adult liver extracts. However, unmethylated PP2A-C was much higher in the adult extracts. In MonoQ fractionation, unmethylated C eluted separately from methylated C, which was present predominantly in ABC heterotrimers. Gel filtration chromatography revealed that some unmethylated C was present as free catalytic subunit in adult liver. In addition, a significant proportion of PP2A was in inactive forms that may involve novel regulatory subunits. Our results indicate that methylation of PP2A-C appears to be a primary determinant for the biogenesis of PP2A heterotrimers.     

The Ron receptor tyrosine kinase negatively regulates mammary gland branching morphogenesis

The Ron receptor tyrosine kinase is expressed in normal breast tissue and is overexpressed in approximately 50% of human breast cancers. Despite the recent studies on Ron in breast cancer, nothing is known about the importance of this protein during breast development. To investigate the functional significance of Ron in the normal mammary gland, we compared mammary gland development in wild-type mice to mice containing a targeted ablation of the tyrosine kinase (TK) signaling domain of Ron (TK−/−). Mammary glands from RonTK−/− mice exhibited accelerated pubertal development including significantly increased ductal extension and branching morphogenesis. While circulating levels of estrogen, progesterone, and overall rates of epithelial cell turnover were unchanged, significant increases in phosphorylated MAPK, which predominantly localized to the epithelium, were associated with increased branching morphogenesis. Additionally, purified RonTK−/− epithelial cells cultured ex vivo exhibited enhanced branching morphogenesis, which was reduced upon MAPK inhibition. Microarray analysis of pubertal RonTK−/− glands revealed 393 genes temporally impacted by Ron expression with significant changes observed in signaling networks regulating development, morphogenesis, differentiation, cell motility, and adhesion. In total, these studies represent the first evidence of a role for the Ron receptor tyrosine kinase as a critical negative regulator of mammary development.     

Investigation of rifampicin-induced hepatotoxicity in rat hepatocytes maintained in gel entrapment culture

Rifampicin-induced hepatotoxicity has been well recognized in animals and patients. However, it is undetectable in cultured hepatocyte monolayers in vitro at the equivalent toxic concentration in vivo. This study investigated the rifampicin-induced toxicity on rat hepatocytes in gel entrapment vs. in monolayer culture. Thiazolyl tetrazolium reduction and albumin secretion were routinely detected to identify the toxic responses of rat hepatocytes to rifampicin, while reactive oxygen species (ROS) accumulation and intracellular glutathione (GSH) content were assayed as biomarkers of oxidative stress. In addition, Nile red staining and malondialdehyde (MDA) generation were, respectively, used as endpoints for lipid accumulation and peroxidation. After treatment of hepatocytes for 96 h at a serum rifampicin concentration (12 μM), gel-entrapped rat hepatocytes showed significant cellular damage indicated by alternations of all parameters indicated above, while hepatocyte monolayers did not show severe responses. In contrast to a lack of protections by cytochrome P 450 inhibitors, the ROS scavenger (glycyrrhizic acid) and thiol compounds (N-acetylcysteine and GSH) significantly reduced rifampicin toxicity in gel-entrapped hepatocytes. It appears that gel-entrapped rat hepatocytes reflected significant hepatotoxicity of rifampicin in vivo, and this toxicity was most possibly associated with oxidative stress and lipid accumulation.     

Hepatocyte growth factor and epidermal growth factor promote spheroid formation in polyurethane foam/hepatocyte culture and improve expression and maintenance of albumin production

In our previous pre-clinical study with pig hepatic failure, an artificial liver with polyurethane foam (PUF)/primary porcine hepatocyte spheroids had superior curative effect. We examined the effect of hepatocyte growth factor (HGF), also known as scatter factor, on the quick formation of hepatocyte spheroids and albumin production. Spheroids were formed in the pores of PUF within 3 days regardless of addition of growth factors. In particular, spheroids were formed within 1 day in medium containing 100 ng/ml HGF and 50 ng/ml epidermal growth factor (EGF). 10,000 ng/ml HGF was effective for albumin production, but the activity dramatically decreased after 6 days in EGF-free medium. On the other hand, 100 ng/ml HGF was effective for albumin production in EGF-containing medium. Albumin production rate with ≥1000 ng/ml HGF was about 1.5 times higher than that with 100 ng/ml HGF. Furthermore, albumin production rate at 3 weeks was about 1.5 times higher than that at 2 days with 1000 ng/ml HGF. The maintenance of albumin production rate depended on the activity of the individual cell and not cell growth. In other words, we were able to show the effectiveness of HGF for functional hepatocyte organoid formation in PUF pores.     

Stem cell therapy independent of stemness

Mesenchymal stem cell (MSC) therapy is entering a new era shifting the focus from initial feasibility study to optimization of therapeutic efficacy. However, how MSC therapy facilitates tissue regeneration remains incompletely characterized. Consistent with the emerging notion that secretion of multiple growth factors/cytokines (trophic factors) by MSC provides the underlying tissue regenerative mechanism, the recent study by Bai et al demonstrated a critical therapeutic role of MSC-derived hepatocyte growth factor (HGF) in two animal models of multiple sclerosis (MS), which is a progressive autoimmune disorder caused by damage to the myelin sheath and loss of oligodendrocytes. Although current MS therapies are directed toward attenuation of the immune response, robust repair of myelin sheath likely requires a regenerative approach focusing on long-term replacement of the lost oligodendrocytes. This approach appears feasible because adult organs contain various populations of multipotent resident stem/progenitor cells that may be activated by MSC trophic factors as demonstrated by Bai et al This commentary highlights and discusses the major findings of their studies, emphasizing the anti-inflammatory function and trophic cross-talk mechanisms mediated by HGF and other MSC-derived trophic factors in sustaining the treatment benefits. Identification of multiple functionally synergistic trophic factors, such as HGF and vascular endothelial growth factor, can eventually lead to the development of efficacious cell-free therapeutic regimens targeting a broad spectrum of degenerative conditions.     

trans-Caryophyllene is a natural agonistic ligand for peroxisome proliferator-activated receptor-α

Intake of dietary aroma compounds may regulate cellular lipid metabolism. We demonstrated that trans-caryophyllene, a flavor compound in plant foods and teas, activates peroxisome proliferator-activated receptor (PPAR)-α through direct interaction with the ligand-binding domain of PPAR-α. The agonistic activity of trans-caryophyllene was investigated by the luciferase reporter assay, surface plasmon resonance, and time-resolved fluorescence resonance energy transfer assay. Following the stimulation of cells with trans-caryophyllene, intracellular triglyceride concentrations were significantly reduced by 17%, and hepatic fatty acid uptake was significantly increased by 31%. The rate of fatty acid oxidation was also significantly increased. The expressions of PPAR-α and its target genes and proteins in fatty acid uptake and oxidation were significantly up-regulated as well. In HepG2 cells transfected with small interfering RNA of PPAR-α, the effects of trans-caryophyllene on PPAR-α responsive gene expressions, intracellular triglyceride, fatty acid uptake and oxidation were disappeared. These results indicate that the aroma compound, trans-caryophyllene, is PPAR-α agonist thus regulates cellular lipid metabolism in PPAR-α dependent manners.