New primary culture systems to study the differentiation and proliferation of mouse fetal hepatoblasts

Hepatoblasts have the potential to differentiate into both hepatocytes and biliary epithelial cells through a differentiation program that has not been fully elucidated. With the aim to better define the mechanism of differentiation of hepatoblasts, we isolated hepatoblasts and established new culture systems. We isolated hepatoblasts from E12.5 fetal mouse liver by using E-cadherin. The E-cadherin+ cells expressed alpha-fetoprotein (AFP) and albumin (Alb) but not cytokeratin 19 (CK19). Transplantation of the E-cadherin+ cells into mice that had been subjected to liver injury or biliary epithelial injury led to differentiation of the cells into hepatocytes or biliary epithelial cells, respectively. In a low-cell-density culture system in the absence of additional growth factors, E-cadherin+ cells formed colonies of various sizes, largely comprising Alb-positive cells. Supplementation of the culture medium with hepatocyte growth factor and epidermal growth factor promoted proliferation of the cells. Thus the low-cell-density culture system should be useful to identify inductive factors that regulate the proliferation and differentiation of hepatoblasts. In a high-cell-density system in the presence of oncostatin M+dexamethasone, E14.5, but not E12.5, E-cadherin+ cells differentiated into mature hepatocytes, suggesting that unidentified factors are involved in hepatic maturation. Culture of E-cadherin+ cells derived from E12.5 or E14.5 liver under high-cell-density conditions should allow elucidation of the mechanism of hepatic differentiation in greater detail. These new culture systems should be of use to identify growth factors that induce hepatoblasts to proliferate or differentiate into hepatocytes and biliary epithelial cells.     

Cellular localization of a putative Na<Superscript>+</Superscript>/H<Superscript>+</Superscript> exchanger 3 during ontogeny in the pronephros and mesonephros of the Japanese black salamander (<Emphasis Type="Italic">Hynobius nigrescens</Emphasis> Stejneger)

The cloning of cDNA and an examination of the tissue distribution of Na⁺/H⁺ exchanger 3 (NHE3) were carried out in the Japanese black salamander, Hynobius nigrescens. The cellular localization of Hynobius NHE3 was examined by in situ hybridization and immunohistochemistry during ontogeny in the nephron of the pronephros and mesonephros of the salamander. The partial amino acid sequence of Hynobius NHE3 was 81% and 72% identical to rat NHE3 and stingray NHE3, respectively. Hynobius NHE3 mRNA and protein were exclusively expressed along the late portion of the distal tubule to the anterior part of the pronephric duct of premetamorphic larvae (IY stages 43–50). NHE3 mRNA was expressed in the pronephros but not in the external gills in the larvae at the digit differentiation stage (IY stage 50). In the adult, mRNA was strongly expressed in the mesonephros but not in the ventral and dorsal skin. In juvenile and adult specimens, NHE3 immunoreactivity was observed at the apical membrane of the initial parts of the distal tubules of the mesonephric kidney. Immunohistochemical and in situ hybridization studies suggested that Na⁺ absorption coupled with H⁺ secretion via NHE3 occurred in the distal nephron of the pronephros and mesonephros. This is the first study to indicate NHE3 expression during ontogeny in amphibians. This work was supported in part by a research grant (a priority project in Science Faculty) from the University of Toyama to M.U.     

Typing of hepatic nonparenchymal cells using fibulin-2 and cytoglobin/STAP as liver fibrogenesis-related markers

Fibulin-2 and cytoglobin/stellate cell activation-associated protein (Cygb/STAP) are considered to be markers of hepatic myofibroblasts (MFs) and stellate cells (HSCs), respectively. The aim of the present study was to characterize the nonparenchymal cells (NPCs) of normal rat livers and carbon tetrachloride-induced fibrotic rat livers with respect to the expression of these two proteins. NPCs in normal (Glissons capsules) and fibrotic (fibrotic septa) connective tissues were immunohistochemically categorized into four cell types in terms of the expression of fibulin-2 and Cygb/STAP: fibulin-2 and Cygb/STAP double-positive (Fib⁺/STAP⁺); fibulin-2-positive and Cygb/STAP-negative (Fib⁺/STAP^–); Fib^–/STAP⁺; and Fib^–/STAP^–. The Glissons capsules had Fib⁺/STAP⁺ and Fib^–/STAP^– cell occupancy rates of 45.5% and 54.5%, respectively, but did not contain Fib⁺/STAP^– or Fib^–/STAP⁺ cells. On the other hand, the fibrotic septa contained Fib⁺/STAP⁺, Fib^–/STAP⁺, and Fib^–/STAP^– cells at occupancy rates of 35.0%, 50.5%, and 9.1%, respectively, but did not contain Fib⁺/STAP^– cells. Thus, fibrosis is characterized by a dramatic increase in Fib^–/STAP⁺ NPCs, and a dramatic decrease in Fib^–/STAP^– NPCs. Fib⁺/STAP⁺ NPCs are located uniformly in Glissons capsules and peripherally in fibrotic septa. The present study strongly suggests that Fib⁺/STAP⁺ and Fib^–/STAP⁺ NPCs correspond to MFs and activated HSCs, respectively, both of which may contribute to liver fibrogenesis.     

NMR investigation of the heme electronic structure in deoxymyoglobin possessing a fluorinated heme

The heme electronic structures of deoxymyoglobins (deoxy-Mbs) reconstituted with 13,17-bis(2-carboxylatoethyl)-3,8-diethyl-2,12,18-trimethyl-7-(trifluoromethyl)porphyrinatoiron(III) (7-PF), 13,17-bis(2-carboxylatoethyl)-3,7-difluoro-2,8,12,18-tetramethylporphyrinatoiron(III) (3,7-DF), and 13,17-bis(2-carboxylatoethyl)-3,8-diethyl-2-fluoro-7,12,18-trimethylporphyrinatoiron(III) (2-MF) have been characterized by ¹H and ¹⁹F NMR. The analysis of heme methyl proton shift patterns of the hemes in their bis-cyano forms demonstrated that, owing to the substitution of a strongly electron-withdrawing perfluoromethyl group, CF₃, to porphyrin, the porphyrin -system of 7-PF is more significantly distorted from four-fold symmetry than those of the ring-fluorinated hemes, 3,7-DF and 2-MF. The presence of the heme orientation disorder resulted in the observation of the two well-resolved ¹⁹F signals in the spectra of deoxy-Mbs possessing 7-PF and 2-MF. The ¹⁹F signals of deoxy-Mb possessing 7-PF exhibited a relatively large difference in paramagnetic shift (~30 ppm), despite their small paramagnetic shifts (~30 ppm), supporting the significant contribution of a spin delocalization mechanism in this Mb due to the d-electron configuration derived from the ⁵E ground state. On the other hand, ¹⁹F signals of deoxy-Mbs with 3,7-DF as well as 2-MF exhibited large paramagnetic shifts (~250 ppm) with a relatively small difference in the paramagnetic shift (~20 ppm), indicating the predominant contribution of spin delocalization, due to a d-electron configuration derived from the ⁵B₂ ground state. These results demonstrate for the first time that the relative contributions of the orbital ground states derived from ⁵E and ⁵B₂ states to the heme electronic structure in deoxy-Mb are affected by the distortion of the porphyrin -system exerted by chemical properties of the heme peripheral side-chains.Abbreviations 3,7-DF 13,17-bis(2-carboxylatoethyl)-3,7-difluoro-2,8,12,18-tetramethylporphyrinatoiron(III) - 2-MF 13,17-bis(2-carboxylatoethyl)-3,8-diethyl-2-fluoro-7,12,18-trimethylporphyrinatoiron(III) - 7-PF 13,17-bis(2-carboxylatoethyl)-3,8-diethyl-2,12,18-trimethyl-7-(trifluoromethyl)porphyrinatoiron(III) - Mb myoglobin - Mb(7-PF) deoxy-Mb reconstituted with 7-PF - Mb(3,7-DF) deoxy-Mb reconstituted with 3,7-DF - Mb(2-MF) deoxy-Mb reconstituted with 2-MF - NOE nuclear Overhauser effect - NOESY nuclear Overhauser effect correlated spectroscopy     

Characterization of the heme environmental structure of cytoglobin,a fourth globin in humans

Cytoglobin (Cgb) represents a fourth member of the globin superfamily in mammals, but its function is unknown. Site-directed mutagenesis, in which six histidine residues were replaced with alanine, was carried out, and the results indicate that the imidazoles of His81 (E7) and His113 (F8) bind to the heme iron as axial ligands in the hexacoordinate and the low-spin state. The optical absorption, resonance Raman, and IR spectral results are consistent with this conclusion. The redox potential measurements revealed an E' of 20 mV (vs NHE) in the ferric/ferrous couple, indicating that the imidazole ligands of His81 and His113 are electronically neutral. On the basis of the nu(Fe-CO) and nu(C-O) values in the resonance Raman and infrared spectra of the ferrous-CO complexes of Cgb and its mutants, it was found that CO binds to the ferrous iron after the His81 imidazole is dissociated, and three conformers are present in the resultant CO coordination structure. Two are in closed conformations of the heme pocket, in which the bound CO ligand interacts with the dissociated His81 imidazole, while the third is in an open conformation. The nu(Fe-O2) in the resonance Raman spectra of oxy Cgb can be observed at 572 cm(-1), suggesting a polar heme environment. These structural properties of the heme pocket of Cgb are discussed with respect to its proposed in vivo oxygen storage function.     

Mechanism of biosynthesis of trimethylamine oxide from choline in the teleost tilapia, Oreochromis niloticus, under freshwater conditions

The mechanism of biosynthesis of trimethylamine oxide (TMAO) from dietary precursors in the teleost tilapia (Oreochromis niloticus) was investigated. Diets supplemented with quaternary ammonium choline, glycine betaine, carnitine or phosphatidylcholine were administered and significant increases in TMAO levels in the muscle were only observed with choline. [Methyl-14C] and [1,2-14C] cholines were given through dietary and intraperitoneal injection routes, but 14C-TMAO was detected only in fish with dietary administration of [methyl-14C] choline. Dietary treatment with [15N] choline resulted in the formation of [15N] TMAO in the muscle. The incorporation of radioactivity into TMAO was also observed both following dietary administration and intraperitoneal injection of [14C] trimethylamine (TMA). When choline was introduced into the isolated intestine, marked increases in TMA levels occurred. These increases were significantly suppressed in the presence of penicillin. [14C]-TMA derived from [methyl-14C] choline was detected in the cavity of the isolated intestine. The introduction of [15N] choline into the intestinal cavity resulted in the formation of [15N] TMA. TMA mono-oxygenase activities were detected in the liver and kidney. We conclude that tilapia possess the ability to produce TMAO from choline, which is related to intestinal microorganisms and tissue mono-oxygenase under freshwater conditions.     

Deoxyribonuclease II purified from Euglena gracilis SM-ZK, a chloroplast-lacking mutant: comparison with porcine spleen deoxyribonuclease II

An acid deoxyribonuclease was extracted from Euglena gracilis SM-ZK, a chloroplast-lacking strain, by homogenizing the cells in 50 mM sodium acetate (pH 4.6). The enzyme was then purified by heat treatment and a series of chromatographic separations. The molecular mass of the Euglena acid DNase was estimated to be 45 kDa by sensitive activity staining in an SDS-polyacrylamide gel using SYBR Green. Treatment of the Euglena enzyme with a reducing agent prior to electrophoresis destroyed its DNase activity in the gel, indicating that disulfide bridging is essential for its enzyme activity. Nucleolytic properties of this enzyme are essentially the same as to those of porcine DNase II. The Euglena enzyme acts on both double-stranded (ds) and single-stranded DNA, but acts preferentially on dsDNA with an optimum pH at approximately 5.3. EDTA did not inhibit its enzyme activity. Euglena DNase makes double-strand breaks in circular DNA substrate and generates a terminus with 3'-phosphate and 5'-OH. These results indicate that the Euglena acid DNase is in fact a member of the DNase II family.     

The effects of maternal mild protein restriction on stroke incidence and blood pressure in stroke-prone spontaneously hypertensive rats (SHRSP)

The effect of maternal protein restriction during pregnancy on the offspring's blood pressure was assessed in stroke-prone spontaneously hypertensive rats (SHRSP) which are genetically predisposed to hypertension and stroke. After the confirmation of pregnancy, the control group was given a 20% casein diet, and the low-protein group was fed a 9% casein diet. After the confirmation of delivery, commercial feed was given to both of the groups. No differences were seen between the control and low-protein offspring in regard to body weight, blood pressure elevation, or life span. One percent saline solution was put in the control and low-protein groups after the age of 11 weeks. Blood pressure increased markedly in the low-protein group, on the blood pressure level in the low-protein group on week 2 after salt loading (242+/-6 mmHg) was significantly higher than that in the control group (223+/-9 mmHg; p<0.05). The survival duration was significantly shorter in the low-protein group (113+/-4 days) than in the control group (135+/-22 days; p<0.05). These results suggest that maternal protein malnutrition in SHRSP exerted a high salt sensitivity and a malignant influence on stroke incidence on offspring.     

Apoptosis of T cells in the hepatic fibrotic tissue of the rat: a possible inducing role of hepatic myofibroblast-like cells

Apoptosis of T cells contributes to the immune homeostasis in inflamed organs. A prominent T-cell infiltration is usually seen in human chronic active hepatitis, being associated with liver fibrosis. In order to demonstrate T-cell apoptosis in the hepatic fibrotic tissue, we induced T-cell infiltration in the fibrotic liver of the rat by injecting concanavalin A (Con A), a T-cell mitogen. Lymphocytes increased in number with a peak at 1 day, preferentially distributing in the fibrotic tissue rather than the parenchyma. They consisted of CD4-positive and CD8-positive cells, and gave the feature of lymphoblasts. Double staining for CD3 and TUNEL demonstrated that T cells underwent apoptosis. Apoptotic cells were more frequent in the fibrotic livers than the normal livers, and were spatially associated with alpha-smooth muscle actin-positive myofibroblast-like cells that possibly derived from hepatic stellate cells (HSCs) and portal fibroblasts through activation. In vitro experiments demonstrated that lymphocyte apoptosis was more frequently induced in the co-culture of Con A-activated splenic T cells/activated HSCs compared to that induced in activated T cells/quiescent HSCs or resting T cells/activated HSCs. The present results indicate that T cells which have extravasated and infiltrated the hepatic fibrotic tissue undergo apoptosis probably through an interaction with myofibroblast-like cells, suggesting the regulatory role of the latter cells in T-cell accumulation in the fibrotic liver.     

Leflunomide inhibits PDK1/Akt pathway and induces apoptosis of human mast cells

Mast cells release many inflammatory mediators that play an important role not only in allergic diseases but also in chronic inflammatory diseases, autoimmune diseases, and others. A lot of mast cells exist in synovium of rheumatoid arthritis, and it is known that synovitis does not occur in mast cell-deficient mice. Thus, it is thought that mast cells play a very important role in rheumatoid arthritis pathogenesis. Leflunomide is a drug used clinically in the treatment of rheumatoid arthritis. We used clinical doses of 2-cyano-3-hydroxy-N-(4-trifluoromethylphenyl)-butenamide (A77 1726), which is an active metabolite of leflunomide, and decreased the number of viable human primary mast cells in a concentration-dependent manner. This decrease was not reversed by uridine. Inhibition of pyrimidine synthesis by dihydro-orotic acid dehydrogenase inhibition, which is the primary mechanism of action of A77 1726, was not involved. A77 1726 dramatically induced apoptosis of human mast cells and inhibited the phosphorylation of Akt, an important survival signal of mast cells, in a concentration-dependent manner. Caspases 3 and 9, downstream molecules of Akt survival pathway, were also fragmented by A77 1726. In addition, it became evident for the first time that the mechanism involved in this result was the concentration-dependent inhibition of PDK1 phosphorylation, which controls the activation of Akt. These results indicate a new way of controlling mast cells and may therefore be the basis for innovative approaches to the treatment of various diseases related to mast cells.