Accumulation of orally given cadmium in Long-Evans Cinnamon (LEC) rats with an inherently abnormal copper metabolism

An inherent defect of biliary Cu excretion and subsequent Cu deposition in the liver have been found in Long-Evans Cinnamon (LEC) rats, which are promising models of Wilson disease. LEC and Fischer rats were given water containing Cd (CdCl2) at a level of 5 ppm for 30 days. Regardless of drinking Cd water, LEC rats showed a very high concentration of Cu (200 to 250 microgram/g) and Cu-metallothionein (Cu-MT) (18 mg/g) in the liver. There was no difference of Cd accumulation in the liver between the two strains exposed to Cd (2.6 and 2.7 microgram/g in the Fischer and LEC groups, respectively). However, the renal Cd concentration was slightly but significantly higher in LEC rats (3.5 microgram/g) than in Fischer rats (2.0 microgram/g). The ratio of renal Cd contents to the sum of renal and hepatic Cd contents was significantly higher in LEC rats (0.25) than in Fischer rats (0.15). The serum Cd concentration in Cd-treated LEC rats increased threefold compared to Cd-treated Fischer rats. It seems likely that Cd from the liver is transported into the kidney in the form of Cd, Cu-MT. There was no difference in uptake of Cd in the hepatic MT fraction between the two strains. Although biliary Cu excretion in LEC rats was significantly lower than that in Fischer rats, reduced excretion of Cd into bile was not found in LEC rats. The gross amounts of Cu and Cu-MT influenced the accumulation of Cd in the kidney rather than in the liver when Cd was given orally at a low level to LEC rats. Our results suggest tht Cu and Cd do not share the same sites of hepatobiliary excretion in rats, although the main route of their excretion is via bile.     

A high expression of heme oxygenase-1 in the liver of LEC rats at the stage of hepatoma: the possible implication of induction in uninvolved tissue

We have examined changes in the expression of heme oxygenase-1 (HO-1), an inducible isoform and HO-2, a constitutive isoform, in the liver of Long-Evans with a Cinnamon-like color (LEC) rat, a mutant strain which spontaneously develops acute hepatitis and hepatoma. HO-1 expression was highly enhanced in the LEC rat livers with jaundice, and then decreased slightly, but overall remained at a higher level than in the Long-Evans with Agouti color (LEA) control rats, as judged by Northern blotting analysis of the whole liver extract. The high expression of HO-1 in the LEC rat liver was, however, not due to the actual cancer lesion but, rather, due to the surrounding uninvolved tissues including hepatocytes. Immunohistochemical analysis also supported this conclusion. Among normal tissues, the expression of HO-1 but not HO-2 was high in only the spleen of both LEC and LEA rats. The high expression observed in the stage of acute hepatitis and hepatoma stages in the LEC rat is probably due to the oxidative stress caused by the accumulation of free copper and free iron levels which has been reported earlier by our group (Suzuki et al., Carcinogenesis, 1993, 14, 1881-1884 and Koizumi et al., Free Radical Research, in press) as well as by free heme levels. The inflammatory cytokines produced by the surrounding tissue at the hepatoma stage would also be expected to play a role in the induction mechanism. The physiological relevance of HO-1 induction might be an adaptive response to oxidative stress and vasodilatory effect of carbon monoxide on sinusoidal circulation.     

Abnormal accumulation of copper in LEC rat liver induces expression of p53 and nuclear matrix-bound p21(waf 1/cip 1)

The LEC rat is an inbred mutant strain which spontaneously develops liver injury and subsequent liver cancer. Liver injury in LEC rats has recently been shown to be closely related to abnormal copper accumulation in the liver. Previously, we reported that LEC rat hepatocytes lose their growth potential, probably allowing selective growth of preneoplastic cells. In this study, to elucidate the effects of copper accumulation on the growth activity of LEC rat hepatocytes, we examined the growth activity and the expression of p53 and p21(waf 1/cip 1) in the livers of LEC rats fed on either a control or a low-copper diet. Potential for cell proliferation of hepatocytes obtained from normal diet fed LEC rats was almost comparable to that of the cells from age-matched Sprague-Dawley (SD) rats. Northern blot analysis showed that the expression of p53 and p21(waf 1/cip 1) was significantly high in the livers of LEC rats fed a control diet, while the expression of p53 and p21(waf 1/cip 1) in the LEC rats fed a low-copper diet was as low as that of SD rat livers. Western blot analysis consistently showed that the amount of p21(waf 1/cip 1) bound to the nuclear matrix scaffold of the LEC rat liver was reduced by feeding a low-copper diet. These findings suggest that abnormal accumulation of copper induced the expression of p53 and p21(waf 1/cip 1), resulting in the inhibition of cell proliferation of LEC rat hepatocytes.     

Removal and efflux of copper from Cu-metallothionein as Cu/tetrathiomolybdate complex in LEC rats

Tetrathiomolybdate (TTM) removes copper (Cu) accumulating in a form bound to metallothionein (MT) in the liver of LEC rats (Long-Evans rats with a cinnamon-like coat color). The first step in the removal of Cu from Cu-MT has been shown to form a complex between MT and TTM through (MT)-S-Cu-S-(TTM) bridges (referred to as MT/TTM complex). Additional TTM was demonstrated to remove Cu from MT/TTM complex as the second step to form Cu/TTM complex by liberating MT. The Cu/TTM complex binds specifically to albumin in serum and to high molecular weight proteins in the absence of albumin, and is assumed to be a form of Cu for efflux by the treatment with TTM.     

Interactions between metallothionein inducers in rat liver and primary cultures of rat hepatocytes

The interaction of Zn, stress and endotoxin on liver metallothionein (MT) regulation has been studied in the rat. Zn, stress and endotoxin increased liver MT levels significantly, by 12-, 5- and 8-fold, respectively. The previous administration of Zn to stress or endotoxin treatments increased MT levels by 35- and 42-fold, respectively, indicating a synergistic effect in both cases. In contrast, when liver MT was preinduced by stress, MT levels were further increased by endotoxin only in an additive manner. In another experiment where liver MT induction by stress was studied in control rats and in rats with preinduced MT by Zn, endotoxin or stress, it was found that Zn pretreated animals had higher MT-I mRNA levels than endotoxin- or stress-pretreated ones. No synergisms between dexamethasone, Zn, TNF and IFN were observed in primary culture of hepatocytes. These results suggest that the observed synergisms between Zn and other MT inducers in vivo in the liver is a consequence of increased Zn levels in the body and mobilization capacity, with concomitant MT synthesis.     

Mobilization of hepatic cadmium in pregnant rats

Mobilization of hepatic cadmium (Cd) in pregnant rats was investigated. Female Sprague-Dawley rats (200-250 g) were injected subcutaneously, daily with 1.0 mg Cd/kg body weight as CdCl2 for 8 days. A group of these rats was made pregnant. Copper (Cu), zinc (Zn), Cd, and metallothionein (MT) concentrations in the liver, kidney, and plasma of the control and Cd-injected, pregnant and nonpregnant rats, were compared. The hepatic Cd concentration of the Cd-injected rats decreased by 40% during pregnancy and became significantly lower than that of the nonpregnant Cd-injected rats. On the other hand, there was a concomitant increase (60%) of Cd concentrations in the kidney of the Cd-injected pregnant rats. MT in the Cd-injected rats also showed a similar pattern of decrease in hepatic concentrations and increase in renal concentrations during pregnancy. Both Cd and MT contents in the placenta of the Cd-injected rats were higher than those of the control and there was a significant increase over the gestational period. Plasma Cd and MT concentrations of the Cd-injected pregnant rats were higher than those of Cd-injected nonpregnant rats. These results suggest that pregnancy can mobilize the hepatic Cd which can be transferred to the kidney and placenta through the blood plasma. Moreover, the blood urea nitrogen levels of the pregnant Cd-injected rats were increased on Gestation Day 21 and 7 days after delivery, indicating signs of Cd nephropathy. The hepatic Cd, Cu, Zn, and MT concentrations of the newborn rats, however, were unaltered by Cd injections. Therefore, it is possible that pregnancy may induce a high risk of Cd nephrotoxicity in women with chronic Cd exposure.     

N-methyl-D-aspartate receptors in the nucleus accumbens are involved in detection of spatial novelty in mice

Toxic milk mutant (tx) mice accumulate excess copper (Cu) in liver with age and develop symptoms similar to those seen in human Wilson disease. Because metallothionein (MT) is the major Cu-binding protein in tx mouse liver and Cu-MT can enhance lipid peroxidation initiated by an organic hydroperoxide, the potential genotoxicity of Cu-MT in tx mice was assessed in male tx mice (11 to 12 months old) and in age- and sex-matched control wild-type (DL) mice. Toxic milk mutant mice, but not control DL mice, developed regenerative liver nodules (tx-N) with normal histologic appearance. Residual, non-nodular tx mouse liver (tx-R) was microscopically abnormal with large, atypical hepatocytes. The levels of Cu, zinc (Zn), and MT, and the numbers of apoptotic cells (APC) in tx-N, tx-R, and DL livers were measured by atomic absorption spectrophotometry, 109cadmium-heme assay, and the TUNEL method, respectively. Significantly higher levels of MT, Cu, and Zn, as well as increased numbers of APC were found in both tx-N and tx-R compared with DL mouse livers. Intense nuclear and cytoplasmic immunohistochemical staining for MT was observed in both normal and atypical hepatocytes of the tx mouse, whereas only cytoplasmic staining for MT was detected in DL mouse liver tissue. Accumulated Cu could be detected in tx-R and tx-N liver by rhodanine staining but was not detected in other tx mouse organs, or in mouse liver or other organs of DL. The number of APC and level of MT were significantly higher in tx-R liver compared with both tx-N and DL liver. These results suggest that: (a) aged tx mouse accumulate excess Cu in liver accompanied by striking morphologic changes, and (b) although MT binds to Cu in tx mouse liver, the presence of high Cu-MT and Cu in the nucleus can be genotoxic and may lead to enhanced apoptosis.     

Rheumatology research. Analysis of Spanish papers published in 1990-1996 in 9 foreign journals in the field

The organization of the human metallothionein (MT) gene family is more complex than the commonly used mouse and rat models. The human MTs are encoded by a family of genes consisting of 10 functional and 7 nonfunctional MT isoforms. One objective of this study was to determine if the accumulation of MT protein in cultures of human proximal tubule (HPT) cells exposed to metals is similar to that expected from the knowledge base obtained from rodent models. To accomplish this objective, HPT cells were exposed to both lethal and sublethal concentrations of Cd2+, Zn2+, Cu2+, Ag2+, Hg2+, and Pb2+ and MT protein levels were determined. The results were in general agreement with animal model studies, although there were some exceptions, mainly in areas where the animal model database was limited. In clear agreement with animal models, Cd2+, Zn2+, and Cu2+ were demonstrated to be potent inducers of MT protein accumulation. In contrast to the similarity in MT protein expression, we obtained evidence that the human renal MT-2 gene has a unique pattern of regulation compared to both animal models and human-derived cell cultures. In the present study, we determined that MT-2A mRNA was not induced by exposure of HPT cells to Cd2+ or the other metals, a finding in contrast to studies in both animal models and other human cell culture systems in which a high level of MT-2 mRNA induction occurs upon exposure to Cd2+ or Zn2+. While MT protein expression may be similar between humans and animal models, this finding provides initial evidence that regulation of the genes underlying MT protein expression may be divergent between species.     

Changes in myocardial metallothionein on isoproterenol-induced myocardial injury

The amounts of myocardial metallothionein (MT) and heavy metal (Zn, Cu) levels during the early stage of the experimental myocardial infarction model induced by isoproterenol (Isp) administration were measured by an atomic absorption spectrophotometry. MT was measured by the Cd-hem method. Myocardial infarction was induced by the administration of 75 mg/kg i.p. of Isp to rats weighing 270 +/- 10 g. Thirty minutes after Isp injection, Zn and Cu levels began to decrease and 12 h later, reached the minimal values compared with the control value. The level of MT began to increase 3 h after the Isp injection and reached the maximal value at 12 h, although MT remained undetectable in the control myocardial tissue by the Cd-hem method. MT levels in the liver increased and total Zn and Cu were elevated compared with the control value 12 h after Isp administration. These results suggest that MT is produced in the myocardium after Isp administration, and that the roles of MT in the heart and the liver are different. It was thought that a rise in MT was induced for the protection of the myocardial cells to injury.     

Validation of precision-cut liver slices in dynamic organ culture as an in vitro model for studying CYP1A1 and CYP1A2 induction

The utilization of precision-cut liver slices in dynamic organ culture as an in vitro model was validated by comparing the induction of the biomarker responses following in vitro (rat liver slice) and in vivo exposure of rats to 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD). The biomarker responses investigated were cytochrome P450s 1A1 and 1A2 (CYP1A1 and CYP1A2) mRNA, protein, and activities. Precision-cut rat liver slices were incubated in dynamic organ culture for 24 hr with medium containing 0.001-10 nM TCDD or medium without TCDD (control). The resultant mean TCDD concentration in the slices ranged from 19 to 80,925 ppt (wet wt), respectively. A concentration-dependent induction of CYP1A1 mRNA, protein, and activities and a more modest induction of CYP1A2 mRNA was observed in liver slices at all medium concentrations of TCDD. The O-demethylation of 7-methoxyresorufin, a marker for CYP1A2 activity, was induced at TCDD medium levels of 0.01 nM and greater, whereas a detectable increase in CYP1A2 protein occurred only at the higher concentrations. Comparable liver concentrations of TCDD (8-64,698 ppt wet wt) were achieved at 24 hr following a single in vivo exposure of rats to TCDD at doses ranging from 0.002 to 5 microg/kg po. Concentration-effect and dose-response relationships for induction of CYP1A1 and CYP1A2 were similar following in vitro and in vivo exposure to TCDD, although the magnitude of induction was greater for in vivo exposure. The data support the use of liver slices in dynamic organ culture for assessing the relative in vivo potency of a compound to induce CYP1A1 and CYP1A2. Human tissue can also be readily utilized in this in vitro model to predict the biological and toxicological effects of a given in vivo exposure to TCDD.     

A high frequency of induction of chromosome aberrations in the fibroblasts of LEC strain rats by X-irradiation

The LEC strain of rats (LEC rats), originally developed as a model for hereditary fulminant hepatitis, is highly sensitive to whole-body X-irradiation when compared to WKAH strain of rats (WKAH rats). The present results showed that frequencies of certain types of chromosome aberrations induced by in vitro X-irradiation in the fibroblasts of LEC rats were higher than those of WKAH rats. In particular, frequencies of chromatid gaps and chromosome exchanges in LEC cells were higher approximately 4- to 5-fold and 6- to 8-fold, respectively, than those of WKAH cells.     

Prognostic factors and rational approach in the treatment of submucosal cancer of the stomach

Metallothionein (MT) mRNA levels were analyzed following exposure of neonatal rat primary astrocyte cultures to physiologic pH (7.4), acidosis (pH 6.5 and 6.0), and dimethyl sulfoxide (DMSO). Treatments were carried out both in the presence and absence of the bioflavonoid, quercetin. Total RNA was probed on northern blots with [alpha32P]dCTP-labeled synthetic cDNA probes specific for rat MT isoform mRNAs. MT-I and MT-II mRNA levels in astrocytes exposed to pH 6.5 or pH 6.0 were increased compared to controls (pH 7.4). Treatment with DMSO in the presence and absence of acidosis, also increased MT-I and MT-II mRNA levels compared to controls (pH 7.4). The DMSO-induced increase in MT mRNA expression was reversed by treatment of astrocytes with quercetin, such that MT-I and MT-II mRNA levels in DMSO plus quercetin-treated astrocytes were indistinguishable from mRNA levels in their respective controls at pH 7.4, pH 6.5, and pH 6.0. These findings suggest that both acidosis and DMSO exposure are associated with increased astrocytic MT synthesis at the mRNA level, and that quercetin, effectively blocks MT mRNA induction by DMSO.     

Differential expression and origin of membrane-type 1 and 2 matrix metalloproteinases (MT-MMPs) in association with MMP2 activation in injured human livers

Matrix metalloproteinase-2 (MMP2) activation is associated with basement membrane remodeling that occurs in injured tissues and during tumor invasion. The newly described membrane-type MMPs (MT-MMPs) form a family of potential MMP2 activators. We investigated the localization and steady-state levels of MT1-MMP and MT2-MMP mRNA, compared with those of MMP2 and tissue inhibitor of MMP-2 in 22 hepatocellular carcinomas, 12 liver metastases from colonic adenocarcinomas, 13 nontumoral samples from livers with metastases, 10 benign tumors, and 6 normal livers. MMP2 activation was analyzed by zymography in the same series. The expression of MT1-MMP mRNA and the activation of MMP-2 were increased in hepatocellular carcinomas, metastases, and cholestatic nontumoral samples. MT2-MMP mRNA was rather stable in the different groups. MT1-MMP mRNA levels, but not MT2-MMP mRNA, correlated with MMP-2 and tissue inhibitor of MMP-2 mRNA levels and with MMP2 activation. In situ hybridization showed that MT1-MMP mRNA was expressed in stromal cells, and MT2-MMP mRNA was principally located in both hepatocytes and biliary epithelial cells. Consistently, freshly isolated hepatocytes expressed only MT2-MMP mRNA, and culture-activated hepatic stellate cells showed high levels of MT1-MMP mRNA. These results indicate that in injured livers, MMP2 activation is related to a coordinated high expression of MMP2, tissue inhibitor of MMP-2, and MT1-MMP. Furthermore, the finding of a preferential expression of MT2-MMP in hepatocytes, together with our previous demonstration that the activation of stellate cell-derived MMP2 in co-culture requires interactions with hepatocytes (Am J Pathol 1997, 150:51-58), suggests that parenchymal cells might play a pivotal role in the MMP2 activation process.     

Expressions of vascular endothelial growth factor in nonparenchymal as well as parenchymal cells in rat liver after necrosis

Vascular endothelial growth factor (VEGF) can induce proliferation of sinusoidal endothelial cells. Its mRNA expression was increased in proliferating rat hepatocytes in primary culture. To clarify a role of VEGF in liver after necrosis, expressions of VEGF and its receptors were measured in the liver or liver cells isolated from rats after carbon tetrachloride intoxication. Hepatic VEGF mRNA expression increased later than 24 h after the intoxication and became prominent at 168 h when liver necrosis disappeared, while hepatic mRNA expressions of its receptors increased between 24 and 72 h. VEGF mRNA expression was increased in Kupffer cells, hepatic macrophages and stellate cells isolated from rats between 24 and 72 h after the intoxication and in hepatocytes at 168 h compared to those cells from normal rats. Immunohistochemical VEGF stains were comparable to such results. Vascular endothelial cells existed abundantly in the necrotic areas, and sinusoidal endothelial cells appeared following disappearance of the necrotic areas. VEGF mRNA expression in hepatocytes isolated from 70% resected liver was increased at 12 h after the operation and became marked between 72 and 168 h. Similar increase of hepatic VEGF expression was immunohistochemically seen. In conclusion, VEGF derives from nonparenchymal as well as parenchymal cells in rat liver after necrosis. The former might contribute to vascular endothelial cell proliferation and the latter to sinusoidal endothelial cell regeneration.     

Antiferromagnetic coupling in (111)-oriented Co/Pt superlattices

The LEC rat is an inbred mutant strain with spontaneous hepatitis isolated from Long-Evans rats. Since approximately 40% of LEC rats die of fulminant hepatitis, the rat serves an animal model for studying the pathogenesis and treatment of human fulminant hepatitis. The remaining 60% of LEC rats survive and develop chronic (prolonged) hepatitis and subsequently develop liver cancer. Therefore, the LEC rat serves an important animal model for studying the significance of chronic hepatitis in the development of human liver cancer, which often develops in association with chronic hepatitis. The LEC rat can also be used as an animal model of Wilson's disease, since recent studies have disclosed high copper accumulation in the liver and low ceruloplasmin concentration in the serum of this mutant rat.     

Abnormal G1 arrest in the cell lines from LEC strain rats after X-irradiation

The effect of X-irradiation of cell lines from LEC and WKAH strain rats on a progression of cell cycle was investigated. When WKAH rat cells were exposed to 5 Gy of X-rays and their cell cycle distribution was determined by a flow cytometer, the proportion of S-phase cells decreased and that of G2/M-phase cells increased at 8 hr post-irradiation. At 18 and 24 hr post-irradiation, approximately 80% of the cells appeared in the G1 phase. On the contrary, the proportion of S-phase cells increased and that G1-phase cells decreased in LEC rats during 8-24 hr post-irradiation, compared with that at 0 hr post-irradiation. Thus, radiation-induced delay in the progression from the G1 phase to S phase (G1 arrest) was observed in WKAH rat cells but not in LEC rat cells. In the case of WKAH rat cells, the intensities of the bands of p53 protein increased at 1 and 2 hr after X-irradiation at 5 Gy, compared with those of unirradiated cells and at 0 hr post-irradiation. In contrast, the intensities of the bands were faint and did not significantly increase in LEC rat cells during 0-6 hr incubation after X-irradiation. Present results suggested that the radioresistant DNA synthesis in LEC rat cells is thought to be due to the abnormal G1 arrest following X-irradiation.