Rescue of in vivo FAS-induced apoptosis of hepatocytes by corticosteroids either associated with alcohol consumption by mice or provided exogenously

Alternating consumption of β-glucan and quercetin reduces mortality in mice with colorectal cancer

The current dietary recommendations for disease prevention and management are scarce and are not well supported. Beta-glucan or quercetin in a diet can alleviate colorectal cancer (CRC) by regulating the gut microbiota and related genes, but the effects of alternating their consumption for routine ingestion during CRC occurrence remain unknown. This study investigated the effects of alternating the consumption of β-glucan and quercetin for routine ingestion on CRC development in mice. The mortality rate, colonic length, inflammatory cytokines, gut microbiota, and colonic epithelial gene expression in healthy and CRC mice that consumed normal and alternate diets were compared and studied. The results showed that alternating the consumption of β-glucan and quercetin (alternating among a β-glucan diet, a normal diet and a normal diet that was supplemented with quercetin) alleviated colon damage and reduced the mortality rate in CRC mice, with a reduction in mortality of 12.5%. Alternating the consumption of β-glucan and quercetin significantly decreased the TNF-α level, increased the relative abundance of Parabacteroides, and downregulated three genes (Hmgcs2, Fabp2, and Gpt) that are associated with inflammation and cancer. Alternating the consumption of some bioactive compounds, such as β-glucan and quercetin, in food can contribute to human health. This experiment provided some experimental evidence for the dietary recommendations for disease prevention and management.

A lab-on-a-chip system integrating tissue sample preparation and multiplex RT-qPCR for gene expression analysis in point-of-care hepatotoxicity assessment

A truly practical lab-on-a-chip (LOC) system for point-of-care testing (POCT) hepatotoxicity assessment necessitates the embodiment of full-automation, ease-of-use and "sample-in-answer-out" diagnostic capabilities. To date, the reported microfluidic devices for POCT hepatotoxicity assessment remain rudimentary as they largely embody only semi-quantitative or single sample/gene detection capabilities. In this paper, we describe, for the first time, an integrated LOC system that is somewhat close to a practical POCT hepatotoxicity assessment device - it embodies both tissue sample preparation and multiplex real-time RT-PCR. It features semi-automation, is relatively easy to use, and has "sample-in-answer-out" capabilities for multiplex gene expression analysis. Our tissue sample preparation module incorporating both a microhomogenizer and surface-treated paramagnetic microbeads yielded high purity mRNA extracts, considerably better than manual means of extraction. A primer preloading surface treatment procedure and the single-loading inlet on our multiplex real-time RT-PCR module simplify off-chip handling procedures for ease-of-use. To demonstrate the efficacy of our LOC system for POCT hepatotoxicity assessment, we perform a preclinical animal study with the administration of cyclophosphamide, followed by gene expression analysis of two critical protein biomarkers for liver function tests, aspartate transaminase (AST) and alanine transaminase (ALT). Our experimental results depict normalized fold changes of 1.62 and 1.31 for AST and ALT, respectively, illustrating up-regulations in their expression levels and hence validating their selection as critical genes of interest. In short, we illustrate the feasibility of multiplex gene expression analysis in an integrated LOC system as a viable POCT means for hepatotoxicity assessment.

Ethanol plus the Jo2 Fas agonistic antibody-induced liver injury is attenuated in mice with partial ablation of argininosuccinate synthase

BACKGROUND

Argininosuccinate synthase (ASS) is an enzyme shared by the urea cycle and the l-citrulline/nitric oxide (NO·) cycle. ASS is the rate-limiting enzyme in the urea cycle and along with nitric oxide synthase 2 (NOS2), it endows cells with the l-citrulline/NO· salvage pathway to continuously supply l-arginine from l-citrulline for sustained NO· generation. Thus, ASS conditions NO· synthesis by NOS2. Because of the relevance of NOS2 activation for liver injury, we examined the contribution of ASS to NO· generation and how it impacts liver injury.

METHODS

Wild-type (WT) mice and Ass(+/-) mice (Ass(-/-) mice are lethal) were intraperitoneally injected with ethanol (EtOH) at a dose of 2.5 g/kg of body weight twice a day for 3 days. Two hours after the last dose of EtOH, mice were administered the agonistic Jo2 anti-mouse Fas monoclonal antibody (Ab) at a dose of 0.2 μg/g of body weight. Mice were sacrificed 8 hours after the Jo2 Ab injection. Markers of nitrosative and oxidative stress as well as liver damage were analyzed.

RESULTS

EtOH plus Jo2 injection induced liver injury as shown by serum alanine aminotransferase and aspartate aminotransferase activity, liver pathology, TUNEL, and cleaved caspase-3 were lower in Ass(+/-) mice compared with WT mice, suggesting that ASS contributes to EtOH plus Jo2-mediated liver injury. CYP2E1 induction, glutathione depletion, and elevated thiobarbituric acid reactive substances were comparable in both groups of mice, suggesting that CYP2E1-mediated oxidative stress is not linked to ASS-induced liver injury. In contrast, NOS2 induction, 3-nitrotyrosine adducts formation and elevated nitrites, nitrates, and S-nitrosothiols were higher in livers from WT mice than from Ass(+/-) mice.

CONCLUSION

Decreased nitrosative stress causes lower EtOH plus Jo2-induced liver injury in Ass(+/-) mice.

Chronic ethanol feeding potentiates Fas Jo2-induced hepatotoxicity: role of CYP2E1 and TNF-alpha and activation of JNK and P38 MAP kinase

We have previously shown that treatment of mice with pyrazole or acute ethanol potentiated Fas agonistic Jo2 antibody-induced liver injury by a mechanism involving induction of CYP2E1 and elevated oxidative stress. The current study evaluated whether chronic alcohol feeding potentiates Fas-induced liver injury and whether CYP2E1 plays a role in any enhanced hepatotoxicity. Wild-type and CYP2E1 knockout mice were fed ethanol or isocaloric dextrose for 4 weeks followed by a single treatment with either saline or Jo2. Mice were killed 8 h after the Jo2 challenge. There were three- to five fold increases in transaminases and more extensive eosinophilic necrosis, hemorrhage, and infiltration of inflammatory cells in the central zone of the hepatic lobule in the ethanol-fed mice treated with Jo2 compared to the dextrose/Jo2- or ethanol/saline-treated mice. Liver injury was blunted in ethanol-fed CYP2E1 knockout mice treated with Jo2. The chronic ethanol feeding produced steatosis, elevation of CYP2E1, and oxidative stress in wild-type but not CYP2E1 knockout mice. These changes in wild-type mice fed ethanol were similar after saline or Jo2 treatment. The Jo2 treatment produced activation of JNK and P38 MAP kinase, increased activity of caspase-8 and -3, and lowered hepatic GSH levels in both the dextrose- and the alcohol-fed mice. JNK was activated at early times after Jo2 treatment in the ethanol-fed mice. Serum TNF-alpha levels were strikingly elevated in the wild-type ethanol/Jo2 group, which showed liver injury, compared to all the other groups, which did not show liver injury. Inhibition of JNK or P38 MAPK partially, but not completely, prevented the elevated liver injury in the wild-type ethanol/Jo2 mice. These results show that chronic ethanol feeding enhances Fas-induced liver injury by a mechanism associated with induction of CYP2E1, elevated serum TNF-alpha levels, and activation of MAPK.

Immunohistopathological and biochemical changes in Schistosoma mansoni-infected mice treated with artemether

OBJECTIVE

To investigate immune mechanisms possibly involved in the amelioration of histopathological changes in livers of Schistosoma mansoni-infected mice treated with artemether (ART), including liver functions and apoptotic changes.

METHODS

Male CD-1 Swiss albino mice were infected with Schistosoma mansoni and treated with praziquantel (PZQ) 6 weeks post-infection (PI) (500 mg/kg/day x2) and/or ART in double dose (each of 400 mg/kg) 4 and 6 weeks PI. Parasitological parameters, liver functions and histopathological changes including T-lymphocyte profile and apoptotic changes were assessed.

RESULTS

Eight weeks PI, although the reduction in worm burden in mice treated with ART plus PZQ was comparable to that in PZQ-treated mice, yet there was complete absence of eggs and typical granulomas. The ratio of T-helper/cytotoxic cells was in favor of T-helper in infected control and in mice treated with both drugs. This ratio was 0.9:1 and 0.7:1 in PZQ and ART-treated groups, respectively, with moderate apoptotic changes in the latter. All biochemical parameters expressing liver function were improved with all treatment regimens.

CONCLUSIONS

Administration of ART in addition to PZQ resulted in absence of eggs and typical granulomas with less apoptotic changes than in ART-treated mice. Improved liver functions with higher apoptosis in ART-treated mice may suggest enhanced necrotic cell death/regenerative changes.

Thymocytes, pre-B cells, and organ changes in a mouse model of chronic ethanol ingestion--absence of subset-specific glucocorticoid-induced immune cell loss

BACKGROUND

The well-known immune deficiency of the chronic alcoholic dictates the need for a long-term rodent ethanol administration model to evaluate the baseline immunologic effects of chronic ethanol abuse, and investigate the genetic determinants of those effects. Much published work with rodents has shown clearly that acute ethanol administration and short-term ethanol-containing liquid diets both cause elevated corticosterone and can cause significant thymocyte, pre-B cell and peripheral lymphocyte losses. Such losses may mask more subtle alterations in immune homeostasis, and in any case are generally short-lived compared with the span of chronic ethanol abuse. Thus, it is important to have a model in which long-term immune alterations can be studied free of corticosteroid-induced cell losses.

METHODS

We have utilized chronic 20% (w/v) ethanol in water administration to several mouse strains for prolonged periods of time and evaluated serum corticosterone, immunologic stress parameters, and other organ changes by standard methods.

RESULTS

We now confirm earlier reports that chronic ethanol in water administration to mice does not produce net elevations of corticosterone, although diurnal variation is altered. Importantly, there is neither selective loss of immune cell populations known to be corticosteroid sensitive, CD4+CD8+ thymocytes and pre-B cells, nor are changes observed in the histologic appearance of the thymus. Nonetheless, there are significant chronic ethanol effects in other tissues, including reduced heart weight, mild hepatic steatosis, alterations of gut flora, increased serum peptidoglycan, and as published elsewhere, immune system abnormalities.

CONCLUSIONS

This model of ethanol administration is convenient, sustainable for up to 1 year, demonstrably feasible in several mouse strains, permits good weight gains in most strains, and results in significant changes in a number of organs. The administration method also will permit modeling of long-term steady abuse punctuated by major binges, and is suitable for supplementation studies using water soluble additives. Overall, the method is useful for a wide range of studies requiring a chronic low-stress method of ethanol administration.

Acute ethanol pretreatment increases FAS-mediated liver injury in mice: role of oxidative stress and CYP2E1-dependent and -independent pathways

This study evaluated whether acute ethanol pretreatment potentiates Fas-mediated liver injury and if oxidative stress and CYP2E1 play a role in any enhanced hepatotoxicity. There were 3-fold increases of transaminases and more extensive apoptotic necrosis of hepatocytes and focal hemorrhages of the hepatic lobule in mice treated with Jo2 Fas agonistic antibody plus ethanol compared to saline control or to mice treated with Jo2 or ethanol alone. CYP2E1 catalytic activity and protein were increased 2-fold by the acute ethanol pretreatment. There were 2- and 2.5-fold increases of caspase-8 and caspase-3 activity and 1.6-fold increases of apoptotic-positive cells in the Jo2 plus acute ethanol group compared to the Jo2 alone group. Levels of TNF-alpha, malondialdehyde, 4-hydroxynonenal, protein carbonyl formation, 3-nitrotyrosine protein adducts, and inducible nitric oxide synthase were increased in the Jo2 plus ethanol group. The enhanced hepatotoxicity of Jo2 plus ethanol and the elevated oxidative stress and TNF levels were lower in CYP2E1 knockout mice compared to wild-type mice expressing CYP2E1 but higher than saline controls. Toxicity also declined in mice treated with gadolinium chloride, an inhibitor of the inducible nitric oxide synthase or the antioxidant, N-acetyl-L-cysteine. These data indicate that acute ethanol pretreatment is capable of elevating hepatic apoptosis and liver injury induced by Jo2 Fas agonistic antibody. The enhanced hepatotoxicity involves increased oxidative and nitrosative stress, and appears to be mediated by CYP2E1-dependent and also CYP2E1-independent mechanisms.

Alcoholic pancreatitis: mechanisms of viral infections as cofactors in the development of acute and chronic pancreatitis and fibrosis

Acute and chronic pancreatitis is associated with alcohol abuse, but symptomatic pancreatitis develops in only a small proportion of persons (10-20%) who abuse alcohol. This apparent paradox has led to the notion that additional cofactors are involved in the development of alcoholic pancreatitis. Potential cofactors, such as diet and smoking, have been suggested, but there are no compelling epidemiologic data to support this idea. A number of viruses and some bacteria have been shown to infect the pancreas and produce pancreatitis. One important mediator of pancreatitis in persons with a compromised immune system is a viral infection. The increased susceptibility of immunocompromised persons to viral pancreatitis led to the hypothesis, described in this paper, that the well-known immunosuppression associated with alcohol abuse would result in a more severe viral pancreatitis in mice, which are provided ethanol, than in control animals. To test this hypothesis, C57BL/6 mice were infected with a virulent strain of coxsackievirus B3, which preferentially induces pancreatitis, or with a strain that is naturally avirulent. The study findings presented in this paper show that ethanol consumption alone does not produce pancreas damage but results in a more severe and prolonged pancreatitis after infection with a virulent virus and interestingly, after infection with the avirulent strain of virus. This was associated with an increased number of viruses in the pancreas and spleen, which correlated with decreased humoral immune responses to the virus.

Role of corticosterone in immunosuppressive effects of acute ethanol exposure on Toll-like receptor mediated cytokine production

Acute ethanol (EtOH) exposure causes a stress response in humans, nonhuman primates, and rodents. Previous study results indicate that the suppression of some immunological parameters by EtOH is mediated in part or completely by elevated corticosterone concentrations induced by EtOH. However, initial results suggested that corticosterone is not involved in the modulation of cytokine production by macrophages in response to polyinosinic polycytidylic acid (poly I:C). New studies were conducted to further evaluate the role of corticosterone in EtOH-mediated changes in production of interleukin-6 (IL-6), IL-10, and IL-12 in serum and peritoneal fluid in mice treated with poly I:C or lipopolysaccharide (LPS). Suppression of IL-6, but not IL-12, production by EtOH was found to be mediated by corticosterone. However, poly I:C, LPS, and EtOH all caused similar elevations of corticosterone concentrations; thus, it is not clear if EtOH is required to induce levels or durations of corticosterone needed to mediate the observed effects. The situation with IL-10 was more complicated. Inhibition of corticosterone synthesis with aminoglutethimide prevented the increase in IL-10 production caused by EtOH plus poly I:C as compared to poly I:C only. This indicates that this increase is dependent on corticosterone, but exogenous corticosterone plus poly I:C did not increase IL-10 production. Thus, EtOH and corticosterone are required. However, with LPS inhibition of corticosterone synthesis (using aminoglutethimide) or inhibition of its action (using mifepristone) further increased, or did not affect IL-10 concentrations, suggesting fundamental differences in the signaling pathways leading from poly I:C and LPS to IL-10 production.

A novel model of acute liver injury in mice induced by T cell-mediated immune response to lactosylated bovine serum albumin

The present study aimed to establish a murine liver injury model with T cell-mediated immune response to mimic the cellular immunological pathogenesis of hepatitis. Bovine serum albumin was conjugated with lactose by redox to prepare lactosylated bovine serum albumin (LacBSA). The liver injury was induced in C57BL/6 mice by a T cell-mediated immune response to LacBSA. After a systemic injection of LacBSA, which elicited immune response in mice sensitized twice with LacBSA, liver injury was observed with obvious increase of aminotransferase levels in serum and hepatocelluar damage in liver histology. However, the splenectomy before the elicitation significantly alleviated the liver injury. Direct contact between spleen T cells/nonparenchymal cells and hepatocytes was proved to be essential to induce the release of alanine aminotransferase in the culture supernatant. In addition, both levels of Fas mRNA in liver tissues and Fas Ligand in spleen cells were up-regulated at 6 h after the elicitation. The Fas mRNA expression was maintained in a relatively high level at 18 h while Fas Ligand began to decrease after 12 h. These results demonstrated that the T cell immune response to LacBSA could be successfully localized in the liver to induce an immunological liver injury in mice. The pathogenesis of the liver injury might involve the interaction between the liver-infiltrating lymphocytes and hepatocytes through Fas/FasL pathway.

Induction of cytochrome P450 2E1 increases hepatotoxicity caused by Fas agonistic Jo2 antibody in mice

Cytochrome P450 2E1 (CYP2E1) may be a central pathway in generating oxidative stress, reactive oxygen species, and causing hepatotoxic injury by alcohol and various hepatotoxins. This study evaluated the ability of CYP2E1 to potentiate or synergize the hepatotoxicity of Fas in vivo. C57BL/6 mice were injected intraperitoneally with pyrazole (Pyr) to induce CYP2E1. Then, 16-hour fasted mice were administered agonistic Jo2 anti-Fas antibody ip. Other mice were treated with Pyr or Jo2 alone. Levels of serum aminotransferase were 8.3- and 6.3-fold higher in the Pyr/Jo2 group compared with Jo2 alone, respectively. Histological evaluation of liver showed more extensive acidophilic necrosis and severe pathological changes in the Pyr/Jo2-treated mice. DNA fragmentation and caspase-8 and -3 activities were more elevated in the Pyr/Jo2 group compared with Jo2 alone. CYP2E1 activity and protein levels were higher in the Pyr/Jo2 group than in Jo2 alone. Levels of inducible nitric oxide synthase, 3-nitrotyrosine protein adducts, malondialdehyde, and protein carbonyls were also higher in the Pyr/Jo2 group compared with Jo2 alone. Glutathione and activities of catalase and Cu-Zn superoxide dismutase were decreased in the Pyr/Jo2 group. Administration of chlormethiazole, an inhibitor of CYP2E1, to the Pyr/Jo2-treated mice caused a significant decrease of alanine aminotransferase and liver pathological changes in association with a decrease in CYP2E1 protein and activity. In conclusion, enhanced hepatotoxicity of Fas was found in mice with elevated levels of CYP2E1. We speculate that overexpression of CYP2E1 might synergize and increase the susceptibility to Fas induced-liver injury.