Peroxisome proliferator-activated receptor α agonist-induced histidine decarboxylase gene expression in the rat and mouse liver.

By analysis of the data from the Toxicogenomics Database (TG-GATEs), histidine decarboxylase gene (Hdc) was identified as largely and commonly upregulated by three fibrates, clofibrate, fenofibrate, and WY-14,643, which are known to induce hepatocellular hypertrophy and proliferation via stimulation of peroxisome proliferator-activated receptor α (PPARα) in rodents. As histamine has been reported to be involved in the proliferation of liver cells, the present study was conducted to focus on Hdc. Among other genes related to histidine and histamine, the expression of the gene of histamine ammonia lyase (Hal) was exclusively mobilized by the three fibrates. The expression of Hdc, which was usually very low in the liver, was increased with the repeated administration of fibrates, and concomitantly, the constitutive expression of Hal was suppressed. An interpretation is that the formation of urocanic acid from histidine under the normal condition switches to the formation of histamine. The mobilization of gene expression of Hdc and Hal by PPARα agonists could not be reproduced in primary cultured hepatocytes. The Hdc mRNA appeared to be translated to a protein which is processed differently from brain but similarly to gastric mucosa. Surprisingly, the fibrates caused hepatic hypertrophy but no induction of Hdc mRNA at all in mice. These results revealed that the changes in the histidine catabolism by PPARα agonists might be partially, but not directly, involved in the hepatocyte proliferation in rats, and there is a large genetic distance even between rat and mouse.

Sex-steroids and hypolipidemic chemicals impacts on brown trout lipid and peroxisome signaling - Molecular, biochemical and morphological insights.

Lipid metabolism involves complex pathways, which are regulated in a similar way across vertebrates. Hormonal and hypolipidemic deregulations cause lipid imbalance from fish to humans, but the underlying mechanisms are far from understood. This study explores the potential of using juvenile brown trout to evaluate the in vivo interferences caused by estrogenic (17α-ethinylestradiol - EE2), androgenic (testosterone - T), and hypolipidemic (clofibrate - CLF) compounds in lipidic and/or peroxisomal pathways. Studied endpoints were from blood/plasma biochemistry, plasma fatty acid profile, ultrastructure of hepatocytes and abundance of their peroxisomes to mRNA expression in the liver. Both T and CLF caused minimal effects when compared to EE2. Estrogenized fish had significantly higher hepatosomatic indexes, increased triglycerides and very-low density lipoproteins (VLDL) in plasma, compared with solvent control. Morphologically, EE2 fish showed increased lipid droplets in hepatocytes, and EE2 and T reduced volume density of peroxisomes in relation to the hepatic parenchyma. Polyunsaturated fatty acids (PUFA) in plasma, namely n-3 PUFA, increased with EE2. EE2 animals had increased mRNA levels of vitellogenin A (VtgA), estrogen receptor alpha (ERα), peroxisome proliferator-activated receptor alpha (PPARα), PPARαBa and acyl-CoA long chain synthetase 1 (Acsl1), while ERß-1, acyl-CoA oxidase 1-3I (Acox1-3I), Acox3, PPARγ, catalase (Cat), urate oxidase (Uox), fatty acid binding protein 1 (Fabp1) and apolipoprotein AI (ApoAI) were down-regulated. In summary, in vivo EE2 exposure altered lipid metabolism and peroxisome dynamics in brown trout, namely by changing the mRNA levels of several genes. Our model can be used to study possible organism-level impacts, viz. in gonadogenesis.

Assessment of Preclinical Liver and Skeletal Muscle Biomarkers Following Clofibrate Administration in Wistar Rats.

Clofibrate is a known rodent hepatotoxicant classically associated with hepatocellular hypertrophy and increased serum activities of cellular alanine aminotransferase/aspartate aminotransferase (ALT/AST) in the absence of microscopic hepatocellular degeneration. At toxic dose, clofibrate induces liver and skeletal muscle injury. The objective of this study was to assess novel liver and skeletal muscle biomarkers following clofibrate administration in Wistar rats at different dose levels for 7 days. In addition to classical biomarkers, liver injury was assessed by cytokeratin 18 (CK18) cleaved form, high-mobility group box 1, arginase 1 (ARG1), microRNA 122 (miR-122), and glutamate dehydrogenase. Skeletal muscle injury was evaluated with fatty acid binding protein 3 (Fabp3) and myosin light chain 3 (Myl3). Clofibrate-induced hepatocellular hypertrophy and skeletal muscle degeneration (type I rich muscles) were noted microscopically. CK, Fabp3, and Myl3 elevations correlated to myofiber degeneration. Fabp3 and Myl3 outperformed CK for detection of myofiber degeneration of minimal severity. miR-122 and ARG1 results were significantly correlated and indicated the absence of liver toxicity at low doses of clofibrate, despite increased ALT/AST activities. Moreover, combining classical and novel biomarkers (Fabp3, Myl3, ARG1, and miR-122) can be considered a valuable strategy for differentiating increased transaminases due to liver toxicity from skeletal muscle toxicity.

Different induction of LPA receptors by chemical liver carcinogens regulates cellular functions of liver epithelial WB-F344 cells.

Lysophosphatidic acid (LPA) signaling via LPA receptors (LPA1 to LPA6 ) mediates a variety of cellular functions, including cell motility. In the present study, we investigated the effects of LPA receptors on cell motile activity during multi-stage hepatocarcinogenesis in rat liver epithelial WB-F344 cells treated with chemical liver carcinogens. Cells were treated with a initiator (N-nitrosodiethylamine (DEN)) and three promoters (phenobarbital (PB), okadaic acid (OA) and clofibrate) every 24 h for 2 days. Cell motile activity was elevated by DEN, correlating with Lpar3 expression. PB, OA, and clofibrate elevated Lpar1 expression and inhibited cell motile activity. To evaluate the effects of long-term treatment on cell motility, cells were treated with DEN and/or PB for at least 6 months. Lpar3 expression and cell motile activity were significantly elevated by the long-term DEN treatment with or without further PB treatment. In contrast, long-term PB treatment with or without further DEN elevated Lpar1 expression and inhibited cell motility. When the synthesis of extracellular LPA was blocked by a potent ATX inhibitor S32826 before cell motility assay, the cell motility induced by DEN and PB was markedly suppressed. These results suggest that activation of the different LPA receptors may regulate the biological functions of cells treated with chemical carcinogens. © 2015 Wiley Periodicals, Inc.

Topical clofibrate improves symptoms in patients with atopic dermatitis and reduces serum TARC levels: a randomized, double-blind, placebo-controlled pilot study.

BACKGROUND: Though topical corticosteroids (TC) are used for treating atopic dermatitis (AD) as a standard, there exist several problems including topical steroid addiction (TSA) or Red skin syndrome. Moreover, the number of patients, who refrain from using TC because of steroid-phobia, is increasing. Recently, topical PPAR alpha ligand application has been reported to improve experimental allergic dermatitis. The purpose of this study was to investigate the short-term efficacy and safety of topical clofibrate, one of PPAR alpha ligand, in such steroid-phobic patients with AD. METHODS: This study was conducted as a double-blind design to investigate the effects of random administration of topical clofibrate and base (placebo) on skin manifestation and blood parameters of patients for 2 weeks. Severity was digitized using severity scoring systems for atopic dermatitis by the Japanese Dermatological Association (SSS-JDA) before and after two weeks. Subjective severity of patients was evaluated using visual analog scale (Pt-VAS). Serum thymus and activation-regulated chemokine (TARC) and immunoglobulin E (IgE) were also investigated. RESULTS: Twenty patients were enrolled, and 19 of 20 patients completed the study. In 19 patients, the value of severity score using SSS-JDA was decreased significantly after administration of topical clofibrate (P=0.001). Subjective evaluation using Pt-VAS (P=0.008) and serum TARC levels (P=0.03) were also significantly decreased after two weeks of topical clofibrate. There was not a significant difference in serum IgE levels. No adverse effect was observed. CONCLUSIONS: Topical clofibrate is useful for patients with AD especially who are reluctant to use topical steroids.

Treatment with pharmacological PPARα agonists stimulates the ubiquitin proteasome pathway and myofibrillar protein breakdown in skeletal muscle of rodents.

BACKGROUND: Treatment of hyperlipidemic patients with fibrates, agonists of peroxisome proliferator-activated receptor α (PPARα), provokes muscle atrophy as a side effect. The molecular mechanism underlying this phenomenon is still unknown. We tested the hypothesis that activation of PPARα leads to an up-regulation of the ubiquitin proteasome system (UPS) which plays a major role in protein degradation in muscle. METHODS: Rats, wild-type and PPARα-deficient mice (PPARα(-/-)) were treated with synthetic PPARα agonists (clofibrate, WY-14,643) to study their effect on the UPS and myofibrillar protein breakdown in muscle. RESULTS: In rats and wild-type mice but not PPARα(-/-) mice, clofibrate or WY-14,643 caused increases in mRNA and protein levels of the ubiquitin ligases atrogin-1 and MuRF1 in muscle. Wild-type mice treated with WY-14,643 had a greater 3-methylhistidine release from incubated muscle and lesser muscle weights. In addition, wild-type mice but not PPARα(-/-) mice treated with WY-14,643 had higher amounts of ubiquitin-protein conjugates, a decreased activity of PI3K/Akt1 signalling, and an increased activity of FoxO1 transcription factor in muscle. Reporter gene and gel shift experiments revealed that the atrogin-1 and MuRF1 promoter do not contain functional PPARα DNA-binding sites. CONCLUSIONS: These findings indicate that fibrates stimulate ubiquitination of proteins in skeletal muscle which in turn stimulates protein degradation. Up-regulation of ubiquitin ligases is probably not mediated by PPARα-dependent gene transcription but by PPARα-dependent inhibition of the PI3K/Akt1 signalling pathway leading to activation of FoxO1. GENERAL SIGNIFICANCE: PPARα plays a role in the regulation of the ubiquitin proteasome system.

Single dose of 50 mg/kg clofibrate in jaundice of healthy term neonates: randomised clinical trial of efficacy and safety.

OBJECTIVE: To evaluate the effect of single oral dose of 50 mg/kg clofibrate in hyperbilirubinemia of term healthy neonates in Yazd, Iran. METHODS: A parallel single- blinded randomized clinical trial, conducted on 60 healthy term neonates admitted between July and December 2007 to Shahid Sadoughi Hospital. Inclusion criteria were neonates with gestation age of 38-42 wk, birth weight of 2500-4000 g, product of normal vaginal delivery, breast-fed and total serum bilirubin (TSB) level of 17-29.9 mg/dL. Neonates with sepsis, anemia, severe asphyxia, hemolytic diseases, major congenital anomalies, indirect hyperbilirubinemia and underlying hepatic disorders were excluded. Selection of patients was based on random allocation via table of random numbers and the patients distributed into two groups. In group one, 30 neonates were treated with phototherapy alone and in 30 of other group treatment done with single dose of 50 mg/kg clofibrate and phototherapy. The primary endpoint with respect to efficacy in reducing of TSB was achieving TSB to less than 14 mg/dL as measured at the beginning, 12, 24 and 48 h after the start of phototherapy. Secondary outcomes were hospital stay days, duration of phototherapy and side effects of treatments during hospital stay and on the second day after discharge. RESULTS: No significant differences were seen from the viewpoint of rout of delivery, gender, gestational age, birth weight, hemoglobin and bilirubin level at time of admission and weight in discharge time in the two groups. After 48 h of intervention, 27 (90%) neonates in clofibrate group and 15 (56.7%) in control group had TSB of less than 14 mg/dL (p 0.02). Mean TSB 12 h after treatment (mean ± SD: 14.82 ± 1.7 mg/dL vs. 16.67 ± 1.77 mg/dL, P 0.001), 24 h after treatment (mean ± SD: 11.97 ± 2.92 mg/dL vs. 14.61 ± 2.52 mg/dL, P 0.001) and 48 h after treatment (mean ± SD: 7.91 ± 2.45 mg/dL vs. 12.74 ± 2.21 mg/dL, P 0.0001), mean of hospital stay days (mean ± SD: 1.7 ± 0.7 days vs. 3.2 ± 1.2 days, P 0.03) and duration of phototherapy (mean ± SD: 30.2 ± 13.99 h vs. 46.2 ± 15.58 h, P 0.001] were significantly lower in clofibrate group. Only loose stool was seen in two patients of clofibrate group and no significant difference was seen from view of safety of the treatments. CONCLUSIONS: A single dose of 50 mg/kg clofibrate in treatment of neonatal hyperbilirubinemia is effective, safe and cost effective in view of reducing hospital stay days.

Cytotoxic properties of clofibrate and other peroxisome proliferators: relevance to cancer progression.

The biological activity of peroxisome proliferators (PPs) is mediated by a class of receptors, known as PPARs (PP-Activated Receptor), belonging to the nuclear receptor superfamily. Upon ligand binding, PPARs dimerize with retinoid receptors, translocate to the nucleus, recognize specific PP-responsive elements on DNA and transactivate a number of genes. Several processes are regulated by PPARs, such as mitochondrial and peroxisomal fatty acid uptake and beta-oxidation, inflammation, intracellular lipid trafficking, cell proliferation and death. In addition, PPARs have been proposed to act as tumor suppressors or as tumor promoters, depending on the circumstances. In particular, PPs have been extensively studied for their hepatocarcinogenic action in rodents, most often ascribed to their antiapoptotic action. Recent evidence, however, has been provided about the antiproliferative, proapoptotic, and differentiation-promoting activities displayed by PPAR ligands. The present review will focus on the cytotoxic effects exerted by several PPs, among which clofibrate, on different types of tumor cells, with particular reference to the mechanisms of cell death and to their relevance to cancer induction and progression.

Clofibrate treatment in pigs: effects on parameters critical with respect to peroxisome proliferator-induced hepatocarcinogenesis in rodents.

BACKGROUND: In rodents treatment with fibrates causes hepatocarcinogenesis, probably as a result of oxidative stress and an impaired balance between apoptosis and cell proliferation in the liver. There is some debate whether fibrates could also induce liver cancer in species not responsive to peroxisome proliferation. In this study the effect of clofibrate treatment on peroxisome proliferation, production of oxidative stress, gene expression of pro- and anti-apoptotic genes and proto-oncogenes was investigated in the liver of pigs, a non-proliferating species. RESULTS: Pigs treated with clofibrate had heavier livers (+16%), higher peroxisome counts (+61%), higher mRNA concentration of acyl-CoA oxidase (+66%), a higher activity of catalase (+41%) but lower concentrations of hydrogen peroxide (-32%) in the liver than control pigs (P < 0.05); concentrations of lipid peroxidation products (thiobarbituric acid-reactive substances, conjugated dienes) and total and reduced glutathione in the liver did not differ between both groups. Clofibrate treated pigs also had higher hepatic mRNA concentrations of bax and the proto-oncogenes c-myc and c-jun and a lower mRNA concentration of bcl-XL than control pigs (P < 0.05). CONCLUSION: The data of this study show that clofibrate treatment induces moderate peroxisome proliferation but does not cause oxidative stress in the liver of pigs. Gene expression analysis indicates that clofibrate treatment did not inhibit but rather stimulated apoptosis in the liver of these animals. It is also shown that clofibrate increases the expression of the proto-oncogenes c-myc and c-jun in the liver, an event which could be critical with respect to carcinogenesis. As the extent of peroxisome proliferation by clofibrate was similar to that observed in humans, the pig can be regarded as a useful model for investigating the effects of peroxisome proliferators on liver function and hepatocarcinogenesis.

Mecanismos de hepatotoxicidade / Mechanisms of hepatotoxicity

Hepatopatia relacionada ao uso de drogas hipolipemiantes tem sido definida como um dano celular (aumento das enzimas AST e ALT) sem alterações colestáticas (aumento de bilirrubinas e/ou fosfatase alcalina). Seis mecanismos são propostos para a hepatopatia: 1. Reações de alta energia no citocromo P450 comprometendo a homeostase do cálcio com a ruptura de fibrilas intracelulares e lise de hepatócitos. 2. Disfunção de proteínas transportadoras relacionadas com o fluxo de ácidos biliares (mecanismo proposto para a toxicidade hepática dos fibratos). 3. Reações imunes geradas pela formação de metabólitos das drogas hipolipemiantes formados no fígado. 4. Hepatoxicidade promovida por células T com inflamação adicional mediada por neutrófilos. 5. Apoptose mediada por TNF e Fas (imune-mediada). 6. Estresse oxidativo gerado por dano a organelas intracelulares. Ainda, idade avançada, consumo excessivo de álcool, altas doses de drogas hipolipemiantes, interação com outros fármacos, e doença hepática ativa prévia podem aumentar a hepatotoxidade.

Terapia hipolipemiante em situações especiais: hipotireoidismo e hepatopatias / Hypolipidemic therapy in special situations: hypothyroidism and liver disease

O hipotireoidismo é comum entre pessoas idosas, especialmente entre as mulheres. A suspeita diagnóstica deve se basear na presença de sinais e sintomas clássicos e a detecção pode ser feita pela elevação dos níveis do hormônio tireo-estimulante (TSH). Anormalidades lipídicas na presença de hipotireoidismo sub-clínico são de menor impacto. Entretanto, a reposição específica de hormônio tireoideano é tão mais importante quanto a magnitude do distúrbio glandular. Na vigência de doença hepática, alguns agentes hipolipemiantes podem levar a um agravamento do quadro, entretanto, estudos recentes têm mostrado que as estatinas podem ser utilizadas na presença de esteatose hepática. Terapia hipolipemiante combinada pode induzir aumentos de enzimas hepáticas e o monitoramento cuidadoso é recomendado nestes pacientes.

[Mechanisms of hepatotoxicity]. / Mecanismos de hepatotoxicidade.

Liver disease following the use of hypolipidemic drugs has been reported as a cellular damage (increases in AST or ALT enzymes) without cholestatic alterations (bilirubin and or alkaline phosphatase increases). Six mechanisms were proposed for hepatotoxicity: 1. High energy reactions on P450 cytochrome impairing calcium homeostasis with rupture of intracellular fibrils and hepatocyte lysis. 2. Impairment of transporter proteins related to the bile acids flux (mechanism proposed for fibrate liver toxicity). 3. Immune reactions due to the formation of metabolites linked to enzymes following liver metabolism of hypolipidemic drugs. 4. Hepatotoxicity by T cells with additional inflammation mediated by neutrophils. 5. Apoptosis mediated by TNF and Fas (immune mediated). 6. Oxidative stress due to damage of intracellular organelles. In addition, advanced age, alcohol in excess, high doses of hypolipidemic drugs, interaction with other drugs, and previous active liver disease might increase liver toxicity.

[Hypolipidemic therapy in special situations: hypothyroidism and liver disease]. / Terapia hipolipemiante em situações especiais--hipotireoidismo e hepatopatias.

Hypothyroidism is common in the elderly, especially among women. It should be suspected in the presence of classic signals and symptoms, and can be detected by an elevation of serum thyroid stimulating hormone (TSH). Lipid abnormalities in the presence of subclinical hypothyroidism are of minor importance. However, the importance of specific treatment (hormone replacement) increases with the magnitude of thyroid disturbance. Some hypolipidemic agents can aggravate prior liver disease, however, recent studies have shown that statins might be useful in the presence of steatohepatitis. Some associations of hypolipidemic drugs can increase liver enzymes, and careful monitoring is recommended.

On the effect of pharmaceuticals on bacterial nitrite oxidation.

Pharmaceuticals or their metabolites are partially excreted with urine or faeces ending up in raw sewage. Many of these substances are not biodegradable and their presence in influents of municipal wastewater treatment plants may cause adverse effects to sensitive biological processes such as nitrification, while on the other hand, they may go through the activated sludge process unreacted. The second step of nitrification, i.e. oxidation of nitrite to nitrate is particularly sensitive. Inhibition of this step under uncontrolled conditions may lead to accumulation of nitrite nitrogen in the plant effluent, a form of nitrogen which is particularly toxic. The effects caused by the presence of seven different pharmaceuticals to a culture of nitrite-oxidizing bacteria isolated from activated sludge are presented. These pharmaceuticals were ofloxacin, propranolol, clofibrate, triclosan, carbamazepine, diclofenac and sulfamethoxazole. Different effects were observed for each of the pharmaceuticals tested in this study. In the cases of ofloxacin and sulfamethoxazole significant inhibition was observed. Triclosan presented a substantial inhibitory effect on the substrate (nitrite) reduction rate. The long-term effect of triclosan on nitrite oxidizers was also examined in a CSTR reactor and conclusions were drawn regarding the reversibility of the inhibition caused by this compound.

Cell-specific toxicity of fibrates in human embryonal rhabdomyosarcoma cells.

The effects of a variety of fibrates on the cell viability were examined in human embryonal rhabdomyosarcoma cells (HRMSC). Five fibrates, including fenofibrate, clofibrate, gemfibrozil, bezafibrate and ciprofibrate, all concentration-dependently reduced the cell viability determined by the mitochondrial enzyme activity. The cell injury occurred time-dependently and was marked at 24-48 h. The toxic action of fibrates was specific to HRMSC, since bezafibrate did not induce any marked changes in the viability of human microvascular endothelial cells or arterial smooth muscle cells. Synergistic cell injury was observed after a combined treatment with bezafibrate and simvastatin, although simvastatin alone reduced the cell viability. The cell injury was characterized by a typical nuclear damage, as evidenced by Hoechst 33342 staining and deoxynucleotidyl transferase dUTP nick-end label-positive staining. Similar cell-specific injury was induced by 8(S)-hydroxyeicosatetraenoic acid, a potent peroxisome proliferator-activated receptor alpha (PPARalpha) agonist. Consistent with these data, a marked expression for PPARalpha mRNA was observed in HRMSC but not in the endothelial or smooth muscle cells. Therefore, it is suggested that fibrates cause a cell-specific injury in HRMSC via activation of PPARalpha. Moreover, our present cell injury model using HRMSC may be useful for elucidating the mechanisms of clinical rhabdomyolysis induced by lipid-lowering agents.

Myopathy and rhabdomyolysis with lipid-lowering drugs.

Drug-induced myopathy and rhabdomyolysis are rare adverse drug reactions (ADR). They have been seen after the introduction of modern lipid-lowering drugs more regularly. The first description after medication with clofibrate dates back to 1968. Apparently, all fibrates can induce myopathy. It usually starts after a few days of medication, or after prolonged use, showing muscle weakness and/or pain. Concomitantly, the enzyme creatininephosphokinase (CPK) is raised dramatically. Muscular necrosis can follow leading secondarily to kidney failure, and eventually to death. For the class of statins, myopathy was more often seen after their introduction, and it became their most feared adverse effect, especially in combination of statins with other drugs (mibefradil, gemfibrozil, cyclosporin). In animal models the evolution of the disease and the mechanism of action may be elucidated. Though strong epidemiological data are lacking, the incidence of myopathy is probably similar for all lipid-lowering drugs and is in the range of 0.1-0.5% with monotherapy, increasing to 0.5-2.5% with combination therapy. Severe cases of rhabdomyolysis are rarer, but may have a significant mortality. The market success of cerivastatin within a short period has led to 100s of myopathies and some dozens of deaths. Though interactions on metabolism and ensuing high plasma levels can partially explain myopathy as intoxication, there are strong indications that other (endocrine, metabolic, genetic) factors might play a role in the pathophysiology. The patient population at risk should better be defined and withheld from myopathy-inducing drugs.