Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0011849 (diabetes)
 277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

CYP2B, CYP4A, and CYP2E1 mRNA levels are elevated in response to pathophysiological conditions, such as diabetes, high-fat diet, and fasting, in which lipids and ketone bodies are increased. In order to avoid confounding hormonal effects, we utilized primary rat hepatocytes to examine whether ketone bodies or fatty acids altered CYP2B, CYP4A, or CYP2E1 expression. Ketone bodies increased CYP2B mRNA and protein levels, but failed to alter CYP4A or CYP2E1 expression. Straight-chain saturated fatty acids, C8 to C16, increased levels of CYP2B and CYP4A mRNA, but not CYP2E1 mRNA. Treatment with octanoylcarnitine, a mitochondrial beta-oxidation inhibitor, in combination with hexadecanoate increased CYP2B and CYP4A expression approximately 1.4-fold over that observed with hexadecanoate alone, suggesting that mitochondrial conversion of fatty acids to ketone bodies was not required for enhanced CYP2B expression and that mitochondrial beta-oxidation decreased intracellular fatty acid levels and thereby lowered CYP2B expression. Undecynoic acid or aminobenzotriazole treatment increased CYP2B mRNA levels, consistent with these compounds inhibiting the initial CYP4A-catalyzed step in the conversion of monocarboxylic to dicarboxylic acids and thereby decreasing peroxisomal beta-oxidation and increasing intracellular fatty acid levels. Addition of glycerol, which suppresses fatty acid synthesis by inhibiting conversion of lactate to pyruvate, decreased basal expression of CYP2B and CYP4A but did not alter CYP2E1 expression. Pyruvate, but not lactate, completely prevented the glycerol-mediated decrease in CYP2B expression. These results provide evidence that intracellular levels of fatty acids and ketone bodies regulate the expression of CYP2B but not CYP2E1.
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PMID:Effects of fatty acids and ketone bodies on cytochromes P450 2B, 4A, and 2E1 expression in primary cultured rat hepatocytes. 901 16

Although hyperketonemia and/or altered growth hormone secretion caused by diabetes have been implicated in enhanced CYP2E1, 2B, 3A and 4A expression, the effect of insulin on hepatic P450 expression, in the absence of associated metabolic/hormonal alterations, remains unknown. Primary cultured rat hepatocytes have been shown (Zangar et al., Drug Metab. Dispos., 23:681, 1995) to express stable and inducible CYP2E1 mRNA and protein levels, and provide an excellent system for mechanistic examination of the effect of insulin on CYP2E1, 2B, 3A and 4A expression. Maintaining primary rat hepatocytes in culture in the absence of insulin for 48, 72, or 96 h increased CYP2E1 mRNA levels 5-, 11-, and 4-fold, respectively, relative to cells maintained in the presence of the standard concentration of 1 microM insulin. In contrast, CYP2B mRNA levels increased only approximately 2-fold in the absence of insulin, when compared with the presence of 1 microM insulin. CYP2E1 and 2B protein levels were increased 6.7- and 3.8-fold, respectively, in cells cultured for 96 h in the absence of insulin as compared with those cultured in medium containing 1 microM insulin. Concentration-response studies revealed that decreasing the concentration of insulin below 10 nM (i.e. 1 nM, 0.1 nM, no insulin) increased CYP2E1 mRNA levels 4-, 7-, and 11-fold, respectively. In contrast, no such concentration-dependence was observed for CYP2B mRNA expression. As CYP3A and 4A expression is also elevated in diabetic rats, the effects of insulin on these P450s was also examined. CYP3A mRNA levels were unaltered and CYP4A mRNA levels were decreased marginally (approximately 50%) by the absence of insulin relative to levels in cells cultured in the presence of 1 microM insulin over 96 h in culture. The results of this study provide evidence that insulin itself, in the absence of other diabetes-induced metabolic or hormonal alterations, affects CYP2E1 and 2B, but not CYP3A or 4A, expression in primary cultured rat hepatocytes. Furthermore, CYP2E1 expression is differentially regulated by insulin relative to CYP2B, 3A or 4A. This study also demonstrates that decreasing the concentration of insulin in the culture medium provides a method by which CYP2E1 levels can be increased in primary cultured hepatocytes to facilitate mechanistic studies on the regulation of CYP2E1 expression.
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PMID:Insulin effects on CYP2E1, 2B, 3A, and 4A expression in primary cultured rat hepatocytes. 940 51

The hepatic CYP4A enzymes are important fatty acid and prostaglandin omega-hydroxylases that are highly inducible by fibric acid hypolipidemic agents and other peroxisome proliferators. Induction of the CYP4A enzymes by peroxisome proliferators is mediated through the nuclear peroxisome proliferator-activated receptor alpha (PPARalpha). Fatty acids have recently been identified as endogenous ligands of PPARalpha, and this receptor has been implicated in the regulation of lipid homeostasis. In the present report we characterized the induction of the hepatic CYP4A genes in rats during the altered lipid metabolism associated with starvation and diabetes. The mRNA levels of CYP4A1, CYP4A2, and CYP4A3 were induced 7-17-fold in the livers of fasted animals and 3-8-fold in the livers of diabetic animals. This was accompanied by corresponding changes in CYP4A protein levels and arachidonic and lauric acid omega-hydroxylase activity. Interestingly, feeding animals after the fasting period caused as much as an 80% suppression of CYP4A mRNA levels, whereas CYP4A protein levels and functional activity returned to control values. A second PPARalpha-responsive gene, acyl-CoA oxidase, was also induced in rat liver by diabetes and fasting. By using PPARalpha-deficient mice, we unambiguously demonstrated that PPARalpha is strictly required for hepatic CYP4A induction by starvation and diabetes. Similarly, induction of hepatic thiolase and bifunctional enzyme also required expression of PPARalpha. This represents the first evidence for the pathophysiologically induced activation of a nuclear receptor.
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PMID:Peroxisome proliferator-activated receptor alpha controls the hepatic CYP4A induction adaptive response to starvation and diabetes. 981 74

Hepatic levels of the cytochrome P450 (CYP) proteins 2E1 and 4A are often increased in obesity, diabetes and fasting. In such states of nutritional imbalance, CYPs 2E1 and 4A may play a more significant role in fatty acid oxidation. In order to more fully characterize the regulation of CYP2E1 and CYP4A in obesity and obesity-related (type II) diabetes, we analyzed the hepatic expression of CYP2E1 and CYP4A in ob/ob mice which are leptin deficient, and fa/fa Zucker rats which have defective leptin receptor function. CYP2E1 protein and mRNA were either unchanged or reduced in both models. Conversely, expression of murine Cyp4a10 and 4a14 in the obese mice, and 4A2 in the male fatty Zucker rat, were greatly increased. The levels of other CYP4As were either unchanged or reduced. These results show that CYP2E1 is not inevitably increased by obesity and diabetes and indicate differential regulation of CYP4A subfamily genes in rodent models. Further, they implicate leptin receptor signaling as a factor that may modulate expression of CYP gene products involved in fatty acid oxidation.
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PMID:Altered expression of hepatic CYP2E1 and CYP4A in obese, diabetic ob/ob mice, and fa/fa Zucker rats. 1004 3

Uncontrolled diabetes results in enhanced expression of cytochrome P-450 (CYP)2E1, CYP2B, CYP3A, and CYP4A. Because of the simultaneous and confounding metabolic and hormonal changes that occur in vivo as a consequence of diabetes, primary cultured rat hepatocytes provide an excellent model system for examination of the effects of insulin on P-450 expression and on xenobiotic-mediated P-450 expression. In the present study, we examined the effects of insulin on pyridine-, phenobarbital-, and ciprofibrate-mediated expression of CYP2E1, CYP2B, CYP3A, and CYP4A in primary cultured rat hepatocytes. Pyridine addition to primary rat hepatocytes cultured in the presence of 1 nM insulin or in the absence of insulin resulted in a 3.5-fold and 3-fold enhancement in CYP2E1 protein expression, respectively, in the absence of any pyridine-mediated increase in mRNA expression. In contrast, hepatocytes cultured in the standard concentration of 1 microM insulin resulted in only a 2-fold increase in protein expression. Thus, the fold-induction of CYP2E1 protein in response to pyridine was 1.5- to 1.8-fold greater in either the absence of insulin or in the presence of 1 nM insulin, respectively, than that monitored in the presence of 1 microM insulin. To examine whether insulin effects on xenobiotic-mediated CYP2E1 expression were selective, insulin effects on xenobiotic-mediated expression of transcriptionally regulated CYP2B, CYP3A, and CYP4A were examined. Pyridine- or phenobarbital-mediated induction of CYP2B mRNA and protein expression in hepatocytes was suppressed by as much as 80% at lower insulin levels (0 and 1 nM), relative to the level monitored in the presence of 1 microM insulin. Omitting insulin from the medium resulted in a 50% decrease in CYP3A mRNA levels in response to phenobarbital treatment and a 30% decrease in CYP4A mRNA levels in response to ciprofibrate treatment, relative to the level obtained in response to these treatments in the presence of 1 microM insulin. The results of this study demonstrate that decreasing the insulin level in the primary hepatocyte culture medium enhanced xenobiotic-mediated CYP2E1 expression, whereas lower insulin levels suppressed xenobiotic-mediated CYP2B, CYP3A, and CYP4A expression in this cell culture system.
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PMID:Insulin differentially affects xenobiotic-enhanced, cytochrome P-450 (CYP)2E1, CYP2B, CYP3A, and CYP4A expression in primary cultured rat hepatocytes. 1021 95

We studied the long-term effects of streptozotocin-induced diabetes on tissue-specific cytochrome P450 (CYP) and glutathione-dependent (GSH-dependent) xenobiotic metabolism in rats. In addition, we also studied the effect of antidiabetic Momordica charantia (karela) fruit-extract feeding on the modulation of xenobiotic metabolism and oxidative stress in rats with diabetes. Our results have indicated an increase (35-50%) in CYP4A-dependent lauric acid hydroxylation in liver, kidney, and brain of diabetic rats. About a two-fold increase in CYP2E-dependent hepatic aniline hydroxylation and a 90-100% increase in CYP1A-dependent ethoxycoumarin-O-deethylase activities in kidney and brain were also observed. A significant increase (80%) in aminopyrene N-demethylase activity was observed only in rat kidney, and a decrease was observed in the liver and brain of diabetic rats. A significant increase (77%) in NADPH-dependent lipid peroxidation (LPO) in kidney of diabetic rats was also observed. On the other hand, a decrease in hepatic LPO was seen during chronic diabetes. During diabetes an increased expression of CYP1A1, CYP2E1, and CYP4A1 isoenzymes was also seen by Western blot analysis. Karela-juice feeding modulates the enzyme expression and catalytic activities in a tissue- and isoenzyme-specific manner. A marked decrease (65%) in hepatic GSH content and glutathione S-transferase (GST) activity and an increase (about two-fold) in brain GSH and GST activity was observed in diabetic rats. On the other hand, renal GST was markedly reduced, and GSH content was moderately higher than that of control rats. Western blot analyses using specific antibodies have confirmed the tissue-specific alterations in the expression of GST isoenzymes. Karela-juice feeding, in general, reversed the effect of chronic diabetes on the modulation of both P450-dependent monooxygenase activities and GSH-dependent oxidative stress related LPO and GST activities. These results have suggested that the modulation of xenobiotic metabolism and oxidative stress in various tissues may be related to altered metabolism of endogenous substrates and hormonal status during diabetes. The findings may have significant implications in elucidating the therapeutic use of antidiabetic drugs and management of Type 1 diabetes in chronic diabetic patients.
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PMID:Modulation of xenobiotic metabolism and oxidative stress in chronic streptozotocin-induced diabetic rats fed with Momordica charantia fruit extract. 1071 28

In subgroups of a New Zealand obese mouse-derived backcross population with defined aberrations of glucose homeostasis, a comprehensive study of the hepatic expression of cytochrome P450 and glutathione S-transferase was performed. Three patterns of alterations in response to insulin resistance (normoglycemia/hyperinsulinemia) or diabetes (hyperglycemia/hypoinsulinemia) were observed: mRNA levels of Cyp2b9, Cyp3a16, Cyp4a14, and Gstt2 as assessed by Northern- and dot-blot analysis were increased markedly in liver from diabetic mice with no or only a slight increase in insulin resistant mice. Western-blot analysis detected the corresponding changes of the CYP2B and CYP4A proteins. In contrast, expression of Cyp2c22, Cyp2c29, and Cyp2c40 was reduced in diabetic, but normal in insulin resistant mice. These alterations were correlated with changes in serum free fatty acid levels and, therefore, seem to be mediated by the peroxisome proliferator activated receptor-alpha. Furthermore, expression of Cyp1a2, Cyp7b1, Gstm3, and Gstm6 was reduced in both diabetic and insulin resistant mice. Because this third pattern was not correlated with the alterations of serum free fatty acid levels, it seems to reflect an early alteration in the course of the disease, and may be related to the progression of the syndrome from insulin resistance to the type 2-like diabetes.
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PMID:Effect of hyperinsulinemia and type 2 diabetes-like hyperglycemia on expression of hepatic cytochrome p450 and glutathione s-transferase isoforms in a New Zealand obese-derived mouse backcross population. 1213 Jul 1

The effect of chronic hyperglycemia and hyperlipidemia induced by streptozotocin (SZ) on the expression of P450 in the liver of APA hamsters was studied in this experiment. No effect on the total activity of P450 was seen in SZ-induced diabetic hamsters throughout the experimental period. At 1 and 6 months after SZ-injection, the levels of CYP1A, 2C6, and 3A of SZ-injected hamsters were much lower than those of age-matched control hamsters. CYP2B expression tended to decrease and CYP2E1 and 4A expression tended to increase in SZ-injected hamsters, although the results were not significant. At 3 months after SZ-injection, however, no significant difference between SZ-injected and normal hamsters was seen in these P450 isozymes. On the other hand, CYP2C11 expression was slightly depressed in SZ1M and SZ6M, and almost equivalent to control hamsters in SZ3M. Immunohistochemistry by the use of each isozyme antibody revealed that SZ-induced diabetes affected the localization of CYP2C6, 3A, and 4A in the hepatic acinus. The expression of CYP2C6 and 3A was depressed mainly in the periportal region of the acinus, and CYP4A expression was induced mainly in the perivenous region by SZ-induced diabetes. On the other hand, the expression pattern of CYP1A, 2B, 2C11, and 2E1 were not affected. These results demonstrate that the effects of SZ-induced diabetes on hepatic P450 differ for each isozyme in APA hamsters and also differ from those of other experimental diabetic animals, including golden hamsters.
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PMID:The effects of diabetes with hyperlipidemia on P450 expression in APA hamster livers. 1224 86

CYP2E1 and CYP4A11 are cytochrome P450 enzymes that are regulated by physiological conditions including diabetes and fasting. In addition, the xenochemical clofibrate has been reported to induce both rodent CYP2E1 and CYP4A. These findings suggest similar modes of regulation. Also in common to both enzymes is the ability to metabolize fatty acids such as laurate and arachidonic acid. Here, we used primary cultures of human hepatocytes to determine if certain xenochemicals could regulate CYP2E1 and CYP4A11. Ethanol significantly (p < 0.05) increased expression of CYP2E1 mRNA by 216 +/- 32% of control, but did not alter CYP4A11 mRNA accumulation (145 +/- 22% of control). In contrast, hepatocytes exposed to ethanol exhibited only a slight elevation in CYP2E1 protein (122 +/- 13% of control) and a negligible effect on CYP4A11 protein. Clofibrate significantly (p < 0.05) enhanced both CYP4A11 mRNA and protein by 239 +/- 30% and 154 +/- 10% of control, respectively, but did not increase CYP2E1. Because rodent CYP4A is reportedly regulated by fatty acids through peroxisome proliferator activated receptor alpha (PPARalpha) and CYP2E1 is induced by high fat diets, we examined the effects of a medium chain fatty acid, palmitate on CYP2E1 mRNA content. Palmitic acid significantly (p < 0.05) increased CYP2E1 mRNA to 326 +/- 57% of control. Collectively, results presented here identify agents that enhance CYP2E1 and CYP4A11 at the transcription level and suggest that fatty acids may represent a similar mode of regulation for these P450 enzymes. The lack of induction of CYP2E1 protein by ethanol in human hepatocytes indicates that for certain P450 enzymes, isolated hepatocytes may not be an adequate tool for predicting in vivo responses.
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PMID:Regulation of CYP2E1 by ethanol and palmitic acid and CYP4A11 by clofibrate in primary cultures of human hepatocytes. 1505 2

Physiological and pathophysiological conditions often affect the expression of drug metabolizing enzymes such as cytochromes P450 (P450s). Diabetes is one such factor and it is of great interest to understand its effects on drug metabolism, since diabetic patients generally have increased need for pharmacotherapy. We have recently reported the coordinated reduction of CYP2B1/2 and their transcriptional regulator constitutive androstane receptor (CAR), a member of the nuclear receptor superfamily, in the liver of genetically obese/diabetic Zucker fatty rats (Xiong, H., Yoshinari, K., et al., Drug Metab. Dispos., 30, 918-923, 2002). In this study, we investigated the expression of P450s and liver-enriched nuclear receptors in the liver of genetically diabetic db/db mice. Surprisingly, both CYP2B10 and CAR levels were increased in db/db mice. CYP4A expression was also increased at both mRNA and protein levels in db/db mice, while those of peroxisome proliferator-activated receptor alpha, a key regulator for the transcriptional activation of CYP4As, were comparable to those in age-matched C57BL/6 mice. Our results demonstrate that db/db mice and Zucker fatty rats exhibit different expression profiles of P450s and nuclear receptors despite their similar characteristics for obesity and diabetes resulting from a defect in the leptin signaling pathway.
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PMID:Changes in the expression of cytochromes P450 and nuclear receptors in the liver of genetically diabetic db/db mice. 1688 Jun 18


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