Carbohydrate metabolism of the isolated perfused liver of normal and genetically obese–hyperglycaemic (ob/ob) mice

1. A technique for perfusion of the mouse liver has been developed, and aspects of carbohydrate metabolism have been investigated in the perfused liver of normal and genetically obese mice, homozygous for the recessive gene ob. 2. Rates of gluconeogenesis in perfused mouse liver were faster than those reported for slices of mouse liver, particularly from lactate and pyruvate. 3. The rate of glycogen breakdown to glucose, but not to lactate, was faster in liver from fed obese mice. 4. The capacity for glycogen synthesis from glucose was enhanced in liver from 20h-starved obese mice. 5. The capacity for gluconeogenesis from a number of substrates was not significantly altered in livers from fed or starved obese mice when compared with that of lean mice. 6. These results suggest that the liver contributes to the hyperglycaemia of the obese mice by increased glycogenolysis, and that liver glycogen in obese mice is maintained by synthesis from dietary glucose.     

Hepatic over-expression of peroxisome proliferator activated receptor γ2 in the ob/ob mouse model of non‐insulin dependent diabetes mellitus

The binding of nuclear factor on the promoter region of the regucalcin gene and the expression of regucalcin in the kidney cortex of rats was investigated. Nuclear extracts from kidney cortex were used for oligonucleotide competition gel mobility shift assay. An oligonucleotide between position –523 and –506 in the 5-flanking region of the rat regucalcin gene, which contains a nuclear factor I (NF1) consensus motif TTGGC(N)₆CC, competed with the probe for the binding of the nuclear protein from kidney cortex. The mutation of TTGGC in the consensus sequence caused an inhibition of the binding of nuclear factors. The binding of nuclear factor on the 5-flanking region was clearly reduced in the kidney cortex obtained at 1, 2, and 3 days after a single intraperitoneal administration of cisplatin (1.0 mg/100 g body wt) to rats. Moreover, cisplatin administration caused a remarkable decrease in regucalcin mRNA levels and regucalcin concentration in the kidney cortex. Also, serum regucalcin concentration was significantly decreased by cisplatin administration. Meanwhile, serum urea nitrogen concentration was markedly elevated by cisplatin administration. The present study demonstrates that the specific nuclear factor binds to the NF1-like sequence in the promotor region of regucalcin gene in the kidney cortex of rats, and that the nuclear factor binding and regucalcin expression are suppressed by cisplatin administration.     

Non-Invasive Bioluminescence Imaging of β-Cell Function in Obese-Hyperglycemic [ob/ob] Mice

Background

Type 2 diabetes results from failure of the β-cells to compensate for increased insulin demand due to abnormal levels of metabolic factors. The ob/ob(lep-/-) mouse has been extensively studied as an animal model of type 2 diabetes. Previous studies have shown a correlation between β-cell function and bioluminescent imaging in lean genetically engineered mice. The ability to noninvasively monitor β-cell function in ob/ob mice could provide new information on β-cell regulation in type 2 diabetes.

Methods

To create the B6 Albino ob/ob MIP-luc mice (ob/ob-luc), the ob/ob mouse was crossed with the CD1 MIP-luc mouse. All mice were backcrossed over multiple generations to ensure the genetic background of the transgenic mice was over 96% similar to the background of the original ob/ob mouse. Animal weight, blood glucose levels, insulin in plasma, and in vivo bioluminescence (BLI) were monitored weekly or biweekly for up to 70 weeks of age. BL imaging was performed using IVIS Spectrum (Perkin Elmer) and calculated by integrating the bioluminescence signal between 5 and 10 min after i.v. injection of D-luciferin. Insulin immunohistochemistry determined islet beta cell count and insulin secretion assay determined islet insulin function.

Results

There were significant increases in BLI and insulin levels as the ob/ob-luc mice aged while glucose levels gradually decreased. Ob/ob-luc were sacrificed at different time points to determine ex vivo BLI, islet function and total β-cell numbers using a cell counting training algorithm developed for the Vectra image analysis system (Perkin Elmer). The number of β-cells increased as the mice aged and all three ex vivo measurements correlated with BLI.

Conclusions

The ob/ob-luc mice can serve as a model of metabolic stress, similar to human type 2 diabetes using BLI as a surrogate marker for β-cell function.     

Tg-visfatin×ob/ob小鼠表型特征与内脂素表达

目的研究Tg-visfatin×ob/ob小鼠的表型特征并探讨内脂素的作用。方法将visfatin转基因小鼠与ob（＋/-）小鼠杂交,获取visfatin转基因ob/ob小鼠（Tg-visfatin×ob/ob）,以ob/ob小鼠为对照,测定两种小鼠1～9月龄的体重变化,分别在3、5、9月龄测定其腹腔糖耐受和胰岛素耐受情况,并对其从9月龄～11月龄的死亡率进行统计。结果两种小鼠在1～9月龄的体重差异无显著性。腹腔糖耐受和胰岛素耐受实验显示,与ob/ob小鼠相比,3月龄时,Tg-visfatin×ob/ob小鼠的糖耐受受损及胰岛素耐受情况得以改善;5月龄时,Tg-visfatin×ob/ob小鼠仅糖耐受受损得以改善;9月龄时,Tg-visfatin×ob/ob小鼠具有更严重的糖耐受受损及胰岛素耐受。统计结果显示,从9月龄到11月龄之间,Tg-visfatin×ob/ob小鼠的死亡率比ob/ob小鼠提高了44.4%。结论 visfatin体内的高表达对ob/ob小鼠糖耐受和胰岛素耐受有影响,作用效果随着小鼠的年龄不同而变化,在早期起到代偿性的缓解ob/ob小鼠的糖耐受和胰岛素耐受的作用,到后期表现为失代偿性的加重了ob/ob小鼠的糖耐受和胰岛素耐受,并增加了小鼠的死亡率。     

Protein kinase Cβ deficiency attenuates obesity syndrome of ob/ob mice by promoting white adipose tissue remodeling

To explore the role of leptin in PKCβ action and to determine the protective potential of PKCβ deficiency on profound obesity, double knockout (DBKO) mice lacking PKCβ and ob genes were created, and key parameters of metabolism and body composition were studied. DBKO mice had similar caloric intake as ob/ob mice but showed significantly reduced body fat content, improved glucose metabolism, and elevated body temperature. DBKO mice were resistant to high-fat diet-induced obesity. Moreover, PKCβ deficiency increased β-adrenergic signaling by inducing expression of β1- and β3-adrenergic receptors (β-ARs) in white adipose tissue (WAT) of ob/ob mice. Accordingly, p38(MAPK) activation and expression of PGC-1α and UCP-1 were increased in WAT of DBKO mice. Consistent with results of in vivo studies, inhibition of PKCβ in WAT explants from ob/ob mice also increased expression of above β-ARs. In contrast, induction of PGC-1α and UCP-1 expression in brown adipose tissue of DBKO mice was not accompanied by changes in the expression of these β-ARs. Collectively, these findings suggest that PKCβ deficiency may prevent genetic obesity, in part, by remodeling the catabolic function of adipose tissues through β-ARs dependent and independent mechanisms.     

Clearing-factor lipase in obese–hyperglycaemic mice (ob/ob)

1. Clearing-factor lipase was assayed in acetone-ether-dried powders of heart and epididymal fat-pads of lean and genetically obese mice (ob/ob). In both tissues the enzyme activity in the adult was higher in the obese mice. 2. In heart the enzyme activity was unchanged from 8 to 48 weeks of age in lean mice, but in obese mice it increased between 8 and 12 weeks of age and remained elevated. 3. Starvation produced changes in the heart clearing-factor lipase activity in obese, but not lean, mice. 4. The clearing-factor lipase activity of epididymal fat-pads decreased rapidly during 24h starvation in both lean and obese mice, but the activity in the obese mice remained higher than that in lean mice. 5. Plasma triglyceride and cholesterol concentrations were determined in both lean and obese mice. Triglyceride concentrations were not greatly different, but the obese mice were hypercholesterolaemic. Plasma cholesterol concentrations were not correlated with changes in clearing-factor lipase activity.     

Sustained activation of PPARα by endogenous ligands increases hepatic fatty acid oxidation and prevents obesity in ob/ob mice

Obesity, a major health concern, results from an imbalance between energy intake and expenditure. Leptin-deficient ob/ob mice are paradigmatic of obesity, resulting from excess energy intake and storage. Mice lacking acyl-CoA oxidase 1 (Acox1), the first enzyme of the peroxisomal fatty acid β-oxidation system, are characterized by increased energy expenditure and a lean body phenotype caused by sustained activation of peroxisome proliferator-activated receptor α (PPARα) by endogenous ligands in liver that remain unmetabolized in the absence of Acox1. We generated ob/ob mice deficient in Acox1 (Acox1(-/-)) to determine how the activation of PPARα by endogenous ligands might affect the obesity of ob/ob mice. In contrast to Acox1(-/-) (14.3±1.2 g at 6 mo) and the Acox1-deficient (ob/ob) double-mutant mice (23.8±4.6 g at 6 mo), the ob/ob mice are severely obese (54.3±3.2 g at 6 mo) and had significantly more (P<0.01) epididymal fat content. The resistance of Acox1(-/-)/ob/ob mice to obesity is due to increased PPARα-mediated up-regulation of genes involved in fatty acid oxidation in liver. Activation of PPARα in Acox1-deficient ob/ob mice also reduces serum glucose and insulin (P<0.05) and improves glucose tolerance and insulin sensitivity. Further, PPARα activation reduces hepatic steatosis and increases hepatocellular regenerative response in Acox1(-/-)/ob/ob mice at a more accelerated pace than in mice lacking only Acox1. However, Acox1(-/-)/ob/ob mice manifest hepatic endoplasmic reticulum (ER) stress and also develop hepatocellular carcinomas (8 of 8 mice) similar to those observed in Acox1(-/-) mice (10 of 10 mice), but unlike in ob/ob (0 of 14 mice) and OB/OB (0 of 6 mice) mice, suggesting that superimposed ER stress and PPARα activation contribute to carcinogenesis in a fatty liver. Finally, absence of Acox1 in ob/ob mice can impart resistance to high-fat diet (60% fat)-induced obesity, and their liver had significantly (P<0.01) more cell proliferation. These studies with Acox1(-/-)/ob/ob mice indicate that sustained activation of lipid-sensing nuclear receptor PPARα attenuates obesity and restores glucose homeostasis by ameliorating insulin resistance but increases the risk for liver cancer development, in part related to excess energy combustion.     

Synthesis and evaluation of piperidine urea derivatives as efficacious 11β-hydroxysteroid dehydrogenase type 1 inhibitors in diabetic ob/ob mice

11β-Hydroxysteroid dehydrogenase type 1 (11β-HSD1) has attracted considerable attention as a potential target for the treatment of diabetes and metabolic syndrome. Herein we report the design, synthesis and efficacy evaluation of novel amide and urea 11β-HSD1 inhibitors. Structure-activity relationship studies led to the identification of 10c, which was efficacious in a diabetic ob/ob mouse model and reduced fasting and non-fasting blood glucose levels after ip dosing.     

MiR-122在AldoA介导的ob/ob小鼠肝脏代谢中的作用研究

本实验室前期研究发现,2型糖尿病动物模型ob/ob小鼠血清中miR-122的含量较正常C57BL/6小鼠显著升高.本文进一步研究肝脏特异性miR-122及其靶蛋白AldoA(果糖1,6-二磷酸醛缩酶A)在ob/ob小鼠肝脏代谢中的作用.首先,经qRT-PCR技术检测发现ob/ob小鼠肝脏miR-122水平较C57BL/6小鼠显著下降,而Western blotting分析发现ob/ob小鼠肝脏其靶蛋白AldoA的表达水平显著上升.进一步以miR-122分子转染293T细胞后收集其分泌的微囊泡(microvesicles,MVs),经qRT-PCR检测确认后采用特异性荧光染料DiI-C18标记MVs,以不同剂量尾静脉注射BALB/c小鼠体内,不同时间点取肝组织做冰冻切片.在荧光显微镜下观察证实,包裹有miR-122的MVs通过循环系统进入肝脏,同时qRT-PCR定量分析发现肝组织中miR-122含量显著升高,而蛋白质印迹检测发现其靶蛋白AldoA在肝脏中表达显著下降.AldoA主要催化糖酵解途径中果糖1,6-二磷酸和磷酸二羟丙酮及甘油醛-3-磷酸之间的转变,miR-122靶向作用AldoA可能在2型糖尿病的发生发展中发挥重要作用.     

iPLA2β deficiency attenuates obesity and hepatic steatosis in ob/ob mice through hepatic fatty-acyl phospholipid remodeling

PLA2G6 or GVIA calcium-independent PLA2 (iPLA2β) is identified as one of the NAFLD modifier genes in humans, and thought to be a target for NAFLD therapy. iPLA2β is known to play a house-keeping role in phospholipid metabolism and remodeling. However, its role in NAFLD pathogenesis has not been supported by results obtained from high-fat feeding of iPLA2β–null (PKO) mice. Unlike livers of human NAFLD and genetically obese rodents, fatty liver induced by high-fat diet is not associated with depletion of hepatic phospholipids. We therefore tested whether iPLA2β could regulate obesity and hepatic steatosis in leptin-deficient mice by cross-breeding PKO with ob/ob mice to generate ob/ob–PKO mice. Here we observed an improvement in ob/ob–PKO mice with significant reduction in serum enzymes, lipids, glucose, insulin as well as improved glucose tolerance, and reduction in islet hyperplasia. The improvement in hepatic steatosis measured by liver triglycerides, fatty acids and cholesterol esters was associated with decreased expression of PPARγ and de novo lipogenesis genes, and the reversal of β-oxidation gene expression. Notably, ob/ob livers contained depleted levels of lysophospholipids and phospholipids, and iPLA2β deficiency in ob/ob–PKO livers lowers the former, but replenished the latter particularly phosphatidylethanolamine (PE) and phosphatidylcholine (PC) that contained arachidonic (AA) and docosahexaenoic (DHA) acids. Compared with WT livers, PKO livers also contained increased PE and PC containing AA and DHA. Thus, iPLA2β deficiency protected against obesity and ob/ob fatty liver which was associated with hepatic fatty-acyl phospholipid remodeling. Our results support the deleterious role of iPLA2β in severe obesity associated NAFLD.     

Intravenous Mycobacterium Bovis Bacillus Calmette-Guérin Ameliorates Nonalcoholic Fatty Liver Disease in Obese,Diabetic ob/ob Mice

Inflammation and immune response profoundly influence metabolic syndrome and fatty acid metabolism. To analyze influence of systemic inflammatory response to metabolic syndrome, we inoculated an attenuated vaccine strain of Mycobacterium bovis Bacillus Calmette–Guérin (BCG) into leptin-deficient ob/ob mice. BCG administration significantly decreased epididymal white adipose tissue weight, serum insulin levels, and a homeostasis model assessment of insulin resistance. Serum high molecular weight (HMW) adiponectin level and HMW/total adiponectin ratio of the BCG treated mice were significantly higher than those of control mice. Hepatic triglyceride accumulation and macrovesicular steatosis were markedly alleviated, and the enzymatic activities and mRNA levels of lipogenic-related genes in liver were significantly decreased in the BCG injected mice. We also exposed human hepatocellular carcinoma HepG2 cells to high levels of palmitate, which enhanced endoplasmic reticulum stress-related gene expression and impaired insulin-stimulated Akt phosphorylation (Ser473). BCG treatment ameliorated both of these detrimental events. The present study therefore suggested that BCG administration suppressed development of nonalcoholic fatty liver disease, at least partly, by alleviating fatty acid-induced insulin resistance in the liver.     

Coupling of the β Rhythm and Slow Electric Activity of the Cerebral Cortex during the Performance of Go/NoGo Tasks and the Identification of the Facial Expression

We investigated the interaction of β-rhythm parameters with α and θ rhythms in a paradigm of cognitive set as a response on facial expression in 35 healthy adults. Data were analyzed by means of continuous wavelet transform on the basis of “maternal” complex Morlet-wavelet in a range of 1–35 Hz. Distribution cards of the values of the wavelet-transform coefficient (WLC) module characterizing potentials amplitude were analyzed. We used indicators of the mean and maximal WLC levels. A significant interaction between β₂ and α rhythms at the mean WLC level at the stage of set formation was revealed in a group with rigid set, and a correlation coefficient was 0.57. The interaction between β₂ and θ rhythms at the mean WLC level (correlation coefficient was 0.74) and WLC maximum (correlation coefficient was 0.8) at the same experimental stage in the group with the flexible set was found.     

NPC1L1 and ABCG5/8 induction explain synergistic fecal cholesterol excretion in ob/ob mice co-treated with PPAR-α and LXR agonists

Molecular and Cellular Biochemistry - Reverse cholesterol transport (RCT) and transintestinal cholesterol efflux (TICE) are two important pathways for body cholesterol elimination. We studied these...     

Configuration of the carotenoid in the reaction centers of photosynthetic bacteria. Comparison of the resonance Raman spectrum of the reaction center of Rhodopseudomonas sphaeroides G1C with those of cis-trans isomers of β-carotene

The resonance Raman spectrum of the reaction center of Rhodopseudomonas sphaeroides G1C as well as those of the cis-trans isomers of β-carotene (all-trans, 9-cis, 13-cis, 15-cis and 9-cis, 13-cis- (or 9-cis, 13′-cis)) have been recorded at liquid N₂ temperature by use of the 457.9, 488.0 and 514.5 nm excitation lines. Comparison of the spectra indicated that the carotenoid in the reaction center takes the 15-cis configuration.     

α-Glucosidase at the tip of the contact chemosensory seta of the blowfly, Phormia regina

α-Glucosidase activity was detected at the tip of the labellar contact chemosensory hair of the blowfly, Phormia regina. The enzyme split about 1 pmole of sucrose per hr per hair on average and the Michaelis constant for sucrose was about 50 mM. The activity of the enzyme was not solubilized into the incubation solution, but stuck stably to the tip of the sensory hair. From the cut end of the sensory hair a high activity of α-glucosidase eluted out. But its Michaelis constant was smaller by far than the one at the tip, suggesting that different types of α-glucosidase isozymes exist in the hair. The possibility that the enzyme at the tip of the sensory hair could be the sugar receptor is discussed.     

Mogat1 deletion does not ameliorate hepatic steatosis in lipodystrophic (Agpat2−/−) or obese (ob/ob) mice

Reducing triacylglycerol (TAG) in the liver continues to pose a challenge in states of nonalcoholic hepatic steatosis. Monoacylglycerol O-acyltransferase (MOGAT) enzymes convert monoacylglycerol (MAG) to diacylglycerol, a precursor for TAG synthesis, and are involved in a major pathway of TAG synthesis in selected tissues, such as small intestine. MOGAT1 possesses MGAT activity in in vitro assays, but its physiological function in TAG metabolism is unknown. Recent studies suggest a role for MOGAT1 in hepatic steatosis in lipodystrophic [1-acylglycerol-3-phosphate O-acyltransferase (Agpat)2^−/−] and obese (ob/ob) mice. To test this, we deleted Mogat1 in the Agpat2^−/− and ob/ob genetic background to generate Mogat1^−/−;Agpat2^−/− and Mogat1^−/−;ob/ob double knockout (DKO) mice. Here we report that, despite the absence of Mogat1 in either DKO mouse model, we did not find any decrease in liver TAG by 16 weeks of age. Additionally, there were no measureable changes in plasma glucose (diabetes) and insulin resistance. Our data indicate a minimal role, if any, of MOGAT1 in liver TAG synthesis, and that TAG synthesis in steatosis associated with lipodystrophy and obesity is independent of MOGAT1. Our findings suggest that MOGAT1 likely has an alternative function in vivo.