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Query: UMLS:C0028754 (
obesity
)
124,988
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Dehydroepiandrosterone (DHEA) reduces weight gain in the hypercorticosteronemic Zucker fatty rat, an animal model of genetic
obesity
. However, the mechanism of action of DHEA is still unclear. We propose that DHEA acts as an antiglucocorticoid in the Zucker fatty rat. To test this hypothesis we examined DHEA's ability to block the activation of the glucocorticoid-inducible enzymes tyrosine aminotransferase (TAT) and
ornithine decarboxylase
(
ODC
) by dexamethasone (i.p. 5 micrograms/100 g body weight) in hepatic tissue of 6-10 week old Zucker rats. Injections of DMSO, the vehicle, served as a control. DHEA alone did not affect TAT, but when DHEA (500 micrograms/100 g b.w.) was administered simultaneously with dexamethasone, activation did not occur. Similar results were seen using a second tissue (kidney). We conclude that DHEA can act acutely as an antiglucocorticoid in the young obese Zucker rat and hypothesize that its chronic anti-
obesity
effect may reflect, at least in part, a chronic antiglucocorticoid activity.
...
PMID:Antiglucocorticoid action of dehydroepiandrosterone in young obese Zucker rats. 135 3
The aim of this study was to investigate whether the central nervous system regulates mucosal cell growth and apoptosis in the rat small intestine.
Ornithine decarboxylase
is a key enzyme for polyamine synthesis, which plays an important role in intestinal mucosal growth. The increase in
ornithine decarboxylase
activity in the duodenum just before a dark period was abolished by truncal vagotomy. An infusion of 2-deoxy-D-glucose into the third cerebroventricle activated the enzyme activity in the small intestine. Epithelial homeostasis is balanced by the regulation of cell proliferation and cell death. Intestinal mucosal apoptosis decreased in rats with ventromedial hypothalamus lesions, which induced hyperphagia and
obesity
. In contrast, sustained anorexia induced by 1-deoxy-D-glucosamine increased intestinal apoptosis. These results indicate that the central nervous system, in addition to local factors, is related to the regulation of mucosal homeostasis in the intestinal mucosa.
...
PMID:Homeostasis in the small intestinal mucosa balanced between cell proliferation and apoptosis is regulated partly by the central nervous system. 1257 82
Impaired adipogenesis has been shown to predispose to disturbed adipocyte function and development of metabolic abnormalities. Previous studies indicate that polyamines are essential in the adipogenesis in 3T3-L1 fibroblasts. However, the specific roles of individual polyamines during adipogenesis have remained ambiguous as the natural polyamines are readily interconvertible inside the cells. Here, we have defined the roles of spermidine and spermine in adipogenesis of 3T3-L1 cells by using (S')- and (R')- isomers of alpha-methylspermidine and (S,S')-, (R,S)- and (R,R')-diastereomers of alpha,omega-bismethylspermine. Polyamine depletion caused by alpha-difluoromethylornithine (DFMO), an irreversible inhibitor of
ornithine decarboxylase
, prevented adipocyte differentiation by suppressing the expression of its key regulators, peroxisome proliferator-activated receptor gamma and CCAAT/enhancer binding protein alpha. Adipogenesis was restored by supplementation of methylspermidine isomers but not of bismethylspermine diastereomers. Although both spermidine analogues supported adipocyte differentiation only (S)-methylspermidine was able to fully support cell growth after extended treatment with alpha-DFMO. The distinction between the spermidine analogues in maintaining growth was found to be in their different capability to maintain functional hypusine synthesis. However, the differential ability of spermidine analogues to support hypusine synthesis did not correlate with their ability to support differentiation. Our results show that spermidine, but not spermine, is essential for adipogenesis and that the requirement of spermidine for adipogenesis is not strictly associated with hypusine modification. The involvement of polyamines in the regulation of adipogenesis may offer a potential application for the treatment of dysfunctional adipocytes in patients with
obesity
and metabolic syndrome.
...
PMID:Spermidine is indispensable in differentiation of 3T3-L1 fibroblasts to adipocytes. 1953 75
In
obesity
and type 2 diabetes, Glut4 glucose transporter expression is decreased selectively in adipocytes. Adipose-specific knockout or overexpression of Glut4 alters systemic insulin sensitivity. Here we show, using DNA array analyses, that nicotinamide N-methyltransferase (Nnmt) is the most strongly reciprocally regulated gene when comparing gene expression in white adipose tissue (WAT) from adipose-specific Glut4-knockout or adipose-specific Glut4-overexpressing mice with their respective controls. NNMT methylates nicotinamide (vitamin B3) using S-adenosylmethionine (SAM) as a methyl donor. Nicotinamide is a precursor of NAD(+), an important cofactor linking cellular redox states with energy metabolism. SAM provides propylamine for polyamine biosynthesis and donates a methyl group for histone methylation. Polyamine flux including synthesis, catabolism and excretion, is controlled by the rate-limiting enzymes
ornithine decarboxylase
(
ODC
) and spermidine-spermine N(1)-acetyltransferase (SSAT; encoded by Sat1) and by polyamine oxidase (PAO), and has a major role in energy metabolism. We report that NNMT expression is increased in WAT and liver of obese and diabetic mice. Nnmt knockdown in WAT and liver protects against diet-induced
obesity
by augmenting cellular energy expenditure. NNMT inhibition increases adipose SAM and NAD(+) levels and upregulates
ODC
and SSAT activity as well as expression, owing to the effects of NNMT on histone H3 lysine 4 methylation in adipose tissue. Direct evidence for increased polyamine flux resulting from NNMT inhibition includes elevated urinary excretion and adipocyte secretion of diacetylspermine, a product of polyamine metabolism. NNMT inhibition in adipocytes increases oxygen consumption in an
ODC
-, SSAT- and PAO-dependent manner. Thus, NNMT is a novel regulator of histone methylation, polyamine flux and NAD(+)-dependent SIRT1 signalling, and is a unique and attractive target for treating
obesity
and type 2 diabetes.
...
PMID:Nicotinamide N-methyltransferase knockdown protects against diet-induced obesity. 2471 10
