Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0028754 (obesity)
 124,988 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Acarbose is an alpha-glucosidase inhibitor which reversibly and competitively inhibits the digestion of oligo- and disaccharides at the brush border of the small intestine. This study evaluates the preventive and therapeutic properties of acarbose in the treatment of obesity. Dose-response experiments were performed during repeated sucrose loads in man in order to investigate the effects of acarbose on plasma insulin and blood glucose levels. After titration of efficient doses, a long-term tolerance test of acarbose was undertaken in a small pilot study. Finally, the relapse preventing effect of acarbose was tested during double-blind cross-over conditions in 24 weight reduced obese women. In growing Sprague-Dawley rats, the effects of acarbose on body weight, lipid depots and adipose tissue cellularity were tested during pair-feeding and ad libitum conditions. Such effects were also studied in adult ad libitum-fed rats. Blood glucose, plasma insulin, body fat, depot lipids as well as fat cell weight and number were determined with established techniques. During a sucrose load, acarbose reduced insulin in a dose-dependent fashion. Glucose was also reduced, but not dose-dependently and only to a moderate extent. During a 200 g sucrose load, 400 mg of acarbose did not necessarily result in a maximal reduction of the insulin response while the glucose response was maximally inhibited after 100 mg. Acarbose reduced the relapse rate after weight reduction. No serious side effects were observed. Flatulence and meteorism occurred frequently. In growing rats, acarbose retarded the development of body weight and of lipid depots not only during pair-feeding conditions but also in ad libitum-fed animals eating considerably more than their controls. The spontaneous food consumption was increased by acarbose also in adult rats but in these animals neither body weight nor lipid depots were significantly reduced by acarbose. It is concluded that acarbose induces a carbohydrate malabsorption. Insulin levels are reduced not only via a decreased glycemic stimulus but also by interference with other insulin releasing mechanism(s). Acarbose is the first drug ever tested with long-term relapse reducing effects after weight reduction. Animal experiments suggest that acarbose may be of value in the prevention of obesity, particularly since the drug retards lipid accumulation also during ad libitum-feeding.
 ...
PMID:alpha-Glucosidase inhibition in obesity. 391 27

The longitudinal distribution of different brush border enzymes along the human small intestine was studied by crossed immunoelectrophoresis. The results are based on biopsies taken every 50 cm in three intestines obtained at autopsy and on peroral or peroperative biopsies from the ligament of Treitz, proximal jejunum and distal ileum from 11 patients undergoing jejunoileal bypass operation for obesity. Lactase-phlorizin hydrolase (EC 3.2.1.23-62) and sucrase-isomaltase(EC 3.2.1.48-10) had their highest level in jejunum with decreasing activity towards the proximal and distal ends of the intestine, while maltase (EC 3.2.1.20) increased along the intestine and reached its highest activity in the distal ileum. A carboxypeptidase (EC 3.4.12.X) is demonstrated as an enzymatic entity of the human intestine. This enzyme had a rather flat distribution curve while microvillus aminopeptidase (EC 3.4.11.2), dipeptidyl peptidase IV (EC 3.4.14.X) and aspartate aminopeptidase (EC 3.4.11.7) all increased along the length axis and reached maximum values in distal ileum.
 ...
PMID:Immunoelectrophoretic studies on human small intestinal brush border proteins--the longitudinal distribution of peptidases and disaccharidases. 611 68

Membrane vesicles from the small intestine brush border were obtained and used to determine the possible effects of genetic or nutritional obesity on L-alanine uptake. Membrane vesicles from Zucker fa/fa obese rats and cafeteria diet-fed Zucker Fa/? rats showed the same characteristics as those of standard diet-fed lean animals. All preparations showed sodium-dependent transport as the main pathway for L-alanine uptake within the substrate concentration range tested. The apparent substrate affinity constant (Km) values and the pattern of inhibition of Na(+)-dependent L-alanine uptake by other amino acids (L-leucine and L-glutamine), suggests that system B involved in the transport of dipolar amino acids (formerly named Neutral Brush Border System) participates in the Na(+)-dependent transport of L-alanine. The affinity constant (Km) for L-alanine was essentially the same for all the groups studied (in the range of 10 mM). However, there was a higher (P < 0.05) maximal capacity (Vmax) in preparations from diet-induced obese animals (cafeteria diet) than that of genetically obese rats. These results indicate that either nutritional or genetic obesity may modify the capacity but not the affinity of transport systems for L-alanine uptake in the brush border of rat small intestine.
 ...
PMID:L-alanine transport in small intestine brush-border membrane vesicles of obese rats. 801 96

Obese Zucker (fa/fa) rats had lower intestinal glucose absorption following an intragastric [U-14C]glucose load than lean (+/?) Zucker rats. In the fa/fa animals, the rate of oxidation of the tracer to 14CO2 was similar to that observed in their lean counterparts. Although there were no differences in the incorporation of the tracer in liver and skeletal muscle glycogen, the conversion and incorporation of [U-14C]glucose into tissue [14C]lipid was higher in the obese animals. Isolated enterocytes from lean and obese Zucker rats showed a similar capacity for [U-14C]glucose utilization. Reconstituted brush border membrane vesicles from obese Zucker rats showed a higher Vmax for glucose transport than those from their lean counterparts. The lower glucose absorption found in the fa/fa rats in vivo may contribute to the maintenance of normoglycemia in these animals.
 ...
PMID:Intestinal glucose absorption is lower in obese than in lean Zucker rats. 850 66

Why is it important to understand the mechanisms controlling intestinal adaptation? There are two major answers to this question. Firstly, in establishing the cellular and molecular events associated with intestinal adaptation, we will formulate a general framework that may be applied to the understanding of adaptation of other cell membranes. For example, alterations in the synthesis of glucose carriers and their subsequent insertion into membranes may alter sugar entry across the intestinal brush border membrane (BBM) using the sodium-dependent D-glucose transporter, SGLT1, or the BBM sodium-independent facultative fructose transporter, GLUT5, and may alter facilitated sugar exit across the basolateral membrane (BLM) using GLUT2. The precise role of transcriptional and translational processes in the up- or down-regulation of sugar transport requires further definition. Alterations in enterocyte microsomal lipid metabolic enzyme expression occurring during the course of intestinal adaptation will direct the synthesis of lipids destined for trafficking to the BBM and BLM domains of the enterocyte. This will subsequently alter the passive permeability properties of these membranes and ultimately influence lipid absorption. Therefore, establishing the physiological, cellular and molecular mechanisms of adaptation in the intestine will define principles that may be applied to other epithelia. Secondly, enterocyte membrane adaptation is subject to dietary modification, and these may be exploited as a means to enhance a beneficial or to reduce a detrimental aspect of the intestinal adaptive process in disease states. Alterations in membrane function occur in association with changes in dietary lipids, and these are observed in a variety of cells and tissues including lymphocytes, testes, liver, adipocytes, nerve tissue, nuclear envelope and mitochondria. Therefore, the elucidation of the mechanisms of intestinal adaptation and the manner whereby dietary manipulation modulates these processes affords the future possibility of dietary engineering aimed at using food as a therapeutic agent. It is hoped this approach will form the centerpiece for future investigation that would focus on disease prevention, as well as on the development of better therapeutic strategies to prevent the development or to treat the complications of conditions such as diabetes mellitus, obesity, hyperlipidemia and inflammatory bowel diseases. This review deals with the physiology of glucose transport with specific emphasis on transporters of the brush border membrane (BBM) and the basolateral membrane (BLM). On the BBM the sodium (Na)/glucose transporters (SGLT1 and SGLT2), the Na-independent transporter (GLUT5), and on the BLM the hexose transporter (GLUT2) are discussed. The molecular biology of these transporters is also reviewed.
 ...
PMID:Adaptation of intestinal nutrient transport in health and disease. Part I. 907 26

In the present work neonatal male and female Wistar rats were treated intraperitoneally with monosodium glutamate (MSG 2 mg/kg b.w.) or saline (controls) daily for 4 day after birth. At the age of 30 and 80 days, the alkaline phosphatase activity (AP) in the brush border of individual enterocytes, the body fat content and Lee's index of obesity were analyzed. Microdensitometrical quantification of AP was significantly increased on day 30 in males (P<0.01) and on day 80 in MSG-treated male and female rats (P<0.001) as compared to the controls. MSG administration also increased the body fat weight and the obesity index significantly (P<0.001) in 80-day-old animals, but was without any significant effect on their food intake. Our results showed that a) neonatal MSG-treatment may significantly change the intestinal function and b) the investigation of the intestinal enzyme activities may be important in further studies on MSG-induced and other forms of obesity.
 ...
PMID:Alkaline phosphatase activity of duodenal enterocytes after neonatal administration of monosodium glutamate to rats. 1098 94

In the present work the effects of fasting and refeeding on fat pad weight and alkaline phosphatase activity in the brush border of individual duodenal enterocytes have been evaluated in male Wistar rats with obesity induced by monosodium glutamate (MSG) treatment during the early postnatal period. Neonatal rats were treated subcutaneously with MSG (2 mg/g b.w.) or saline (controls) for 4 days after birth. At 4 months of age, two types of experiments were performed. In the first experiment rats, were submitted to 3 or 6 days lasting food deprivation. In the second experiment the rats were refed for 3 or 6 days ad libitum or restrictedly (60% of pre-fasting intake) after a 6 day-fasting period. Fasting and refeeding influenced the body fat and function of the duodenum in MSG-treated rats differently as compared to the controls. However, alkaline phosphatase activity and the weight of epididymal and retroperitoneal fat depots were significantly increased in MSG obese rats (P<0.001) during all the periods examined. While 3 days of food deprivation resulted in both groups in a similar loss of adipose tissue weight and alkaline phosphatase activity, the decrements of these parameters after 6 days of fasting were lower in obese rats suggesting that their capacity to spare body fat stores was enhanced. After 3 days of ad libitum refeeding, a more marked adaptational increase of food consumption and also a significantly increased alkaline phosphatase activity above the pre-fasting level (P<0.01) was observed in the MSG-treated rats. Consequently, a more rapid body fat restoration was demonstrated in these animals. Refeeding of rats at 60% of the pre-fasting intake level resulted in a significant increase of alkaline phosphatase activity in both the MSG and control group; moreover, as food restriction continued, MSG-treated rats tended to further increase the enzyme activity. Our results revealed that MSG treatment of neonatal rats may significantly change the intestinal functions. Permanently increased alkaline phosphatase activity observed in MSG obese rats during all investigated periods suggests that this functional alteration is probably not a consequence of actual nutritional variation but could be a component of regulatory mechanisms maintaining their obesity at critical values.
 ...
PMID:Effect of fasting and refeeding on duodenal alkaline phosphatase activity in monosodium glutamate obese rats. 1155 Nov 42

Angiotensin II (Ang II) via the activation of AT1 receptors and subsequent stimulation of the tubular sodium transporters increases sodium and water reabsorption in the proximal tubule. An enhanced tubular action of Ang II is implicated in obesity related hypertension; however, the mechanism of such a phenomenon is unknown. Present study was designed to determine the AT1 receptor numbers and function in the proximal tubule of obese and lean Zucker rats. Obese Zucker rats were hypertensive and hyperinsulinemic. The plasma renin activity was similar in the lean and obese rats. Angiotensin II stimulated the Na,H-exchanger (NHE) activity in the proximal tubule, but the stimulatory response was markedly greater in obese than in lean rats. Similarly, Ang II caused greater inhibition in cAMP accumulation in the proximal tubule of obese compared to lean rats. The (125I]sar-Ang II binding revealed a 100% increase in the AT1 receptor number in the brush border membrane (BBM) of obese compared to lean rats. The Western blot analysis revealed a 36-51% increase in the Gi(alpha)1 and Gi(alpha)3 in the BBM of obese compared to lean rats. We conclude that increases in the AT1 receptor number and abundance of the Gi(alpha) on BBM may be responsible for the enhanced signaling and subsequent greater stimulation of NHE by Ang II in proximal tubules of obese rats. The greater stimulation of NHE by Ang II may contribute to the increased tubular sodium reabsorption and to the hypertension in obese Zucker rats.
 ...
PMID:Increased renal angiotensin II AT1 receptor function in obese Zucker rat. 1259 23

In preliminary experiments, polyphenol fractions prepared from the leaves of Salix matsudana reduced the elevation of the rat plasma triacylglycerol level at 3 and 4 h after oral administration of a lipid emulsion containing corn oil, at a dose of 570 mg/kg. The present study examined the anti-obesity action of polyphenol fractions of S. matsudana leaves by testing whether the polyphenol fractions prevented the obesity induced by feeding a high-fat diet to female mice for 9 weeks. Body weights at 2-9 weeks and the fi nal parametrial adipose tissue weights were significantly lower in mice fed the high-fat diet with 5% polyphenols of S. matsudana leaves than in those fed the high-fat diet alone. The polyphenols of S. matsudana leaves also significantly reduced the hepatic total cholesterol content, which was elevated in mice fed the high-fat diet alone. In addition, the polyphenol fractions of S. matsudana leaves inhibited palmitic acid uptake into brush border membrane vesicles prepared from rat jejunum and alpha-amylase activity, and their fractions enhanced norepinephrine-induced lipolysis in fat cells. In conclusion, it is suggested that the inhibitory effects of the flavonoid glycoside fraction of S. matsudana leaves on high-fat diet-induced obesity might be due to the inhibition of carbohydrate and lipid absorption from small intestine through the inhibition of alpha-amylase and palmitic acid uptake into small intestinal brush border membrane or by accelerating fat mobilization through enhancing norepinephrine-induced lipolysis in fat cells.
 ...
PMID:Anti-obesity action of Salix matsudana leaves (Part 1). Anti-obesity action by polyphenols of Salix matsudana in high fat-diet treated rodent animals. 1466 54

Renal angiotensin II (AII) is suggested to play a role in the enhanced sodium reabsorption that causes a shift in pressure natriuresis in obesity related hypertension; however, the mechanism is not known. Therefore, to assess the influence of AII on tubular sodium transport, we determined the effect of AII on the Na+, K+-ATPase activity (NKA), an active transporter regulated by the AT1 receptor activity, in the isolated proximal tubules of lean and obese Zucker rats. Also, we determined the levels of the tubular AT1 receptor and associated signal transducing G proteins, as the initial signaling components that mediate the effects of AII on Na+, K+-ATPase activity. In the isolated proximal tubules, AII produced greater stimulation of the NKA activity in obese compared with lean rats. Determination of the AT1 receptors by Scatchard analysis of the [125I] Sar-Ang II binding and Western blot analysis in the basolateral (BLM) and brush border membrane (BBM) revealed a modest but significant increase (23%) in the AT1 receptor number mainly in the BLM of obese compared with lean rats. The AII affinity for AT1 receptors, as determined by IC50 values of AII to displace [125I] Sar-Ang II binding in BLM and BBM were similar in lean and obese rats. Western blot analysis revealed significant increases in Gialpha1, Gialpha2, Gialpha3, and Gq/11alpha in BLM and Gialpha1, Gialpha3, and Gq/11alpha in BBM of obese as compared with lean rats. The increase in the levels of the AT1 receptor and G proteins, mainly in the BLM, may be contributing to the enhanced AII-induced activation of NKA in the proximal tubules of obese rats. This phenomenon, in part, may be responsible for the increased sodium reabsorption and the development of hypertension in obese Zucker rats.
 ...
PMID:Enhanced angiotensin II-induced activation of Na+, K+-ATPase in the proximal tubules of obese Zucker rats. 1644 62


1 2 3 Next >>