Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0028754 (obesity)
124,988 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To achieve a better understanding of the biochemical basis of obesity, we have undertaken comparative analyses of adipose tissue of lean and obese mice. By two-dimensional gel analysis, carbonic anhydrase-III (CA III) has been identified as a major constituent of murine adipose tissue. Quantitative comparisons of CA III protein and mRNA levels indicate that this enzyme is expressed at lower levels in adipose tissue from animals that were either genetically obese or had experimentally induced obesity compared to levels in the corresponding lean controls. This decrease in CA III expression was unique to adipose tissue, since other CA III-containing organs and tissues did not show a change when lean and obese animals were compared. Additionally, levels of CA III in adipose tissue from obese animals responded to acute changes in energy balance of the animal. These results are discussed in light of possible metabolic roles for CA III.
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PMID:Expression of CA III in rodent models of obesity. 192

Six grossly obese patients were fed 5000 calorie diets for 4 wk. During one period of 2 wk, the calories were consumed over 4 hr (gorging) and during the other 2 wk, the dietary intake was spread over 20 hr (nibbling). Each of these periods followed a low caloric intake which lasted at least 10 days. Three male patients (group I) were studied at or near their maximal weight and three females (group II) after a weight loss of 50-70 kg. The patients in group II gained more weight than those in group I. Lipogenesis from pyruvate was greater in group II than in group I. Rapid ingestion of food (gorging) was accompanied by a significant increase in glyceride-glycerol-(14)C and fatty acids-(14)C from pyruvate-(14)C. The enzymatic activity of sn-glycerol 3-phosphate dehydrogenase and mitochondrial glycerophosphate oxidase paralleled the rate of formation of glyceride-glycerol. Lipogenesis from pyruvate was significantly lower when the bicarbonate concentration was reduced from 25 to 10 mM. Citrate and acetate were also converted to fatty acids but there was no difference between gorging and nibbling. An inhibitor of carbonic anhydrase significantly reduced the conversion of pyruvate into CO(2), glyceride-glycerol, and fatty acids. These data on gorging and nibbling have been related to other studies suggesting that the frequency of food intake may be inversely related to obesity.
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PMID:Lipogenesis in human adipose tissue: some effects of nibbling and gorging. 501 Oct 99

The first inhibition study of the mitochondrial isozyme carbonic anhydrase (CA) V (of murine origin) with a series of aromatic and heterocyclic sulfonamides is reported. Inhibition data of the cytosolic isozymes CA I and CA II and the membrane-bound isozyme CA IV with these inhibitors are also provided for comparison. Several low nanomolar CA V inhibitors were detected (KI values in the range of 4-15 nM), most of them belonging to the acylated sulfanilamide, ureido-benzenesulfonamide, 1,3,4-thiadiazole-2-sulfonamide, and aminobenzolamide type of compounds. The clinically used inhibitors acetazolamide, methazolamide, ethoxzolamide, dorzolamide, brinzolamide, and topiramate on the other hand were less effective CA V inhibitors, showing inhibition constants in the range of 47-63 nM. Some of the investigated sulfonamides, such as the ureido-benzenesulfonamides and the acylated sulfanilamides showed higher affinity for CA V than for the other isozymes, CA II included, which is a remarkable result, since most compounds investigated up to now inhibited the cytosolic isozyme CA II better. These results prompt us to hypothesize that the selective inhibition of CA V, or the dual inhibition of CA II and CA V, may lead to the development of novel pharmacological applications for such sulfonamides, for example in the treatment or prevention of obesity, by inhibiting CA-mediated lipogenetic processes.
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PMID:Carbonic anhydrase inhibitors. Inhibition of mitochondrial isozyme V with aromatic and heterocyclic sulfonamides. 1497 7

Among the 14 human isozymes of carbonic anhydrase (CA, EC 4.2.1.1) presently known, the cytosolic hCA II is the most active and plays a host of physiological functions, whereas the mitochondrial hCA V is unique due to its role in several biosynthetic reactions. An inhibition study of these isozymes with a series of sulfonamides is reported here, with the scope to detect lead molecules for the design of isozyme-specific CA inhibitors (CAIs) targeting the mitochondrial isoform. Indeed, recently it has been shown that CA V is a novel target for the drug design of anti-obesity agents among others. Compounds included in this study were mainly ortho-, meta-, and para-substituted-benzenesulfonamides, together with several halogeno-substituted sulfanilamides and disubstituted-benzene-1,3-disulfonamide derivatives. Isozyme V showed an inhibition profile with these sulfonamides different of that of hCA II. Thus, IC(50) values in the range of 80 nM to 74 microM against hCA II, and 0.78-63.7 microM against hCA V with these derivatives have been obtained. Only one compound, 2-carboxymethyl-benzenesulfonamide, was more active against hCA V over hCA II (selectivity ratio of 1.39), whereas all other derivatives investigated here were much better hCA II inhibitors (selectivity ratios CA II/CA V in the range of 0.0008-0.73) than hCA V inhibitors.
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PMID:Carbonic anhydrase inhibitors: inhibition of human cytosolic isozyme II and mitochondrial isozyme V with a series of benzene sulfonamide derivatives. 1548 52

An inhibition study of the human cytosolic isozymes I, and II, the mitochondrial isoform VA, and the tumor-associated, transmembrane isozyme IX of carbonic anhydrase (CA, EC 4.2.1.1) with a library of aromatic/heteroaromatic/polycyclic difluoromethanesulfonamides is reported. Most of the inhibitors were derivatives of benzenedifluoromethanesulfonamide incorporating substituted-phenyl moieties, or were methylsulfonamide and difluoromethyl-sulfonamide derivatives of the sulfamates COUMATE and EMATE, respectively. Except for the methylsulfonamide-COUMATE derivative which behaved as a potent CA II inhibitor (K(I) of 32nM), these sulfonamides were moderate inhibitors of all isozymes, with inhibition constants in the range of 96-5200nM against hCA I, of 80-670nM against hCA II, and of 195-9280nM against hCA IX, respectively. Remarkably, some derivatives, such as 3-bromophenyl-difluoromethanesulfonamide, showed a trend to selectively inhibit the mitochondrial isoform CA VA, showing selectivity ratios for inhibiting CA VA over CA II of 3.53; over CA I of 6.84 and over CA IX of 9.34, respectively, although it is a moderate inhibitor (K(I) of 160nM). Some of these derivatives may be considered as leads for the design of isozyme selective CA inhibitors targeting the mitochondrial isozyme CA VA, with potential use as anti-obesity agents.
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PMID:Carbonic anhydrase inhibitors: inhibition of the human isozymes I, II, VA, and IX with a library of substituted difluoromethanesulfonamides. 1620 42

The carbonic anhydrases (CAs, EC 4.2.1.1) are ubiquitous zinc enzymes which catalyze a very simple physiological reaction, the interconversion between carbon dioxide and the bicarbonate ion, and are involved in physiological and pathological processes. The different isozymes have been considered as important targets for inhibitors with clinical applications. Several sulfonamide carbonic anhydrase inhibitors (CAIs) were used for decades as diuretics, anti-glaucoma, anti-epileptic, anti-ulcer agents, or as drugs for treating other neurological/neuromuscular disorders, whereas presently several such agents still find wide applications in therapy, mainly as topically acting anti-glaucoma drugs, anti-cancer, or anti-obesity agents. Although sulfonamides were considered the moiety par excellence to coordinate the catalytic zinc and for designing potent CAIs, in recent years related functional groups such as sulfamate, sulfamide and others have proven to be successful in the design of selective CAIs. The present review will deal with these different zinc binding functions recently reported in literature.
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PMID:New zinc binding motifs in the design of selective carbonic anhydrase inhibitors. 1691 98

A 3D QSAR selectivity analysis of carbonic anhydrase (CA) inhibitors using a data set of 87 CA inhibitors is reported. After ligand minimization in the binding pockets of CA I, CA II, and CA IV isoforms, selectivity CoMFA and CoMSIA 3D QSAR models have been derived by taking the affinity differences (DeltapKi) with respect to two CA isozymes as independent variables. Evaluation of the developed 3D QSAR selectivity models allows us to determine amino acids in the respective CA isozymes that possibly play a crucial role for selective inhibition of these isozymes. We further combined the ligand-based 3D QSAR models with the docking program AUTODOCK in order to screen for novel CA inhibitors. Correct binding modes are predicted for various CA inhibitors with respect to known crystal structures. Furthermore, in combination with the developed 3D QSAR models we could successfully estimate the affinity of CA inhibitors even in cases where the applied scoring function failed. This novel strategy to combine AUTODOCK poses with CoMFA/CoMSIA 3D QSAR models can be used as a guideline to assess the relevance of generated binding modes and to accurately predict the binding affinity of newly designed CA inhibitors that could play a crucial role in the treatment of pathologies such as tumors, obesity, or glaucoma.
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PMID:3D QSAR selectivity analyses of carbonic anhydrase inhibitors: insights for the design of isozyme selective inhibitors. 1712 13

The ability of Gold software to predict the binding disposition of carbonic anhydrase (CA) inhibitors was evaluated using CA II as a case study. The best procedure was subsequently used for docking almost 300 CA II ligands, and the best poses were used as an alignment tool for the development of a 3D quantitative structure-activity relationship (QSAR) study. Evaluation of the resulting 3D-QSAR model allowed us to indicate the ligand properties and residues important for CA II inhibition. Since CAs are an important target involved in many pathologies such as glaucoma, obesity, and tumors, the results obtained could accurately predict the binding affinity of newly designed CA II inhibitors. Furthermore, it is reasonable that this strategy could be profitably used also for the investigation of other CAs.
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PMID:Analysis of human carbonic anhydrase II: docking reliability and receptor-based 3D-QSAR study. 1729 64

Zonisamide and topiramate are two antiepileptic drugs known to induce weight loss in epilepsy patients. These molecules were recently shown to act as carbonic anhydrase (CA) inhibitors, being presumed that the weight loss may be due to the inhibition of the mitochondrial isozymes CA VA and CA VB involved in metabolic processes, among which lipid biosynthesis. To better understand the interaction of these compounds with CAs, here, we report a homology modeling and molecular dynamics simulations study on their adducts with human carbonic anhydrase VA (hCA VA). According to our results, in both cases the inhibitor sulfamate/sulfonamide moiety participates in the canonical interactions with the catalytic zinc ion, whereas the organic scaffold establishes a large number of van der Waals and polar interactions with the active site cleft. A structural comparison of these complexes with the corresponding homologues with human carbonic anhydrase II (hCA II) provides a rationale to the different affinities measured for these drugs toward hCA VA and hCA II. In particular, our data suggest that a narrower active site cleft, together with a different hydrogen bond network arrangement of hCA VA compared to hCA II, may account for the different Kd values of zonisamide and topiramate toward these physiologically relevant hCA isoforms. These results provide useful insights for future design of more isozyme-selective hCA inhibitors with potential use as anti-obesity drugs possessing a novel mechanism of action.
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PMID:Molecular modeling study for the binding of zonisamide and topiramate to the human mitochondrial carbonic anhydrase isoform VA. 1742 Jan 32

Few pharmacological approaches for the treatment of obesity exist at this time, and most of them are unsatisfactory, whereas this disease is widespread both in the developed and developing world. Novel effective approaches are needed for the development of antiobesity agents possessing different mechanisms of action. A possible new approach for the treatment and prophylaxis of obesity is based on the inhibition of carbonic anhydrases (CAs, EC 4.2.1.1), enzymes involved in several steps of de novo lipogenesis, both in the mitochondria and the cytosol of cells. Topiramate and zonisamide are two antiepileptic drugs that were shown to induce persistent weight loss in obese patients, but their mechanism of action is largely unknown. We demonstrated strong CA inhibitory properties for these two drugs, by means of kinetic studies in solution and X-ray crystallography, against several physiologically relevant isoforms, such as CA II, VA and VB. It has been proved that topiramate also inhibits lipogenesis in adipocytes, similarly to other sulfonamide CA inhibitors investigated earlier. A large number of new sulfonamides have been synthesized and assayed as possible inhibitors of CA isoforms involved in lipogenesis. This is the beginning of a very new and promising approach for the treatment of obesity, with the hope that new compounds showing this property will be soon developed and available for clinical use.
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PMID:Antiobesity carbonic anhydrase inhibitors. 1750 32


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