Discovery and Optimization of a Series of Carbazole Ureas as NPY5 Antagonists for the Treatment of Obesity

Block, Michael H.; Boyer, Scott; Brailsford, Wayne; Brittain, David R.; Carroll, Debra; Chapman, Steve; Clarke, D. S.; Donald, Craig S.; Foote, Kevin M.; Godfrey, Linda; Ladner, Anthony; Marsham, Peter R.; Masters, David J.; Mee, Christine; O’Donovan, Michael R.; Pease, J. Elizabeth; Pickup, Adrian; Rayner, John W.; Roberts, Andrew; Schofield, Paul N.; Suleman, and Abid; Turnbull, Andrew V.

doi:10.1021/jm011125x

Cited by 63 publications

(33 citation statements)

References 37 publications

(67 reference statements)

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“…This compound is central nervous system (CNS) penetrant, and an oral dose of 10 mg/kg NPY5RA-972 to rats produced concentrations in cerebrospinal fluid that greatly exceeded the in vitro IC 50 (inhibitory concentration 50%). Indeed, at doses to rats as low as 1 mg/kg, NPY5RA-972 inhibited feeding induced by intracerebroventricular (ICV) administration of a selective NPY Y5 agonist ([cPP [1][2][3][4][5][6][7] ,NPY 19 -23 , Ala 31 ,Aib 32 ,Gln 34 ]-hPP). However, in the dose range 1-10 mg/kg, NPY5RA-972 had no significant effect on food intake in Wistar rats induced to feed by either ICV NPY or 24 h fasting or in free-feeding Wistar or obese Zucker rats.…”

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confidence: 99%

“…In particular, the importance of NPY Y5 has been suggested by the parallel pharmacology of the receptor in vitro and feeding in rodents (17)(18)(19)(20)(21)(22)(23)(24), and the inhibitory effects of NPY Y5 receptor antisense oligonucleotides (25)(26)(27)(28), NPY Y5 deficiency (29), and an NPY Y5 antagonist (30) on NPY-induced feeding in rodents. We investigated the role the NPY Y5 receptor in feeding in the rat using a previously described peptidic NPY Y5 selective agonist [cPP [1][2][3][4][5][6][7] ,NPY 19 -23 ,Ala 31 ,Aib 32 ,Gln 34] -hPP (20) and a novel, small molecular weight, potent, and selective NPY Y5 antagonist (9-isopropyl-4-methyl-3-(4-morpholinecarbonylamino)-9H-carbazole, termed NPY5RA-972) (31). The data described herein argue that, contrary to many previous data, NPY Y5 is not a significant regulator of feeding behavior in the rat.…”

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Selective Antagonism of the NPY Y5 Receptor Does Not Have a Major Effect on Feeding in Rats

et al. 2002

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Neuropeptide Y (NPY) is thought to play a key role in stimulating feeding, thus making NPY receptors attractive appetite suppressant drug targets for treating obesity. Because the orexigenic effects of NPY have been ascribed to actions at the NPY Y5 receptor, we have determined the role of this receptor in feeding in rats, using a small molecule antagonist of this receptor. NPY5RA-972 is a selective and potent (<10 nmol/l) NPY Y5 receptor antagonist. This compound is central nervous system (CNS) penetrant, and an oral dose of 10 mg/kg NPY5RA-972 to rats produced concentrations in cerebrospinal fluid that greatly exceeded the in vitro IC 50 (inhibitory concentration 50%). Indeed, at doses to rats as low as 1 mg/kg, NPY5RA-972 inhibited feeding induced by intracerebroventricular (ICV) administration of a selective NPY Y5 agonist ([cPP 1-7 ,NPY 19 -23 , Ala 31 ,Aib 32 ,Gln 34 ]-hPP). However, in the dose range 1-10 mg/kg, NPY5RA-972 had no significant effect on food intake in Wistar rats induced to feed by either ICV NPY or 24 h fasting or in free-feeding Wistar or obese Zucker rats. Chronic administration of NPY5RA-972 (10 mg/kg twice daily) had no effect on food intake or body weight in either free-feeding Wistar rats or dietary obese rats. These data indicate that NPY5RA-972 is a potent, selective, orally active, and CNS-penetrant antagonist of the NPY Y5 receptor that prevents feeding driven by activation of this receptor. The data obtained with this antagonist indicate that the NPY Y5 receptor is not a major regulator of feeding in the rat. Diabetes 51: 2441-2449, 2002 R esearch into appetite control during the past decade has been ignited by the discovery of leptin and fueled by the recognition of obesity as a widespread and rapidly growing disease (1). Leptin is a fat-derived hormone that signals energy (fat) storage levels to the hypothalamus. A number of previously identified (e.g., neuropeptide Y [NPY], melaninconcentrating hormone, corticotropin-releasing factor, galanin, neuromedin U, bombesin and pro-opiomelanocortin peptides) and newly discovered (agouti-related protein, cocaine and amphetamine-regulated transcript, urocortin, orexin, ghrelin) neuropeptides have become recognized as central nervous system (CNS) targets of leptin action (2-5). Many of these peptides are known to influence feeding in experimental species, and their receptors have been proposed as possible targets for appetite suppressant drugs. Corroborative evidence supporting these hypotheses from human (6,7) and rodent mutations (8 -10) is limited, but compensation and redundancy have been invoked as explanations for unexpected negative findings (11). Ultimately, the generation of potent and selective modulators of these peptide pathways is key to our ability to explore the biology of appetite control and to defining which of these pathways are likely to be the best targets for appetite suppressant drugs.NPY is a 36 -amino acid peptide that is probably the most studied putative neuropeptide regulator of appetite. In rodents, NPY is e...

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Selective Antagonism of the NPY Y5 Receptor Does Not Have a Major Effect on Feeding in Rats

et al. 2002

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“…Whereas catalytic hydrogenation with gaseous hydrogen is a well-established method also for the reduction of nitrocarbazoles into aminocarbazoles (see, for example [12,13]), employment of a solid or liquid hydrogen source has the advantage of safer handling and easier reaction monitoring, especially if elevated temperatures are required. Such protocols, known as catalytic transfer hydrogenation have also been used in the nitrocarbazole series, and the combination of palladium/carbon as catalyst and hydrazine hydrate as hydrogen source had been found to be particularly useful for this purpose [14], as the yields are generally high and there are no non-volatile reagents or by-products involved.…”

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Dimethyl 6-Amino-1-methyl-9H-carbazole-2,3-dicarboxylate

Haider

Tropper

2015

Molbank

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Abstract:The title compound (2) was prepared in high yield by catalytic transfer hydrogenation of the 6-nitro precursor (1), using hydrazine hydrate as the hydrogen source. Under the conditions employed, the ester groups remain unaffected. The new compound was fully characterised by elemental analysis, . Such compounds are known to act as topoisomerase II poisons and as another common structural feature they possess a heteroaromatic ring fused to the carbazole 2,3-bond. Typically, this is a pyridine unit (like in olivacine and its isomer, ellipticine [3]), but there are also examples for various diazine-fused 1-methyl-and 1,4-dimethylcarbazoles, exhibiting antitumor activity [4]. Among them, pyridazino [4,5-b]carbazoles (representing a 3-aza-olivacine scaffold) have been reported by us [5][6][7][8] and others [9]. As a key intermediate for the synthesis of these tetracycles, 1-methylcarbazole-2,3-dicarboxylic esters have been used and the latter were found to provide a convenient access also to some cytotoxic 4-methylpyrrolo [3,4-b]carbazole-1,3(2H,5H)-diones [10], which again feature the 1-methylcarbazole motif. In the course of extensive structural variation of the A-ring substitution pattern of such b-fused 1-methylcarbazoles, we recently reported the synthesis and cyclisation reactions of some halo-and nitro-substituted 1-methylcarbazole-2,3-dicarboxylic acid dimethyl esters [11]. As a further extension of our building-block library, we here describe the convenient preparation of dimethyl 6-amino-1-OPEN ACCESS

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“…In a study (208) using both Y 1 (120562A, BIBO 3304) and Inhibited spontaneous food intake, fasted food intake, freefeeding or NPY-induced feeding in rats (162)(163)(164)(165)(166)(167)(168)(169)(170)(171)(172)(173)(174)(175) Y 5 receptor 2-͓4-(8-methyl-2-oxo-4H-benzo͓d͔͓1,3͔oxazin-1-yl)piperidin-1-yl͔-N-(9-oxo-9H-fluoren-3-yl)acetamide 5p (188), CGP 71683A (197)(198)(199) Inhibited spontaneous food intake, fasted food intake, freefeeding rats or NPY-induced food intake in rats (188,197,198) and guinea pigs (199) GW438014A (200) FMS586 (201) Decreased weight gain rate and fat mass in rodents (200), induced acute and robust feeding responses in satiated rats (201) NPY5RA-972 (209,210) No effect on NPY-induced feeding (209, 210) Compound (Ϫ)-7, (features 2,3-dihydro-1H-yclopenta͓a͔naphthalene moiety͔ (202) Inhibited Y 5 agonist bovine PP-induced food intake in rat, no effect on NPY-induced feeding (202) JCF 104, JCF 109 (208) Reduced hyperphagic effect of NPY (208) ͓cPP1-7, NPY19 -23, Ala31,Aib32, Q34͔hPP (215) Stimulated food intake in rats (215) (199). Interestingly, the effect of the antagonists tended to cause different feeding behavior.…”

Section: A Npy Receptor Antagonistsmentioning

confidence: 99%