Auglurant
(Synonyms: VU0424238) 目录号 : GC65389Auglurant (VU0424238) 是一种新型的有选择性的 mGlu5 拮抗剂,抑制大鼠 mGlu5 的 IC50 值为 11 nM,人 mGlu5 的 IC50 值为 14 nM。Auglurant (VU0424238) 可渗透通过神经系统。
Cas No.:1396337-04-4
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Auglurant (VU0424238) is a novel and selective mGlu5 antagonist with an IC50 value of 11 nM (rat) and an IC50 value of 14 nM (human). Auglurant (VU0424238) has an acceptable CNS penetration[1].
Auglurant (VU0424238) with an IC50 value of 14 nM in HEK293A cells. It also binding a known allosteric site with K i value of 4.4 nM in HEK293A cells.
Auglurant (VU0424238) had a clearance of 19.3 mL/min/kg in rats and demonstrates 50% mGlu5 PET ligand occupancy at an oral dose of 0.8 mg/kg in rats. Plus, it also had a clearance of 15.5 mL/min/kg in cynomolgus monkeys and demonstrates 50% mGlu5 PET ligand occupancy at an oral dose of 0.06 mg/kg in baboons[1].
[1]. Felts AS, et al. Discovery of N-(5-Fluoropyridin-2-yl)-6-methyl-4-(pyrimidin-5-yloxy)picolinamide (VU0424238): A Novel Negative Allosteric Modulator of Metabotropic Glutamate Receptor Subtype 5 Selected for Clinical Evaluation. J Med Chem. 2017 Jun 22;60(12):5072-5085.
Cas No. | 1396337-04-4 | SDF | Download SDF |
别名 | VU0424238 | ||
分子式 | C16H12FN5O2 | 分子量 | 325.3 |
溶解度 | DMSO : 22.73 mg/mL (69.87 mM; Need ultrasonic) | 储存条件 | Store at -20°C |
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1 mM | 3.0741 mL | 15.3704 mL | 30.7409 mL |
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10 mM | 0.3074 mL | 1.537 mL | 3.0741 mL |
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Species-Specific Involvement of Aldehyde Oxidase and Xanthine Oxidase in the Metabolism of the Pyrimidine-Containing mGlu5-Negative Allosteric Modulator VU0424238 (Auglurant)
Drug Metab Dispos 2017 Dec;45(12):1245-1259.PMID:28939686DOI:10.1124/dmd.117.077552.
Aldehyde oxidase (AO) and xanthine oxidase (XO) are molybdo-flavoenzymes that catalyze oxidation of aromatic azaheterocycles. Differences in AO activity have been reported among various species, including rats, humans, and monkeys. Herein we report a species difference in the enzymes responsible for the metabolism of the negative allosteric modulator of metabotropic glutamate receptor subtype 5 (mGlu5 NAM) VU0424238 (VU238, Auglurant). Hepatic S9 incubations with AO and XO specific inhibitors hydralazine and allopurinol indicated that rats and cynomolgus monkeys both oxidized VU238 to the 6-oxopyrimidine metabolite M1 via an AO-mediated pathway, whereas secondary oxidation to the 2,6-dioxopyrimidine metabolite M2 was mediated predominantly by AO in monkeys and XO in rats. Despite differences in enzymatic pathways, intrinsic clearance (CLint) of M1 was similar between species (cynomolgus and rat CLint = 2.00 ± 0.040 and 2.19 ± 0.201 μl/min per milligram of protein, respectively). Inhibitor studies in the S9 of multiple species indicated that oxidation of VU238 to M1 was mediated predominantly by AO in humans, cynomolgus and rhesus monkeys, rats, mice, guinea pigs, and minipigs. Oxidation of M1 to M2 was mediated predominantly by XO in rats and mice and by AO in monkeys and guinea pigs, whereas low turnover prevented enzyme phenotyping in humans and minipigs. Additionally, inhibitor experiments indicated that oxidation at the 2-position of the pyrimidine ring of the known AO substrate, BIBX1382, was mediated by AO in all species, although production of this metabolite was comparatively low in rats and mice. These data may suggest low reactivity of rat AO toward 2-oxidation of pyrimidine-containing compounds and highlight the importance of thoroughly characterizing AO-metabolized drug candidates in multiple preclinical species.
Negative allosteric modulation of metabotropic glutamate receptor 5 attenuates alcohol self-administration in baboons
Pharmacol Biochem Behav 2021 Sep;208:173227.PMID:34224733DOI:10.1016/j.pbb.2021.173227.
Many of the behavioral symptoms that define alcohol use disorder (AUD) are thought to be mediated by amplified glutamatergic activity. As a result, previous preclinical studies have investigated glutamate receptor inhibition as a potential pharmacotherapy for AUD, particularly the metabotropic glutamate receptor 5 (mGlu5). In rodents, mGlu5 negative allosteric modulators (NAMs) have been shown to decrease alcohol self-administration. However, their effect on non-human primates has not previously been explored. To bridge this gap, the effects of mGlu5 NAM pretreatment on sweetened alcohol (8% w/v in diluted KoolAid) self-administration in female baboons were evaluated. Two different mGlu5 NAMs were tested: 1) 3-2((-Methyl-4-thiazolyl) ethynyl) pyridine (MTEP) which was administered at a dose of 2 mg/kg IM; and 2) Auglurant (N-(5-fluoropyridin-2-yl)-6-methyl-4-(pyrimidin-5-yloxy)picolinamide), a newly developed NAM, which was tested under two different routes (0.001, 0.01, 0.03, 0.1 mg/kg IM and 0.1, 0.3, 1.0 mg/kg PO). MTEP decreased both fixed ratio and progressive ratio responding for sweetened alcohol. Auglurant, administered IM, decreased alcohol self-administration at doses that did not affect self-administration of an alcohol-free sweet liquid reward (0.01 to 0.1 mg/kg). Oral administration of Auglurant was not effective in decreasing alcohol self-administration. Our results extend positive findings from rodent studies on mGlu5 regulation of alcohol drinking to female baboons and further strengthen the rationale for targeting mGlu5 in clinical trials for AUD.
Discovery of 4-alkoxy-6-methylpicolinamide negative allosteric modulators of metabotropic glutamate receptor subtype 5
Bioorg Med Chem Lett 2019 Jan 1;29(1):47-50.PMID:30446311DOI:10.1016/j.bmcl.2018.11.017.
This letter describes the further chemical optimization of VU0424238 (Auglurant), an mGlu5 NAM clinical candidate that failed in non-human primate (NHP) 28 day toxicology due to accumulation of a species-specific aldehyde oxidase (AO) metabolite of the pyrimidine head group. Here, we excised the pyrimidine moiety, identified the minimum pharmacophore, and then developed a new series of saturated ether head groups that ablated any AO contribution to metabolism. Putative back-up compounds in this novel series provided increased sp3 character, uniform CYP450-mediated metabolism across species, good functional potency and high CNS penetration. Key to the optimization was a combination of matrix and iterative libraries that allowed rapid surveillance of multiple domains of the allosteric ligand.