401567-36-0Relevant academic research and scientific papers
Small-compound enhancers for functional O-mannosylation of alpha-dystroglycan, and uses thereof
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Page/Page column 26; 37; 38, (2019/03/14)
The present invention provides compounds that can enhance functional O-mannosylation of proteins including alpha-dystroglycan. Also provided are methods of preparation of the compounds defined by the formula I. Also provided are the methods of using the compounds or the pharmaceutical acceptable salts or prodrugs thereof in treating and preventing subjects suffering from the diseases including muscular dystrophies and cancers.
PIPERAZINYL METHANONE NAAA INHIBITORS
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Paragraph 0212; 0250; 0251; 0282, (2017/12/16)
Disclosed herein, inter alia, are compositions and methods for modulating the activity of N-acylethanolamine acid amidase for the treatment of a pathological state, including pain, an inflammatory condition, or a neurodegenerative disorder.
Second-Generation Non-Covalent NAAA Inhibitors are Protective in a Model of Multiple Sclerosis
Migliore, Marco,Pontis, Silvia,Fuentes de Arriba, Angel Luis,Realini, Natalia,Torrente, Esther,Armirotti, Andrea,Romeo, Elisa,Di Martino, Simona,Russo, Debora,Pizzirani, Daniela,Summa, Maria,Lanfranco, Massimiliano,Ottonello, Giuliana,Busquet, Perrine,Jung, Kwang -Mook,Garcia-Guzman, Miguel,Heim, Roger,Scarpelli, Rita,Piomelli, Daniele
supporting information, p. 11193 - 11197 (2016/10/13)
Palmitoylethanolamide (PEA) and oleoylethanolamide (OEA) are endogenous lipid mediators that suppress inflammation. Their actions are terminated by the intracellular cysteine amidase, N-acylethanolamine acid amidase (NAAA). Even though NAAA may offer a new target for anti-inflammatory therapy, the lipid-like structures and reactive warheads of current NAAA inhibitors limit the use of these agents as oral drugs. A series of novel benzothiazole–piperazine derivatives that inhibit NAAA in a potent and selective manner by a non-covalent mechanism are described. A prototype member of this class (8) displays high oral bioavailability, access to the central nervous system (CNS), and strong activity in a mouse model of multiple sclerosis (MS). This compound exemplifies a second generation of non-covalent NAAA inhibitors that may be useful in the treatment of MS and other chronic CNS disorders.
2-Substituted-phenyl-oxy-5-methylsulfonyl piperazine acidamide analogue and preparation method and application thereof
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, (2016/10/08)
The invention discloses 2-substituted-phenyl-oxy-5-methylsulfonyl piperazine acidamide analogue and a preparation method and application thereof, and particularly, relates to 2-substituted-phenyl-oxy-5-methylsulfonyl piperazine acidamide analogue with a formula (I) compound and a preparation method and application thereof, wherein substitutions in the formula (I) compound are defined as in the description. This serial compound can inhibit the activity of glycine transport protein-1 (GlyT1), is useful in treating related diseases in central nerve and psychological fields, for example, schizophrenia (including positive symptoms, negative symptoms and cognitive symptoms), senile dementia, Parkinson's disease and other related psychological diseases, is widely applicable to the drugs for preventing and treating central nerve and psychological diseases, and is expected to be developed into new-generation GlyT1 inhibitors.
Small molecules enhance functional O-mannosylation of Alpha-dystroglycan
Lv, Fengping,Li, Zhi-Fang,Hu, Wenhao,Wu, Xiaohua
, p. 7661 - 7670 (2015/12/18)
Alpha-dystroglycan (α-DG), a highly glycosylated receptor for extracellular matrix proteins, plays a critical role in many biological processes. Hypoglycosylation of α-DG results in various types of muscular dystrophies and is also highly associated with progression of majority of cancers. Currently, there are no effective treatments for those devastating diseases. Enhancing functional O-mannosyl glycans (FOG) of α-DG on the cell surfaces is a potential approach to address this unmet challenge. Based on the hypothesis that the cells can up-regulate FOG of α-DG in response to certain chemical stimuli, we developed a cell-based high-throughput screening (HTS) platform for searching chemical enhancers of FOG of α-DG from a large chemical library with 364,168 compounds. Sequential validation of the hits from a primary screening campaign and chemical works led to identification of a cluster of compounds that positively modulate FOG of α-DG on various cell surfaces including patient-derived myoblasts. These compounds enhance FOG of α-DG by almost ten folds, which provide us powerful tools for O-mannosylation studies and potential starting points for the development of drug to treat dystroglycanopathy.
DERIVATIVES OF HETEROARYLSULFONAMIDES, THEIR PREPARATION AND THEIR APPLICATION IN HUMAN THERAPY
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Paragraph 0106; 0107, (2013/07/19)
The present invention concerns derivatives of heteroarylsulfonamides, notably as blockers of Kv potassium channels, and more particularly of channels Kv1.5, Kv4.3 or Kv11.1, their application in clinical therapy and their preparation methods. These compounds correspond to the following general formula (I): where R1 represents one or more substituents of the phenyl core X such as: hydrogen, halogen, trifluoromethyl, trifluoromethoxy, linear or branched C1-C4 alkyl, or linear or branched C1-C4 alkoxy, A represents oxygen or sulphur, B represents nitrogen when n=1 or 2 and D represents —C(═O)—, or B represents CH when n=0 and D represents —CH2O— or when n=1 and D represents —O—, R2 represents a hydrogen, a methyl, a fluorine or chlorine atom or a methoxy, HetAr represents a pyridyl or quinolyl group, possibly substituted by a group such as a linear or branched C1-C4 alkyl, a linear or branched C1-C4 alkoxy, a halogen, or a trifluoromethyl, and to their pharmaceutically acceptable salts.
DERIVATIVES OF HETEROARYLSULFONAMIDES, THEIR PREPARATION AND THEIR APPLICATION IN HUMAN THERAPY
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Page/Page column 21-22, (2012/06/15)
The present invention concerns derivatives of heteroarylsulfonamides, notably as blockers of Kv potassium channels, and more particularly of channels Kv1.5, Kv4.3 or Kv11.1, their application in clinical therapy and their preparation methods. These compounds correspond to the following general formula (I): where R1 represents one or more substituents of the phenyl core X such as: hydrogen, halogen, trifluoromethyl, trifluoromethoxy, linear or branched C1-C4 alkyl, or linear or branched C1-C4 alkoxy, A represents oxygen or sulphur, B represents nitrogen when n=1 or 2 and D represents ?C(=O)-, or B represents CH when n=0 and D represents ?CH2O? or when n=1 and D represents ?O?, R2 represents a hydrogen, a methyl, a fluorine or chlorine atom or a methoxy, HetAr represents a pyridyl or quinolyl group, possibly substituted by a group such as a linear or branched C1-C4 alkyl, a linear or branched C1-C4 alkoxy, a halogen, or a trifluoromethyl, and to their pharmaceutically acceptable salts.
TRIAZOLE DERIVATIVES HAVING ANTIFUNGAL ACTIVITY, METHOD FOR THE PREPARATION THEREOF, AND PHARMACEUTICAL COMPOSITION COMPRISING THE SAME
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Page/Page column 32, (2009/01/24)
A triazole derivative of formula 1 or a pharmaceutically acceptable salt, hydrate, solvate or isomer thereof is superior to the conventional antifungal drugs in antifungal activity against a wide spectrum of pathogenic fungi, and has advantageously low toxicity.
