- Synthesis technology of C-Fos/AP-1 inhibitor
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The invention belongs to the technical field of pharmaceutical synthesis and especially relates to a synthesis technology of a C-Fos/AP-1 inhibitor. Starting from cheap raw materials 2,4-dimethoxybenzoic acid and 2-methoxyphenylpropionic acid, acid chloride is prepared by using thionyl chloride, and a Friedel-Crafts acylation reaction is carried out under the catalysis of aluminium trichloride soas to obtain a coupled product; then, pyridine hydrobromide and sodium chloride are used to react at 160 DEG C for 30 minutes to complete the demethylation for synthesis of lactonic ring by one step,and the product can be directly used in the next reaction without purification; the cyclopentyl group is introduced by nucleophilic substitution; the lactone ring is opened to form methyl ester; afterpurification, a benzoisoxazolyl group is introduced by nucleophilic substitution, and a protecting group is taken off to prepare the final product T5224. The route of the invention is short, and onlythe Friedel-Crafts acylation, lactone ring opening and introduction of the benzoisoxazolyl group require the step of purification. The cost of the raw materials is low, and the reaction time of the process route is short. The synthesis technology is suitable for industrial production.
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- Chromatography-free, Mitsunobu-triggered heterocyclizations of salicylhydroxamic acids to 3-hydroxybenzisoxazoles
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The Mitsunobu reaction has become one of the most powerful tools to alkylate acidic pronucleophiles. A significant caveat of Mitsunobu chemistry, however, is that the reaction mixture is often plagued with purification problems owing to the phosphine oxide and hydrazine dicarboxylate by-products. In addition to the development of more readily separable Mitsunobu reagents, the product's physicochemical properties may be exploited to facilitate purification. In this regard, we present a swift and efficient preparation of 3-hydroxybenzisoxazoles by the Mitsunobu-triggered heterocyclizations of salicylhydroxamic acids, which can be isolated by an acid–base work-up. As expected, a range of functional groups was compatible with the chemistry.
- Van Eker, Daniel,Chauhan, Jay,Murphy, William A.,Conlon, Ivie L.,Fletcher, Steven
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p. 5301 - 5303
(2016/11/16)
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- Liposomal bortezomib nanoparticles via boronic ester prodrug formulation for improved therapeutic efficacy in vivo
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In this study, we describe the development of liposomal bortezomib nanoparticles, which was accomplished by synthesizing bortezomib prodrugs with reversible boronic ester bonds and then incorporating the resulting prodrugs into the nanoparticles via surface conjugation. Initially, several prodrug candidates were screened based upon boronic ester stability using isobutylboronic acid as a model boronic acid compound. The two most stable candidates were then selected to create surface conjugated bortezomib prodrugs on the liposomes. Our strategy yielded stable liposomal bortezomib nanoparticles with a narrow size range of 100 nm and with high reproducibility. These liposomal bortezomib nanoparticles demonstrated significant proteasome inhibition and cytotoxicity against multiple myeloma cell lines in vitro and remarkable tumor growth inhibition with reduced systemic toxicity compared to free bortezomib in vivo. Taken together, this study demonstrates the incorporation of bortezomib into liposomal nanoparticles via reversible boronic ester bond formation to enhance the therapeutic index for improved patient outcome.
- Ashley, Jonathan D.,Stefanick, Jared F.,Schroeder, Valerie A.,Suckow, Mark A.,Kiziltepe, Tanyel,Bilgicer, Basar
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p. 5282 - 5292
(2014/07/08)
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- NANOPARTICLE DRUG DELIVERY SYSTEMS
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The invention provides pharmaceutical compositions and method of using the compositions, wherein the compositions comprise liposomes or micelles that contain one or more targeting peptides and/or anticancer drugs. In various embodiments, the components of the liposomes can include a) a phospholipid and optionally a lipid that is not a phospholipid; b) a pegylated lipid; c) a peptide-ethylene glycol (EG)-lipid conjugate wherein the peptide is a targeting ligand, and d) one or more drug-conjugated lipid, encapsulated drugs, or a combination thereof. The peptide- EG-lipid conjugate can be, for example, a compound of Formula (I) or Formula (II). The ethylene glycol (EG) segments of the peptide-EG-lipid conjugate can be, for example, EG6 to about EG36; and the EG segment can be conjugated to one or more lysine moieties.
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- Benzimidazolones: A new class of selective peroxisome proliferator- activated receptor γ (PPARγ) modulators
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A series of benzimidazolone carboxylic acids and oxazolidinediones were designed and synthesized in search of selective PPARγ modulators (SPPARγMs) as potential therapeutic agents for the treatment of type II diabetes mellitus (T2DM) with improved safety profiles relative to rosiglitazone and pioglitazone, the currently marketed PPARγ full agonist drugs. Structure-activity relationships of these potent and highly selective SPPARγMs were studied with a focus on their unique profiles as partial agonists or modulators. A variety of methods, such as X-ray crystallographic analysis, PPARγ transactivation coactivator profiling, gene expression profiling, and mutagenesis studies, were employed to reveal the differential interactions of these new analogues with PPARγ receptor in comparison to full agonists. In rodent models of T2DM, benzimidazolone analogues such as (5R)-5-(3-{[3-(5-methoxybenzisoxazol-3-yl)benzimidazol-1-yl]methyl}phenyl) -5-methylox-azolidinedione (51) demonstrated efficacy equivalent to that of rosiglitazone. Side effects, such as fluid retention and heart weight gain associated with PPARγ full agonists, were diminished with 51 in comparison to rosiglitazone based on studies in two independent animal models. (Figure presented)
- Liu, Weiguo,Lau, Fiona,Liu, Kun,Wood, Harold B.,Zhou, Gaochao,Chen, Yuli,Li, Ying,Akiyama, Taro E.,Castriota, Gino,Einstein, Monica,Wang, Chualin,McCann, Margaret E.,Doebber, Thomas W.,Wu, Margaret,Chang, Ching H.,McNamara, Lesley,McKeever, Brian,Mosley, Ralph T.,Berger, Joel P.,Meinke, Peter T.
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p. 8541 - 8554
(2012/02/04)
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- Synthesis and biological evaluation of D-amino acid oxidase inhibitors
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D-Amino acid oxidase (DAAO) catalyzes the oxidation of D-amino acids including D-serine, a full agonist at the glycine site of the NMDA receptor. A series of benzo[d]isoxazol-3-ol derivatives were synthesized and evaluated as DAAO inhibitors. Among them,
- Ferraris, Dana,Duvall, Bridget,Ko, Yao-Sen,Thomas, Ajit G.,Rojas, Camilo,Majer, Pavel,Hashimoto, Kenji,Tsukamoto, Takashi
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supporting information; experimental part
p. 3357 - 3359
(2009/04/07)
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- Benzo[d]isoxazol-3-ol DAAO inhibitors
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Methods for increasing D-Serine concentration and reducing concentration of the toxic products of D-Serine oxidation, for enhancing learning, memory and/or cognition, or for treating schizophrenia, Alzheimer's disease, ataxia, or neuropathic pain, or preventing loss in neuronal function characteristic of neurodegenerative diseases involve administering to a subject in need of treatment a therapeutic amount of a compound of formula I, or a pharmaceutically acceptable salt or solvate thereof: wherein Z1 is N or CR3; Z2 is N or CR4; Z3is O or S; A is hydrogen, alkyl or M+; M is aluminum, calcium, lithium, magnesium, potassium, sodium, zinc or a mixture thereof; R1, R2, R3 and R4 are independently selected from hydrogen, alkyl, hydroxy alkoxy, aryl, acyl, halo, cyano, haloalkyl, NHCOOR5 and SO2NH2; R5 is aryl, arylalkyl, heteroaryl or heteroarylalkyl; at least one of R1, R2, R3 and R4 is other than hydrogen; and at least one of Z1 and Z2 is other than N.
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Page/Page column 9
(2010/02/12)
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- NOVEL BENSOPHENONE DERIVATIVES OR SALTS THEREOF
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A benzophenone derivative represented by the following formula: whereinR1 represents, for example, an optionally substituted heterocyclic group, or a substituted phenyl group; Z represents, for example, an alkylene group; R2 represents, for example, a carboxyl group optionally protected with alkyl;R3 represents, for example, an optionally protected hydroxyl group; R4 represents, for example, an optionally substituted cycloalkyloxy group; and R5 represents, for example, a hydrogen atom, ???or a salt thereof has anti-arthritic activity, inhibits bone destruction caused by arthritis, and provides high safety and excellent pharmacokinetics and thus is useful as therapeutic agent for arthritis. These compounds have inhibitory effect on AP-1 activity and are useful as preventive or therapeutic agent for diseases in which excessive expression of AP-1 is involved.
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