440115-82-2

Upstream product

• 60221-52-5 (E)-4-hydroxybenzaldehyde oxime 
• 207297-08-3 N-hydroxy-4-hydroxy-benzenecarboximidoyl chloride 
• 699-06-9 4-hydroxybenzaldehyde oxime 
• 123-08-0 4-hydroxy-benzaldehyde 

Downstream Products

• 1443017-57-9 C₂₂H₂₁NO₅ 
• 1186630-10-3 (4-hydroxyphenyl)-spiro-isoxazolinyl parthenin 
• 848478-63-7 3-chloro-1-(4-hydroxyphenyl)octan-1-one 
• 848478-61-5 3-hydroxy-1-(4-hydroxyphenyl)-1-octanone 
• 646035-31-6 3-(4-hydroxyphenyl)-5-pentyl-4,5-dihydroisoxazole 

Relevant academic research and scientific papers

One-pot synthesis of novel ether-linked diisoxazole derivatives via sequential O-propargylation and 1,3-dipolar cycloaddition from 2-bromohomoallylic alcohols

A simple and efficient, one-pot approach for the synthesis of ether-linked diisoxazole derivatives has been developed through sequential reactions, which includes O-propargylation of 2-bromohomoallylic alcohols with propargyl bromide in the presence of so

Synthesis of substituted benzyl ethers of 1-(4-hydroxyphenyl)oct-2-en-1-one

A preparation of substituted benzyl ethers of 1-(4-hydroxyphenyl)oct-2-en- 1-one from 3-(4-hydroxy-phenyl)-5-pentyl - 2-isoxazoline was developed for the first time. These ethers can be used as promising additives and useful intermediates for synthesis of

Synthesis, antimalarial activity, and target binding of dibenzazepine-tethered isoxazolines

Malaria, a complex and deadly parasitic infectious disease, is a huge public health problem in many endemic countries around the globe. The prevailing extensive resistance of malaria parasites to traditional drugs and emergence of resistance to the currently used frontline artemisinin-based chemotherapy calls for the development of new drugs. Towards this objective and since compounds containing the dibenzazepine moiety are effective in treating both gametocyte and asexual stage malaria parasites, including multi drug resistant parasites, a library of dibenzazepine tethered 3,5-disubstituted isoxazolines was synthesised via 1,3-dipolar cycloaddition reaction. An additional diversified group of dibenzazepine derivatives were accessed by Suzuki coupling of one of the above dibenzazepine derivatives with various organoboronic acids. All compounds were structurally characterized and were evaluated for their antimalarial activity. They exhibited good to excellent inhibitory activity against the growth of drug-sensitive Plasmodium falciparum 3D7 strain with IC50 values ranging from 0.2 to 7.7 μM. About 50% of the compounds were either minimally or not toxic to human cell lines. Five of the compounds (6j, 6k, 8c, 8k and 8l) that highly inhibited the parasite growth were further assessed for antimalarial activity using an additional chloroquine-sensitive (D6) and two chloroquine-resistant (W2 and 7G8) P. falciparum strains. These compounds were effective against all four strains (3D7, D6, W2 and 7G8), exhibiting IC50 values of 0.1 to 1.75 μM. The dibenzazepines were identified to target the metalloamino-peptidase of parasites. Molecular docking and dynamics simulation studies were performed to understand the binding mode and binding strengths of the selected compounds with the enzyme. In agreement with their excellent antimalarial activity, the data suggested that the compounds can strongly bind to the active site of the enzyme.

Discovery, synthesis, and biological evaluation of a novel group of selective inhibitors of filoviral entry

Herein, we report the development of an antifiloviral screening system, based on a pseudotyping strategy, and its application in the discovery of a novel group of small molecules that selectively inhibit the Ebola and Marburg glycoprotein (GP)-mediated infection of human cells. Using Ebola Zaire GP-pseudotyped HIV particles bearing a luciferase reporter gene and 293T cells, a library of 237 small molecules was screened for inhibition of GP-mediated viral entry. From this assay, lead compound 8a was identified as a selective inhibitor of filoviral entry with an IC50 of 30 μM. To analyze functional group requirements for efficacy, a structure-activity relationship analysis of this 3,5-disubstituted isoxazole was then conducted with 56 isoxazole and triazole derivatives prepared using "click" chemistry. This study revealed that while the isoxazole ring can be replaced by a triazole system, the 5-(diethylamino)acetamido substituent found in 8a is required for inhibition of viral-cell entry. Variation of the 3-aryl substituent provided a number of more potent antiviral agents with IC50 values ranging to 2.5 μM. Lead compound 8a and three of its derivatives were also found to block the Marburg glycoprotein (GP)-mediated infection of human cells.

Design and synthesis of spiro derivatives of parthenin as novel anti-cancer agents

Several novel spiro derivatives of parthenin (1) have been synthesized by the dipolar cycloaddition using various dipoles viz; benzonitrile oxides, nitrones and azides with exocyclic double bond of C ring (α-methylene- γ-butyrolactone). Majority of the compounds exhibited improved anti-cancer activity compared to the parthenin, when screened for their in vitro cytotoxicity against three human cancer cell lines viz., SW-620, DU-145 and PC-3. In vivo screening of select analog revealed improved anti-cancer activity with low mammalian toxicity as compared to parthenin. The results of the cytotoxicity pattern of these derivatives reveals the SAR of these sesquiterpinoid lactones and possible role of α,β-unsaturated ketone of parthenin in inhibiting NF-kB. A mechanistic correlation of anti-cancer activity along with in vivo and western blotting experiments has been described.

Reaction of allenylmagnesium and allenylindium bromides with nitrile oxides: synthesis of novel 5-butynyl- and 5-methylisoxazoles

5-Butynylisoxazoles were obtained in high yields through a domino addition, C-O heterocyclization involving allenylmagnesium bromide and benzonitrile oxide in dry THF, in which the corresponding 5-methylisoxazoles were isolated in trace amounts. However, when the reactions were attempted in aqueous media using allenylindium bromide, 5-methylisoxazoles were formed as the sole products in high yields.