Multicomponent reaction (MCR) for constructing bis-spirocyclohexane skeletons using ß-nitrostyrene derived MBH acetates, 1,3-indanedione and aldehydes via [1 + 1 + 1 + 3] annulation.

An AB2C type four-component quadruple cascade reaction has been established between nitroallylic MBH acetate, 1,3-indanedione and aldehyde for generating bis-spirocyclohexanes. This reaction progressed in an unusual [1 + 1 + 1 + 3] annulation manner via a Knoevenagel/Michael/Michael/Michael sequence, resulting in the generation of three/four chiral centres, and two all-carbon quaternary centres through the formation of 3 new C-C bonds.

Synthesis of tetrahydrochromenes and dihydronaphthofurans via a cascade process of [3 + 3] and [3 + 2] annulation reactions: mechanistic insight for 6-endo-trig and 5-exo-trig cyclisation.

Substituted tetrahydrochromenes and dihydronaphthofurans are easily accessible by the treatment of ß-tetralone with trans-ß-nitro styrene derived Morita-Baylis-Hillman (MBH) acetates through a formal [3 + 3]/[3 + 2] annulation. The reaction proceeds through a cascade Michael/oxa-Michael pathway with moderate to good yields. A DFT study was carried out to account for the formation of the corresponding six and five-membered heterocycles via 6-endo-trig and 5-exo-trig cyclization.

Synthesis of fully functionalised spiropyran pyrazolone skeletons via a formal [4 + 2] cascade process using ß-nitro-styrene-derived MBH-alcohols.

An efficient protocol was established to construct spiro pyrazolone tetrahydropyran scaffolds at ambient temperature under metal-free conditions. The reaction proceeded via formal [4 + 2] cyclisation of trans-ß-nitro-styrene-derived Morita-Baylis-Hillman (MBH) alcohol with α-arylidene pyrazolone. The reaction followed an oxa-Michael/Michael cascade pathway, resulting in the formation of new C-C and C-O bonds. Organocatalytic synthesis of spiropyrazolones using quinine-derived catalyst resulted in 94% enantiomeric excess (ee) and excellent (>20 : 1) diastereoselectivity.

A triple cascade approach towards the diastereoselective synthesis of spiro trans-decalinol scaffolds.

A [2+2+2] annulation reaction between cyclohexanone, ß-nitrostyrene and 2-arylidene-1,3-indanedione afforded multisubstituted spiro trans-decalinol derivatives in high chemical yields (up to 75%) and excellent diastereoselectivity (up to >20 : 1) at room temperature. This one-pot three-component system follows a triple cascade sequence via the Michael/nitro-Michael/Aldol process, resulting in the formation of three C-C bonds, five contiguous stereocenters as well as a spiro quaternary carbon center.

Synthesis of trans N-Substituted Pyrrolidine Derivatives Bearing 1,2,4- triazole Ring.

BACKGROUND: 1,2,4-triazoles scaffolds display significant biological activities due to hydrogen bonding, solubility, dipole character, and rigidity. OBJECTIVE: The core motif of 1,2,4-triazoles plays a vital role in clinical drugs such as Rizatriptan (antimigraine), Ribavirin (antiviral), anastrozole (anticancer), etizolam (anxiolytic), estazolam (anticonvulsant), alprazolam (anti-hypnotic), letrozole (aromatase inhibitor), loreclezole (anticonvulsant), trazadone (antidepressant) etc. Methods: Epoxide ring opening of tert-butyl 6-oxa-3-azabicyclo [3.1.0] hexane-3-carboxylate followed by methylation under basic conditions and de-protection gave the corresponding trans 1-(4- methoxypyrrolidin-3-yl)-1H-1,2,4-triazole hydrochloride salt as the precursor. This precursor on reaction with substituted benzoyl chlorides and benzyl bromides gave the desired amide and amine products. RESULTS: A library of 14 N-substituted pyrrolidine derivatives i.e. trans3-methoxy-4-(1H-1,2,4-triazol- 1-yl) pyrrolidin-1-yl) (phenyl)methanone and trans 1-benzyl-4-methoxypyrrolidin-3-yl)-1H-1,2,4- triazole were prepared. CONCLUSION: Eight novel amides (6a-h) and six amines (8a-f) derivatives were synthesized using 1-(4- methoxypyrrolidin-3-yl)-1H-1,2,4-triazole 4 salt with substituted benzoyl chlorides and benzyl bromides.

Neuroprotective derivatives of tacrine that target NMDA receptor and acetyl cholinesterase - Design, synthesis and biological evaluation.

The complex and multifactorial nature of neuropsychiatric diseases demands multi-target drugs that can intervene with various sub-pathologies underlying disease progression. Targeting the impairments in cholinergic and glutamatergic neurotransmissions with small molecules has been suggested as one of the potential disease-modifying approaches for Alzheimer's disease (AD). Tacrine, a potent inhibitor of acetylcholinesterase (AChE) is the first FDA approved drug for the treatment of AD. Tacrine is also a low affinity antagonist of N-methyl-D-aspartate receptor (NMDAR). However, tacrine was withdrawn from its clinical use later due to its hepatotoxicity. With an aim to develop novel high affinity multi-target directed ligands (MTDLs) against AChE and NMDAR, with reduced hepatotoxicity, we performed in silico structure-based modifications on tacrine, chemical synthesis of the derivatives and in vitro validation of their activities. Nineteen such derivatives showed inhibition with IC50 values in the range of 18.53 ± 2.09 - 184.09 ± 19.23 nM against AChE and 0.27 ± 0.05 - 38.84 ± 9.64 µM against NMDAR. Some of the selected compounds also protected rat primary cortical neurons from glutamate induced excitotoxicity. Two of the tacrine derived MTDLs, 201 and 208 exhibited in vivo efficacy in rats by protecting against behavioral impairment induced by administration of the excitotoxic agent, monosodium glutamate. Additionally, several of these synthesized compounds also exhibited promising inhibitory activitiy against butyrylcholinesterase. MTDL-201 was also devoid of hepatotoxicity in vivo. Given the therapeutic potential of MTDLs in disease-modifying therapy, our studies revealed several promising MTDLs among which 201 appears to be a potential candidate for immediate preclinical evaluations.

[3+2] regioselective annulation reaction of 2-arylidene-1,3-indandiones towards synthesis of spirocyclopentenes: understanding the mechanism of γ-attack vs. α-attack using DFT studies.

A regioselective [3+2] cyclisation reaction between 2-arylidene-1,3-indanedione and ethyl 2,3-butadienoate catalysed by triphenylphosphine has been demonstrated to synthesize functionalised spirocyclic cyclopentenes. The reaction tolerated various electron-rich and electron-deficient aryl substituted 2-arylidene-1,3-indanediones with high to excellent chemical yields (up to 99%) and moderate to good regioselectivity (up to 5 : 1). DFT studies have also been carried out to understand the regioselective nature of this reaction. The results of Frontier molecular orbital calculations and the activation energy (E a) favour the formation of compound 3avia γ-attack compared to that of 4avia α-attack.

Drug Re-purposing Approach and Potential Therapeutic Strategies to Treat COVID-19.

The current pandemic of COVID-19 caused by SARS-Cov-2 has posed a severe threat to the whole world with its highly infectious, progressive nature with up to 10% mortality rates. The severity of the situation faced by the whole world and the lack of efficient therapeutics to treat this viral disease have led the WHO to depend on the drug-repurposing approach to tackle this major global health problem. This review aims at highlighting the various synthetic approaches employed for the synthesis of these FDA approved drugs that have been presently used for COVID-19 treatment. Additionally, a brief overview of several therapeutic strategies is also presented. This review will encourage the scientific community across the globe to come up with better and efficient synthetic protocols and also novel chemical entities along with this core with more potent activity.

Novel tacrine derivatives exhibiting improved acetylcholinesterase inhibition: Design, synthesis and biological evaluation.

A novel series of twenty four tacrine derivatives were designed and synthesised. Among these, thirteen were taken for the acetylcholinesterase (AChE) inhibition studies. Three compounds such as 4c, 6c and 6f were found to possess significant AChE inhibitory properties with IC50 values 12.97 ± 0.47 nM, 5.17 ± 0.24 nM and 7.14 ± 0.78 nM respectively. In silico docking studies revealed that these compounds can bind strongly in the active site of the enzyme and prevent enzyme-substrate interactions. On binding, the substituted groups were oriented either towards the peripheral anionic site (PAS) (Pocket A) or towards a hydrophobic cavity (pocket B) located near the active site. The cytotoxicity and hepatotoxicity of the compounds were tested using HEK-293 and HepG2 cell lines respectively. The compound 4c did not show any significant decrease in the cell viability even at a concentration of 300 µM indicating that its cytotoxicity and hepatotoxicity are significantly lesser compared to tacrine, due to the chemical modification. Based on the available results, it can be suggested that the compound 4c might be a potential drug lead compound with AChE inhibitory activity. However, further pharmacokinetic studies are necessary to comment on the efficacy of the compound as a drug for AD.

Morita-Baylis-Hillman (MBH) Reaction Derived Nitroallylic Alcohols, Acetates and Amines as Synthons in Organocatalysis and Heterocycle Synthesis.

The Morita-Baylis-Hillman (MBH) reaction is one of the most useful and efficient protocols for constructing new carbon-carbon bonds between an activated olefin and electrophiles in the presence of a tertiary amine/phosphine. Herein, we present the use of MBH alcohols, which are obtained from the reaction of nitrostyrenes with aldehydes, as well as acetates and amines derived thereof in several organocatalytic transformations. Densely functionalised MBH adducts can also be used to synthesise substituted heteroaromatic compounds, such as furan, pyrrole, pyrazole and imidazole derivatives.

Organocatalytic synthesis of substituted spirocyclohexane carbaldehydes via [4 + 2] annulation strategy between 2-arylideneindane-1,3-diones and glutaraldehyde.

An organocatalytic domino reaction between 2-arylideneindane-1,3-diones and glutaraldehyde has been devised that gives functionalized spirocyclohexane carbaldehydes with an all-carbon quaternary center. The reaction proceeds through a Michael/Aldol sequence in good-to-high chemical yields and with high levels of stereoselectivity (up to >95:5 dr and 99% ee) in the presence of the α,α-L-diphenylprolinol trimethylsilyl ether 3 (20 mol %) and DIPEA (20 mol %) in ether at 0 °C.

Convenient methods for the synthesis of chiral amino alcohols and amines.

Simple, convenient methods have been developed using readily available, easy-to-handle reagents to access a variety of chiral amino alcohols and amines, which have considerable potential for applications in asymmetric organic transformations. Scholars from this laboratory in India have made significant contributions to this field, which is the subject of the current review.

An efficient Friedel-Crafts/oxa-Michael/aromatic annulation: rapid access to substituted naphtho[2,1-b]furan, naphtho[1,2-b]furan, and benzofuran derivatives.

Substituted naphthofurans and benzofurans are easily accessible by treatment of naphthols/substituted phenols with nitroallylic acetates through a substitution-elimination process promoted by cesium carbonate. Reactions between naphthols and aromatic/heteroaromatic-substituted nitroallylic acetates gave the desired functionalized naphthofurans in high to excellent chemical yields (14-97%). On the other hand, treatment of phenol derivatives (i.e., 3-dimethylamino-, 3-methoxy-, and 3,5-dimethoxyphenol) with various nitroallylic acetates afforded the corresponding benzofurans in moderate to good chemical yields (24-91%). The reaction proceeded through an interesting Friedel-Crafts S(N)2' process followed by intramolecular oxa-Michael cyclization and subsequent aromatization. A plot of log (k/kH) against Hammett constants σ(p) showed satisfactory linearity with a positive ρ value, indicating that the initial Friedel-Crafts-type S(N)2' process constituted the rate-determining step. This methodology has been applied to the synthesis of various novel C2 and C3 symmetric bis- and trisfurans by using catechol and phloroglucinol as the nucleophilic partners. The reactivity decreased when alkyl-substituted nitroallylic acetate systems were used. This might be related to the decreased electrophilic character of these substrates.

Organocatalytic synthesis of multiple substituted bicyclo[4.4.0]decalin system.

An efficient and unprecedented organocatalytic reaction of γ-nitroketones with α,ß-unsaturated aldehydes to give polyfunctionalized [4.4.0] bicyclic skeletons was developed. The diphenylprolinol silyl ether mediated nitro-Michael/Aldol reaction afforded the hexa-substituted decalin carboaldehydes with excellent diastereo- and enantioselectivity (up to >99:1 dr and >99% ee) via a formal [4 + 2] carbocyclization process.