Regiodivergent Synthesis of Penta-Substituted Pyrroles through a Cascade [3 + 2] Cyclization of C-Acylimines with Activated Alkynes and Aromatic Nucleophiles

Mechanochemical Functionalization of Heterocycles by C-H Activation: An Update

The mechanochemical C-H activation of heterocycles presents a sustainable, solvent-free alternative to the traditional solution-phase synthesis. Heterocycles are fundamental molecular scaffolds in medicinal chemistry and drug discovery. This review highlights recent advances in mechanochemical methods for metal-catalyzed and metal-free C-H functionalization/derivatization, including arylation, alkenylation, acylation, borylation, trifluoromethylation, etc., applied across various heterocyclic compounds. Emphasizing green aspects, this synopsis provides a comprehensive overview of mechanochemical innovations, their unique features and advantages, transformative potential for ecofriendly synthesis, and future prospects of sustainability.

HFIP-Promoted Friedel-Crafts Allenylation of Imidazopyridines with Propargyl Alcohols at Room Temperature

Herein, we report an efficient synthetic protocol for the Friedel-Crafts reaction of imidazo[1,2-a]pyridines with propargyl alcohols in HFIP. Notably, this FC allenylation works without any additional solvent or catalyst and requires neither inert conditions nor heating. In this method, HFIP, besides offering hydrogen bonding with propargyl alcohol, also stabilizes the resultant carbocation, thus forming the product. This method also enables the straightforward synthesis of 1,3-enynes. The current method offers a large substrate diversity with good to excellent yields. We also demonstrated gram-scale synthesis and synthetic modifications.

Mechanochemical Thiolation of α-Imino Ketones: A Catalyst-Free, One-Pot, Three-Component Reaction

Herein, we report an efficient mechanochemical synthesis of α,α-amino thioketones involving a one-pot, three-component milling of 2-oxo aldehydes, amines, and thiols. Unlike previous methods, this protocol does not require any catalyst or oxidizing additive. The reaction proceeds through the thiolation of in situ formed α-imino ketones by liquid-assisted grinding. We have successfully extended this protocol to synthesizing benzothiazoles, thiazoles, and quinoxalines, demonstrating its efficiency and potential in the field. Importantly, we have shown the gram-scale synthesis, synthetic applications, and substrate scope of this protocol, instilling confidence in its practicality.

Diastereoselective Double Annulation of Allenoates with Povarov Adducts: Modular Synthesis of Multisubstituted Pyrroloquinolines

Herein, we report an atom-economical, one-pot, four-component, diastereoselective double-annulation reaction to construct polyfused pyrroloquinolines. This reaction highlights the cyclization of in situ-formed Povarov adducts with allenoates for the first time.

Easy one-pot synthesis of multifunctionalized indole-pyrrole hybrids as a new class of antileishmanial agents

A chemoselective one-pot synthesis of pharmaceutically prospective indole-pyrrole hybrids by the formal [3 + 2] cycloaddition of 3-cyanoacetyl indoles (CAIs) with 1,2-diaza-1,3-dienes (DDs) has been developed. The new indole-pyrrole hybrids were phenotypically screened for efficacy against Leishmania infantum promastigotes. The most active compounds 3c, 3d, and 3j showed IC50 < 20 μM and moderate cytotoxicity, lower than miltefosine. Compound 3d was the most active with IC50 = 9.6 μM and a selectivity index of 5. Consequently, 3d could be a new lead compound for the generation of a new class of antileishmanial hybrids.

Cu(OTf)2/HFIP catalyzed regioselective cycloisomerization of indole-C3-functionalized alkynols to carbazoles

We report here a simple and atom economic cycloisomerization reaction of indole-tethered alkynols for constructing diverse carbazoles using Cu(OTf)2/HFIP as the excellent promoter system. The reaction proceeds through a one-pot, domino process of spiro cyclization and 1,2-migration followed by aromatization to deliver carbazoles.

Calcium-Catalyzed Synthesis of Fused Furo[2,3-b]furans and Substituted Furans from 2-Oxo Aldehydes and Cyclic Enols

We report here an atom-economical, syn-diastereoselective synthesis of naphtho-fused furo[2,3-b]furans along with naphthofurans at room temperature using readily available 2-naphthols and 2-oxo aldehydes using an alkaline earth catalyst [Ca(OTf)2]. 2-Oxo aldehydes having both aryl and alkyl substitutions reacted well. A good number of arenols responded to give fused furans, but selected arenols gave only furofurans. Synthetic applications and gram-scale synthesis were also demonstrated to strengthen this strategy.

Substituent-Controllable Cascade Regioselective Annulation of β-Enaminones with N-Sulfonyl Triazoles for Modular Access to Imidazoles and Pyrroles

A controllable synthesis of trisubstituted imidazoles and pyrroles has been developed through rhodium(II)-catalyzed regioselective annulation of N-sulfonyl-1,2,3-trizaoles with β-enaminones. The imidazole ring was formed through a 1,1-insertion of the N-H bond to α-imino rhodium carbene, followed by a subsequent intramolecular 1,4-conjugate addition. This occurred when the α-carbon atom of the amino group was bearing a methyl group. Additionally, the pyrrole ring was constructed by utilizing a phenyl substituent and undergoing intramolecular nucleophilic addition. The mild conditions, good tolerance towards functional groups, gram-scale synthesis capability, and ability to undergo valuable transformations of the products qualify this unique protocol as an efficient tool for the synthesis of N-heterocycles.

Arylation and Aryne Insertion into C-Acylimines: A Simple, Flexible, and Divergent Synthesis of C2-Aryl Indoles

We reveal a direct strategy for the flexible synthesis of C2-aryl/heteroaryl indoles without transition metal catalysts. The synthesis involves a one-pot, four-component reaction of readily available starting materials to offer diversity around the indole moiety with a broad substrate scope and high yields. The reaction proceeds via the Friedel-Crafts C-arylation of C-acylimine formed in situ, followed by N-arylation with aryne, a formal [3+2] cycloaddition, and a subsequent aromatization cascade.

Recent advances in cascade reactions and their mechanistic insights: a concise strategy to synthesize complex natural products and organic scaffolds

The beauty of cascade reactions to bestow us with cumbersome organic scaffolds has made them a cutting-edge area of research. Although the planning of cascades may require intuition, their results can be highly impactful. The development of cascades to provide specific targeted molecules of an appropriate structural and stereochemical framework poses a significant challenge but can serve as one of the most impressive tools in organic synthesis. This review shares a broad interest in compiling cascade transformations towards the construction of polycyclic frameworks, induction of chirality/asymmetry in the protocol, etc. to solve diverse challenges in organic synthesis pursuits, as cascades enable the rapid and efficient construction of complex architectures from simple molecules. The studies highlighted herein manifest the utilization of a range of cascade reactions under various classifications for generating natural product skeletons such as palau'amine, benzosimuline, arcutinine, and others from simple building blocks, with emphasis on breakthroughs and potential for asymmetric synthesis. The exquisite synthetic designs of recently completed total synthesis of natural products with a focus on strategic concerns are also highlighted in this review.

Acetylenic Esters in Organic Synthesis

Activated acetylenic substrates such as acetylenic esters and alkyl propiolates are very important in organic synthesis. Due to their electron deficiency, these compounds are widely used in combinatorial and multicomponent reactions, enabling the synthesis of a large variety of novel compounds. In addition, these substrates are powerful Michael acceptors and convenient dienophiles and dipolarophiles in Diels–Alder and 1,3-dipolar cycloaddition reactions. The addition of different nucleophiles, primarily phosphorus, nitrogen or sulfur, to the triple bonds of these substrates produces key intermediates, such as Tebby and Huisgen zwitterions, which can lead to designing pathways toward the generation of spirocyclic and polycyclic compounds. This account highlights recent studies on the chemistry of acetylenic esters and their applications in organic synthesis.

1 Introduction

2 Synthesis of Acyclic and Monocyclic Compounds

3 Synthesis of Spirocyclic Compounds

4 Synthesis of Polycyclic Compounds

5 Conclusion

Calcium-catalyzed formal [3 + 2] annulation of C,N-diacyliminium ions with nucleophilic phenols: a diversity oriented synthesis of 3-aminofurans

We have developed a one-pot, three-component, and solvent-free reaction for the synthesis of 3-aminofurans using a calcium catalyst. In this cascade reaction, the key intermediate, C,N-diacyliminium ion, is formed in situ from glyoxal and lactam, which further reacted with phenolic nucleophiles to form furan derivatives in good yields with broad substrate diversity. We also present here the preliminary photophysical studies of selected compounds.

Copper-catalyzed carbene insertion and ester migration for the synthesis of polysubstituted pyrroles

A mild synthetic protocol to access 2-ester pyrroles through Cu(OTf)₂-catalysed carbene insertion/ester migration/cyclization of enaminones and α-diazo compounds is reported.

Recent advances in alkaline earth metal-enabled syntheses of heterocyclic compounds

This review summarizes recent progress in alkaline earth metal enabled syntheses of heterocyclic compounds.