The Kröhnke pyridine synthesis is reaction in organic synthesis between α-pyridinium methyl ketone salts and α, β-unsaturated carbonyl compounds used to generate highly functionalized

pyridine Pyridine is a basic heterocyclic organic compound with the chemical formula . It is structurally related to benzene, with one methine group replaced by a nitrogen atom. It is a highly flammable, weakly alkaline, water-miscible liquid with a ...

s. Pyridines occur widely in natural and synthetic products, so there is wide interest in routes for their synthesis. The method is named after Fritz Kröhnke.

Reaction development

Discovery

In his work at the

University of Giessen University of Giessen, official name Justus Liebig University Giessen (german: Justus-Liebig-Universität Gießen), is a large public research university in Giessen, Hesse, Germany. It is named after its most famous faculty member, Justus von ...

, Kröhnke observed condensation of α-pyridinium methyl ketone salts 1 with α,β-unsaturated carbonyl compounds 2 via a

Michael reaction In organic chemistry, the Michael reaction or Michael addition is a reaction between a Michael donor (an enolate or other nucleophile) and a Michael acceptor (usually an α,β-unsaturated carbonyl) to produce a Michael adduct by creating a carbon ...

when treated with

ammonium acetate Ammonium acetate, also known as spirit of Mindererus in aqueous solution, is a chemical compound with the formula NH4CH3CO2. It is a white, hygroscopic solid and can be derived from the reaction of ammonia and acetic acid. It is available commerci ...

to give 2,4,6-trisubstituted

s in high yields under mild reaction conditions. The proposed intermediates, 1, 5-dicarbonyl compound 3, have not been isolated. Since its discovery, the Kröhnke synthesis has enjoyed broad applicability to the preparation of di-,tri- and tetrapyridine derivatives, demonstrating a number of advantages over related reactions such as the Hantzsch pyridine synthesis. Kroehnke Pyridine Figure 1

Mechanism

The mechanism of the Kröhnke pyridine synthesis begins with enolization of α-pyridinium methyl ketone 4 followed by 1,4-addition to the α, β-unsaturated ketone 5 to form the Michael adduct 6, which immediately tautomerizes to the 1,5-dicarbonyl 7. Addition of ammonia to 7 followed by dehydration via 8 generates the

imine In organic chemistry, an imine ( or ) is a functional group or organic compound containing a carbon–nitrogen double bond (). The nitrogen atom can be attached to a hydrogen or an organic group (R). The carbon atom has two additional single bon ...

intermediate 9., The imine intermediate is then deprotonated to

enamine An enamine is an unsaturated compound derived by the condensation of an aldehyde or ketone with a secondary amine. Enamines are versatile intermediates. : The word "enamine" is derived from the affix ''en''-, used as the suffix of alkene, and t ...

10 and cyclizes with the carbonyl to generate intermediate 11. The

pyridinium Pyridinium refers to the cation . It is the conjugate acid of pyridine. Many related cations are known involving substituted pyridines, e.g. picolines, lutidines, collidines. They are prepared by treating pyridine with acids. As pyridine is ...

cation is then eliminated to form hydroxy-dienamine 12. Aromatization of 12 via subsequent loss of water generates the desired pyridine

heterocycle A heterocyclic compound or ring structure is a cyclic compound that has atoms of at least two different elements as members of its ring(s). Heterocyclic chemistry is the branch of organic chemistry dealing with the synthesis, properties, and ...

13.

Reagent synthesis and reaction conditions

The starting materials for the Kröhnke synthesis are often trivial to prepare, lending to the convenience and broad scope of the method. Preparation of the α-pyridinium methyl ketone salts can be easily achieved by treatment of the corresponding bromomethyl ketone with pyridine. The α,β-unsaturated ketones are often available commercially or can be prepared using a number of known methods. Additionally, Mannich bases can also be utilized as the

Michael acceptor In organic chemistry, the Michael reaction or Michael addition is a reaction between a Michael donor (an enolate or other nucleophile) and a Michael acceptor (usually an α,β-unsaturated carbonyl) to produce a Michael adduct by creating a carbo ...

for the scheme, further diversifying the scope of starting materials that can be incorporated into the Kröhnke scheme. The reaction conditions for the Kröhnke synthesis are generally facile and the reactions often proceed in high yields with reaction temperatures generally not exceeding 140 °C. The Kröhnke synthesis is generally performed in either

glacial acetic acid Acetic acid , systematically named ethanoic acid , is an acidic, colourless liquid and organic compound with the chemical formula (also written as , , or ). Vinegar is at least 4% acetic acid by volume, making acetic acid the main component ...

or methanol, but it can also be done under aqueous conditions, and more recently under solvent-free conditions. 1,3-dicarbonyl compounds have also been shown to be viable starting materials in place of the α-pyridinium methyl ketone salts. For example, treatment of 1,3-diketone 14 with base in ethanol followed by ammonium acetate, acetic acid, the corresponding enone and a Lewis acid yields 3-acyltriarylpyridines of the form 15. These acyl pyridine are attractive intermediates because they have an electrophilic handle that allows for additional functionality to be incorporated into the molecule. This allows for straightforward construction of complex polyaryl systems, an attractive method for library synthesis of drug targets containing functionalized pyridine moieties. Kroehnke Pyridine Figure 3

Advantages over other methods

The Kröhnke synthesis for making pyridines possesses a number of succinct advantages over other methods. Unlike the Hantzsch synthesis, the Kröhnke method does not require

oxidation Redox (reduction–oxidation, , ) is a type of chemical reaction in which the oxidation states of substrate change. Oxidation is the loss of electrons or an increase in the oxidation state, while reduction is the gain of electrons or a ...

to generate the desired product since the α-pyridinium methyl ketone already possesses the correct oxidation state. Another advantage of the Kröhnke synthesis is its high

atom economy Atom economy (atom efficiency/percentage) is the conversion efficiency of a chemical process in terms of all atoms involved and the desired products produced. The simplest definition was introduced by Barry Trost in 1991 and is equal to the ratio ...

. For example, the Chichibabin synthesis requires 2 equivalents of unsaturated starting material. Additionally, the byproducts of the Kröhnke synthesis is water and pyridine, which allow for easy workup and purification protocols. Unlike comparable methods for pyridine synthesis, the Kröhkne synthesis benefits from being a high-yielding one pot synthesis, which ultimately allows for abbreviation of synthetic pathways and further simplifies combinatorial library cataloging.

Scope and limitations

The broad scope of the Kröhnke pyridine synthesis has made it particularly useful for the synthesis of poly aryl systems including pyridyl, thienyl, and furanyl moieties as well. The method tolerates a broad array of aryl substitiuents on both the α-pyridinium methyl ketone fragment and the α, β-unsaturated carbonyl compounds and can thus be used to generate a wide catalog of poly-aryl systems. Additionally, electron-withdrawing groups and electron-donating groups on the incoming aryl substituents are both well tolerated. The Kröhnke synthesis can also employ alkyl and vinyl substituents giving moderated to good yields as well. Due to its broad scope, the Kröhnke method has seen wide applicability to for the synthesis of

bipyridine Bipyridines also known as bipyridyls, dipyridyls, and dipyridines, are a family of chemical compounds with the formula (C5H4N)2, consisting of two pyridyl (C5H4N) rings. Pyridine is an aromatic nitrogen-containing heterocycle. Bipyridines are of si ...

s (16),

terpyridine Terpyridine (2,2';6',2"-terpyridine, often abbreviated to Terpy or Tpy) is a heterocyclic compound derived from pyridine. It is a white solid that is soluble in most organic solvents. The compound is mainly used as a ligand in coordination chemist ...

s (17), quaterpyridines (18) and even up to septipyridines (19) as shown below. Kroehnke Pyridine Figure 4

Variations and combinatorial studies

The Kröhnke method is featured in a solvent-free synthesis of triarylpyridines that proceeds via a homo-coupling of two diaryl substituted α, β-unsaturated carbonyl compounds. This strategy offers a facile means for preparation of pyridnyl aryl systems that are important fragments of many useful drug scaffolds. Kroehnke Pyridine Figure 7

In 1992, Robinson and co-workers developed a similar pyridine synthesis using enamino nitriles as one of the three-carbon fragments in place of an α-pyridinium methyl ketone. This improvement increases the reactivity of the system and allows for formation of fully substituted pyridines whereas use of an α-pyridinium methyl ketone requires that the 3- or 5- position on the resulting pyridine be unsubstituted. Kröhnke condensation of enamino nitrile 20 with enone 21 yielded fused pyridine 22. Kroehnke Pyridine Figure 5

The mechanism of this Kröhnke-type reaction likely proceeds via a vinylogous

cyanamide Cyanamide is an organic compound with the formula C N2 H2. This white solid is widely used in agriculture and the production of pharmaceuticals and other organic compounds. It is also used as an alcohol-deterrent drug. The molecule features a ...

23 which undergoes elimination of

hydrocyanic acid Hydrogen cyanide, sometimes called prussic acid, is a chemical compound with the formula HCN and structure . It is a colorless, extremely poisonous, and flammable liquid that boils slightly above room temperature, at . HCN is produced on an in ...

, deprotonation to form enamine 24 and

cyclization A cyclic compound (or ring compound) is a term for a compound in the field of chemistry in which one or more series of atoms in the compound is connected to form a ring. Rings may vary in size from three to many atoms, and include examples where ...

to form intermediate 25, which is then dehydrated to form the desired pyridine product. Kroehnke Pyridine Figure 6

A clean one-pot Kröhnke method in aqueous media generates 4’-aryl-2,2’:6’, 2’’-terpyridines. Reaction of aryl

aldehyde In organic chemistry, an aldehyde () is an organic compound containing a functional group with the structure . The functional group itself (without the "R" side chain) can be referred to as an aldehyde but can also be classified as a formyl grou ...

26 with two equivalents of 2-acetylpyridine (27) yielded terpyridines of the form 28. Kroehnke Pyridine Figure 8

In addition to variations on the original method, a number of combinatorial studies using the Kröhnke synthesis and its variations have been employed to synthesize vast libraries of highly functionalized pyridines. Janda and co-workers utilized the general Kröhnke reaction scheme to generate a 220 compound library. Various methyl ketones 29 and aldehydes 30 were coupled via

aldol condensation An aldol condensation is a condensation reaction in organic chemistry in which two carbonyl moieties (of aldehydes or ketones) react to form a β-hydroxyaldehyde or β-hydroxyketone (an aldol reaction), and this is then followed by dehydration to ...

to give enones of the form 31. These compounds were then reacted with various α-pyridinium methyl ketones 32 to give the desired tri-substituted pyridine 33. Kroehnke Pyridine Figure 9

In 2009, Tu and coworkers developed a 3 fragment, one-pot combinatorial strategy for developing 3-cyanoterpyridines 34and 1-amino-2-acylterpyridines 35. These combinatorial variations of the Kröhnke reaction provide an efficient synthetic strategy to poly arylpyridine scaffolds. This methodology would also be advantageous for

biological assays An assay is an investigative (analytic) procedure in laboratory medicine, mining, pharmacology, environmental biology and molecular biology for qualitatively assessing or quantitatively measuring the presence, amount, or functional activity of a ...

and screening experiments. Kroehnke Pyridine Figure 10

Synthetic applications to ligands and biologically active molecules

The Kröhnke methodology has also been utilized to generate a number of interesting metal-binding ligands since polypyridyl complexes such as

(bipy) have been used extensively as ligands. The Kröhnke synthesis was used to prepare a family of tetrahydroquinoline-based N, S-type ligands. 2-thiophenylacetophenone (36) was reacted with iodine gas and pyridine in quantitative yield to generate acylmethylpyridinium iodide 37. Reaction with a chiral cyclic α, β-unsaturated ketone derived from 2-(+)-carene yielded the desired N, S-type ligand 38. Kroehnke Pyridine Figure 11

Novel, chiral P, N-ligands have been prepared using the Kröhnke method. α-pyridinium acyl ketone salt 39 was cyclized with pinocarvone derivative 40 to generate pyridine 41. The benzylic position of 41 was methylated and subsequent SnAr reaction with potassium diphenylphosphide to generate ligand 42. Kroehnke Pyridine Figure 12

The Kröhnke reaction has also enjoyed applicability to the synthesis of a number of biologically active compounds in addition to ones cataloged in combinatorial studies. Kelly and co-workers developed a route to cyclo-2,2′:4′,4′′:2′′,2′′′:4′′′,4′′′′:2′′′′,2′′′′′:4′′′′′,4-sexipyridine utilizing the Kröhnke reactions as the key

macrocyclization Macrocycles are often described as molecules and ions containing a ring of twelve or more atoms. Classical examples include the crown ethers, calixarenes, porphyrins, and cyclodextrins. Macrocycles describe a large, mature area of chemistry. ...

step. Polypyridine complex 43 was treated with

N-Bromosuccinimide ''N''-Bromosuccinimide or NBS is a chemical reagent used in radical substitution, electrophilic addition, and electrophilic substitution reactions in organic chemistry. NBS can be a convenient source of Br•, the bromine radical. Preparatio ...

in wet

tetrahydrofuran Tetrahydrofuran (THF), or oxolane, is an organic compound with the formula (CH2)4O. The compound is classified as heterocyclic compound, specifically a cyclic ether. It is a colorless, water- miscible organic liquid with low viscosity. It is ...

followed by pyridine to generate the acylmethylpyridinium salt 44 which can then undergo the macrocyclization under standard conditions to yield the desired product 45. The Kröhnke method in this synthesis was crucial due to the failure of other cyclization techniques such as the

Glaser coupling The Glaser coupling is a type of coupling reaction. It is by far the oldest acetylenic coupling and is based on cuprous salts like copper(I) chloride or copper(I) bromide and an additional oxidant like oxygen. The base in its original scope is amm ...

or Ullmann coupling. Kroehnke Pyridine Figure 13

Another use of the Kröhnke pyridine synthesis was the generation of a number of 2,4,6-trisubstituted pyridines that were investigated as potential topoisomerase 1 inhibitors.Lee, E.-S. Med. Chem. Lett. 2004, 14, 1333-1337 2-acetylthiophene (46) was treated with iodine and pyridine to generate α-pyridinium acyl ketone 47. Reaction with Michael acceptor 48 under standard conditions yielded functionalized pyridine 49 in 60% overall yield. Kroehnke Pyridine Figure 14

Ultimately, the Kröhnke pyridine synthesis offers a facile and straightforward approach to the synthesis of a wide breadth of functionalized pyridines and poly aryl systems. The Kröhnke methodology has been applied to a number of strategies towards interesting ligands and biologically relevant molecules. Additionally, the Kröhnke reaction and its variations offer a number of advantages than alternative methods to pyridine synthesis ranging from one-pot, organic solvent-free variations to high atom economy.

References

{{DEFAULTSORT:Krohnke pyridine synthesis Pyridine forming reactions Heterocycle forming reactions Name reactions Organic reactions