Pular para o conteúdo
Merck
HomeFluorinationSulfonyl Chlorides and Sulfonamides

Sulfonyl Chlorides and Sulfonamides

Sulfonyl chlorides are often chosen as building blocks in medicinal chemistry for their ability to easily react with heterocyclic amines to create complex sulfonamides. One such report details the use of cyclopropanesulfonyl chloride and cyclopentanesulfonyl chloride as building block in the synthesis of TNF-a converting enzyme (TACE) inhibitors (Scheme 1).1 The cyclopropyl variant exhibited good selectivity for TACE over MMP-2 and -13.

A series of chemical structures related to Sulfonyl Chlorides and Sulfonamides. On the left, there is a sulfonamide structure with the formula HOHNCC linked to a six-membered ring with a double bond. In the center, two Sulfonyl Chloride structures are shown within a box, each with an “R” group attached to them; one has an “R” linked to an oxygen (O), and the other has an “R” linked directly to the sulfur (S). The numbers 640573 and 656607 are associated with these structures. On the right side of the image, another sulfonamide structure is depicted with HOHNOC connected to a six-membered ring containing nitrogen (N) and sulfur dioxide (SO2) attached to an “R” group labeled as cyclopropyl or cyclopentyl.

Scheme 1. Product Number: 640573 & 656607

Another recent communication describes the synthesis of human glucocorticoid receptor (hGR) ligands.2 This sulfonamide created from a-methyltryptamine and 2,4,5-trichlorobenzenesulfonyl chloride (Scheme 2) exhibited micromolar hGR potency. The sulfonamide moiety was also demonstrated to be crucial for effective hGR binding in the study.

Two molecular structures relevant to Sulfonyl Chlorides and Sulfonamides. On the left, a sulfonamide is shown with an amine group (NH2) attached to a benzene ring which is further connected to a sulfonamide group (S=O2NH-). On the right, a sulfonyl chloride molecule is depicted with two chlorine atoms (Cl) attached to a sulfur atom (S), which is double-bonded to two oxygen atoms and connected to a benzene ring. Below the sulfonyl chloride structure, there’s a label “680125” and beneath it are the conditions “Et3N, CH2Cl2,” indicating the reagents and solvent used in reactions involving this compound.

Scheme 2. Product Number: 680125

(2-Trimethylsilyl)ethanesulfonamide (SES-NH2) has proven effective at directly introducing a protected nitrogen-functionality into a molecule. One example is in the work of Bolm and Mancheño, who reported the use of SES-NH2 in the iron-catalyzed imination of sulfoxides to yield sulfoximines (Scheme 3).3

A chemical reaction sequence depicting the conversion of a sulfonyl chloride to a sulfonamide. The image shows two molecular structures connected by a reaction arrow. On the left, a benzene ring with an attached sulfonyl chloride group (indicated by an S double-bonded to an O and bonded to another O with a Cl) and a CH3 group. On the right, after the reaction, the benzene ring is shown with an attached sulfonamide group (indicated by an S double-bonded to two Os and bonded to NH-SES) and a CH3 group. Above the arrow are reaction conditions: “5 mol % Fe(acac)3, SES-NH2, PhI=O, CH3CN, rt 18 h.

Scheme 3.

Lamaty and co-workers have prepared a series of SES-protected b-aminoesters by using SES-NH2 in an aza-Baylis-Hillman reaction. These b-aminoesters were then further elaborated to provide a series of 2,3-disubstituted pyrroles through a ring-closing metathesis protocol (Scheme 4).4

A chemical reaction scheme showing the synthesis of sulfonamides from sulfonyl chlorides. The reactants include a compound labeled as SES-NH2, where SES is a protecting group and NH2 represents an amine group, and another compound with an aromatic ring (denoted as R) attached to a sulfonyl chloride group (SO2Cl) and a methoxy group (OCH3). The reaction conditions are specified above the arrow: 0.5 eq DABCO, i-PrOH, 70°C. The product of the reaction is a sulfonamide, with the SES protecting group still present, connected to the aromatic ring via a sulfur atom double-bonded to two oxygen atoms (SO2) and single-bonded to the nitrogen of the amine. Below this main reaction scheme is an equilibrium arrow indicating that this reaction can proceed in both directions under certain conditions.

Scheme 4.

Related Materials
Loading

References

1.
Condon JS, Joseph-McCarthy D, Levin JI, Lombart H, Lovering FE, Sun L, Wang W, Xu W, Zhang Y. 2007. Identification of potent and selective TACE inhibitors via the S1 pocket. Bioorganic & Medicinal Chemistry Letters. 17(1):34-39. https://doi.org/10.1016/j.bmcl.2006.10.004
2.
Marshall DR, Rodriguez G, Thomson DS, Nelson R, Capolina A. 2007. ?-Methyltryptamine sulfonamide derivatives as novel glucocorticoid receptor ligands. Bioorganic & Medicinal Chemistry Letters. 17(2):315-319. https://doi.org/10.1016/j.bmcl.2006.10.058
3.
Mancheño OG, Bolm C. 2006. Iron-Catalyzed Imination of Sulfoxides and Sulfides. Org. Lett.. 8(11):2349-2352. https://doi.org/10.1021/ol060640s
4.
Declerck V, Ribière P, Martinez J, Lamaty F. 2004. Sequentialaza-Baylis?Hillman/Ring Closing Metathesis/Aromatization as a Novel Route for the Synthesis of Substituted Pyrroles. J. Org. Chem.. 69(24):8372-8381. https://doi.org/10.1021/jo048519r
Related Articles
Related Product Categories
Faça login para continuar

Para continuar lendo, faça login ou crie uma conta.

Ainda não tem uma conta?