Efficient Synthesis of New N-Benzyl- or N-(2-Furylmethyl)cinnamamides Promoted by the ‘Green’ Catalyst Boric Acid, and Their Spectral Analysis

 

 Buy Article Permissions and Reprints All articles of this category

Abstract

New N-benzyl- or N-(2-furylmethyl)cinnamamides were prepared in good to excellent yields by amidation reactions between cinnamic acid and benzylamines or (2-furylmethyl)amine in the presence of 5 mol% boric acid. All the cinnamamides were characterized by IR and ¹H and ¹³C NMR spectroscopy.

References

• 1 Chalis MS. Butler AR. In The Chemistry of the Amino Group   Patai S. Wiley; New York: 1968.  p.279 
• For the biological activity, see:
• 2a Kleemann A. Engel J. Pharmaceutical Substances   Thieme; New York: 1999. 
  Crossref
• 2b Balsamo A. Barili PL. Crotti P. Macchia B. Macchia F. Pecchia A. J. Med. Chem.  1975,  18:  842 
  CrossrefSearch in Google Scholar
• 2c Balsamo A. Barili PL. Crotti P. Macchia B. Macchia F. J. Med. Chem.  1977,  20:  48 
  CrossrefSearch in Google Scholar
• 2d Balsamo A. Crotti P. Lapucci A. Macchia B. Macchia F. J. Med. Chem.  1981,  24:  525 
  CrossrefSearch in Google Scholar
• For structural studies, see:
• 3a Kruk C. Speargaren K. Spectrochim. Acta, Part A  1971,  27:  77 
  CrossrefSearch in Google Scholar
• 3b Lewis FD. Elbert JE. Upthagrove AL. Hale PD. J. Am. Chem. Soc.  1988,  110:  5191 
  CrossrefSearch in Google Scholar
• 3c Lewis FD. Elbert JE. Upthagrove AL. Hale PD. J. Org. Chem.  1991,  56:  553 
  CrossrefSearch in Google Scholar
• For synthetic applications, see:
• 4a Klemm LH. McGuire TM. Gopinath KW. J. Org. Chem.  1976,  41:  2571 
  Thieme ConnectSearch in Google Scholar
• 4b Bernini R. Cachia S. De Salve I. Fabrizi G. Synlett  2006,  2947 
  Thieme Connect
• 4c Nair V. Mohanan K. Suja TD. Biju A. Synthesis  2007,  1179 
  Thieme Connect
• 5 Carey JS. Laffan D. Thomon C. Williams MK. Org. Biomol. Chem.  2006,  4:  2337 
  Search in Google Scholar
• 6 Smith MB. March J. March’s Advanced Organic Chemistry   5th ed.:  Wiley; New York: 2001.  p.506-508  
  Search in Google Scholar
• 7 Gelens E. Smeets L. Sliedregt L. Van Steen B. Kruse C. Leurs R. Orru RVA. Tetrahedron Lett.  2005,  46:  3751 
  CrossrefSearch in Google Scholar
• 8 Prasad AK. Husain M. Singh BK. Gupta RK. Manchanda VK. Olsen CE. Parmar SV. Tetrahedron Lett.  2005,  46:  4511 
  CrossrefSearch in Google Scholar
• 9 Sharghi H. Sarvari MH. Tetrahedron  2002,  58:  10323 
  CrossrefSearch in Google Scholar
• 10 Sabot C. Kamur KA. Meunier S. Mioskowski C. Tetrahedron Lett.  2007,  48:  3863 
  CrossrefSearch in Google Scholar
• 11 Tang P. Org. Synth.  2005,  81:  262 
  CrossrefSearch in Google Scholar
• 12 Maki T. Ishihara K. Yamamoto H. Tetrahedron  2007,  63:  8645 
  CrossrefSearch in Google Scholar
• 13 Houston TT. Wilkinson BL. Blanchfield JT. Org. Lett.  2004,  6:  681 
  Search in Google Scholar
• 14 Vargas MLY. Castelli MV. Kouznetsov VV. Urbina GJM. López SN. Sortino M. Enriz RD. Ribas JC. Zacchino SA. Bioorg. Med. Chem.  2003,  11:  1531 
  CrossrefSearch in Google Scholar
• 15 Kouznetsov VV. Rivero Castro J. Ochoa Puentes C. Stashenko EE. René Martinez J. Ochoa C. Montoro Pereira D. Nogal Ruiz JJ. Fernández Portillo C. Muelas Serrano S. Gómez Barrio A. Bahsas A. Amaro-Luis J. Arch. Pharm.  2005,  338:  32 
  CrossrefSearch in Google Scholar
• 16 Suvire DF. Sortino M. Kouznetsov VV. Vargas MLY. Zacchino SA. Mora Cruz U. Enriz RD. Bioorg. Med. Chem.  2006,  14:  1851 
  CrossrefSearch in Google Scholar
• 17 Collum DB. Chen S.-C. Ganem B. J. Org. Chem.  1978,  43:  4393 
  CrossrefSearch in Google Scholar
• 18 Ishihara K. Ohara S. Yamamoto H. J. Org. Chem.  1996,  61:  4196 
  CrossrefPubMedSearch in Google Scholar
• 19 Huang Z. Reilly JE. Buckle RN. Synlett  2007,  1026 
  Thieme Connect
• 20 Paulsen H. Todt K. Angew. Chem., Int. Ed. Engl.  1966,  5:  899 
  Search in Google Scholar
• 21 Eliel EL. Wilen SH. Stereochemistry of Organic Compounds   Wiley; New York: 1994.  p.620 

The boric acid promoted azeotropic reflux procedure seems not to be limited to cinnamic acid or its derivatives; see refs. 11 and 13.

Compounds 3c, 3g, and 3j displayed antifungal activity, especially 3c, which showed to be a moderate antifungal agent for three different dermatophytic pathogenic fungi stumps. All the evaluated products (3a-j) possessed poor anti-AChE activity. These results will be published elsewhere.