SYNTHESIS AND ANTIMICROBIAL ACTIVITY OF FLUOROBENZOIC ACID AMIDES
Keywords:
amides, fluorobenzoyl chloride, piperidine, antimicrobial activityAbstract
In the framework of this study, amides of fluorobenzoic acids were synthesized by acylation of piperidine with para-, meta-, ortho-fluorobenzoyl chlorides according to Schotten-Baumann, which showed pronounced antimicrobial activity in the in vitro experiment. The reaction was carried out in absolute benzene with cooling and the ratio amine: acylating agent = 2: 1. The composition and structure of the synthesized compounds were confirmed by elemental analysis and IR, NMR spectroscopy, individuality – by thin-layer chromate-graphy.
References
[1] Siddiqui N., Alam M.S., Ahsan W. Synthesis. anticonvulsant and toxicity evaluation of 2-(1H-indol-3-yl)acetyl-N(substituted phenyl)hydrazine carbothioamides and their related heterocyclic derivatives // Acta Pharma. 2008. Vol. 58. P. 445-454.
[2] Galewicz-Walesa K., Pachuta-Stec A. The synthesis and properties of N-substituted amides of 1-(5-methylthio-1. 2. 4-triazol-3-yl) - cyclohexane-2-carboxylic acid // Medical Academy in Lublin. 2003. Vol. 9. P. 118-125.
[3] Hegab M.I., Abdel Fattah A.M., Yousef N.M. Synthesis. X-ray structure and Pharmacological activity of some 6.6-disubstituted chromeno[4.3-b] and chromeno-[3.4-c]-quinolines // Chemistry in Life Sciences. 2007. Vol. 340(8). P. 396-399.
[4] Kushwaha N., Saini R.K., Kushwaha S.K.S. Synthesis of some amide derivatives and their biological activity // International Journal of ChemTech Research. 2011. Vol. 3. P. 203-209.
[5] Firdaus, Husain D., Naid T., Soekamto N., Sumarna S., Islam M.F. Synthesis of piperidine and morpholine amides of ferrulic acid and their bioactivity against P-388 Leukemia cells // International Journal of ChemTech Research. 2017. Vol. 10. P. 27-33.
[6] Szoke E., Lemberkovics E., Kursinszki L. Alkaloids Derived from Lysine: Piperidine Alkaloids // In Natural Products: Phytochemistry. Botany and Metabolism of Alkaloids. Phenolics and Terpenes. Berlin: Springer, 2013. P. 303-343.
[7] Plunkett A.O. Pyrrole. Pyrrolidine. Pyridine. Piperidine and Azepine Alkaloids // Nat. Prod. Rep. 1994. Vol. 11, № 6. P. 581-590.
[8] O'Hagan D. Pyrrole. pyrrolidine. pyridine. piperidine and tropane alkaloids // Nat. Prod. Rep. 2000. Vol. 17, № 5. P. 435-446.
[9] Butler M.S., Robertson A.A., Cooper M.A. Natural product and natural product derived drugs in clinical trials // Nat. Prod. Rep. 2014. Vol. 31, № 11. P. 1612-1661.
[10] Cordell G.A., Quinn-Beattie M.L., Farnsworth N.R. The Potential of Alkaloids in Drug Discovery // Phytother. Res. 2001. Vol. 15, № 3. P. 183-205.
[11] Warnho E.W. When piperidine was a structural problem // Bull. Hist. Chem. 1998. Vol. 22. P. 29-34.
[12] Arcaro C.A., Gutierres V.O., Assis R.P., Moreira T.F., Costa P.I., Baviera A.M., Brunet- ti I.L. Piperine. a natural bioenhancer. nullifies the antidiabetic and antioxidant activities of curcumin in streptozotocin-diabetic rats // PloS. One. 2014. Vol. 9, № 12. P. 1-21.
[13] Bano G., Raina R.K., Zutshi U., Bedi K.L., Johri R.K., Sharma S.C. Effect of piperine on bioavailability and pharmacokinetics of propranolol and theophylline in healthy volunteers // Eur. J. Clin. Pharmacol. 1991. Vol. 41, № 6. P. 615-617.
[14] Atal C., Dubey R., Singh J.J. Biochemical basis of enhanced drug bioavailability by piperine: evidence that piperine is a potent inhibitor of drug metabolism // Pharm. Exp. Ther. 1985. Vol. 232, № 1. P. 258-562.
[15] Akhmetova G.S.. Ospanova S.I.. Sultanova D.A.. Yu V.K.. Sadyrbayeva F.M.. Praliyev K.D. Sintez novykh amidov tsiklopropankarbonovoy kisloty // Izvestiya nauchno-tekhnicheskogo obshchestva «KAHAK». 2016. № 4(55). P. 24-30.
