Synthesis, characterization and SAR studies of Novel Series of Spiro β-Lactam of 5-methyl-indole-2,3-dione derivatives as a potential antibacterial and anthelmintic agent

Mondal, P.; Mondal, S.

Growing Science » Current Chemistry Letters » Synthesis, characterization and SAR studies of Novel Series of Spiro β-Lactam of 5-methyl-indole-2,3-dione derivatives as a potential antibacterial and anthelmintic agent

Journals

CCL Volumes

Volume 1 (23)
- Issue 1 (7)
- Issue 2 (5)
- Issue 3 (6)
- Issue 4 (5)

Volume 2 (26)
- Issue 1 (7)
- Issue 2 (6)
- Issue 3 (6)
- Issue 4 (7)

Volume 3 (30)
- Issue 1 (7)
- Issue 2 (10)
- Issue 3 (8)
- Issue 4 (5)

Volume 4 (21)
- Issue 1 (5)
- Issue 2 (5)
- Issue 3 (6)
- Issue 4 (5)

Volume 5 (20)
- Issue 1 (5)
- Issue 2 (5)
- Issue 3 (5)
- Issue 4 (5)

Volume 6 (20)
- Issue 1 (5)
- Issue 2 (5)
- Issue 3 (5)
- Issue 4 (5)

Volume 7 (15)
- Issue 1 (4)
- Issue 2 (4)
- Issue 3 (4)
- Issue 4 (3)

Volume 8 (20)
- Issue 1 (5)
- Issue 2 (5)
- Issue 3 (5)
- Issue 4 (5)

Volume 9 (20)
- Issue 1 (5)
- Issue 2 (5)
- Issue 3 (5)
- Issue 4 (5)

Volume 10 (43)
- Issue 1 (5)
- Issue 2 (7)
- Issue 3 (17)
- Issue 4 (14)

Volume 11 (43)
- Issue 1 (14)
- Issue 2 (11)
- Issue 3 (10)
- Issue 4 (8)

Volume 12 (78)
- Issue 1 (21)
- Issue 2 (22)
- Issue 3 (20)
- Issue 4 (15)

Volume 13 (68)
- Issue 1 (23)
- Issue 2 (17)
- Issue 3 (16)
- Issue 4 (12)

Keywords

Authors

Countries

Current Chemistry Letters

ISSN 1927-730x (Online) - ISSN 1927-7296 (Print) Quarterly Publication Volume 11 Issue 4 pp. 403-414 , 2022

Synthesis, characterization and SAR studies of Novel Series of Spiro β-Lactam of 5-methyl-indole-2,3-dione derivatives as a potential antibacterial and anthelmintic agent Pages 403-414 Download PDF

Authors: Prasenjit Mondal, Sumanta Mondal

DOI: 10.5267/j.ccl.2022.5.001

Keywords: Spiro β-Lactam, Synthesis, Anthelmintic activity, Antibacterial activity

Abstract: The synthesis, anticancer and antimicrobial properties of novel N-aryl-2-(5-aryltetrazol-2-yl)acetamides were discussed. Novel N-aryl-2H-tetrazoles were synthesized and modified in order to obtain the compounds with a satisfactory pharmacological profile. The structures of target substances were confirmed by using ¹H spectroscopy, mass spectrometry and elemental analysis. Anticancer activity screening was carried out within the framework of Developmental Therapeutic Program of the National Cancer Institute's (DTP, NCI, Bethesda, Maryland, USA). The compounds with significant levels of anticancer activities have been found that can be used for further optimization. The antimicrobial activity of the synthesized substances was evaluated by the value of the MIC and minimum fungicidal and bactericidal concentration. The findings exhibited that the compounds possessed moderate antimicrobial potential.

How to cite this paper

 Mondal, P & Mondal, S. (2022). Synthesis, characterization and SAR studies of Novel Series of Spiro β-Lactam of 5-methyl-indole-2,3-dione derivatives as a potential antibacterial and anthelmintic agent.Current Chemistry Letters, 11(4), 403-414.

Refrences

1. Rios, R. (2012), Enantioselective methodologies for the synthesis of spiro compounds, Chem. Soc. Rev, 41, 1060–1074.
2. Zheng Y, Tice C., &Singh S.B., (2014), The use of spirocyclic scaffolds in drug discovery, Bioorg. Med. Chem. Lett. 24, 3673–3682.
3. Manhas, M. S.& Bose, A. K (1969). Chemistry of Penicillin, Cephalosporin C and analogs, Mercel Dekker Inc. New York.
4. Abdel-Raheema S.A.A, Kamal El-Deanb A.M, Abd ul-Malikc M.A, Hassaniend R, El-Sayeda M.E.A , Abd-Ellae A. A, Zawamf S.A & Tolbad M.S. (2022). Synthesis of new distyrylpyridine analogues bearing amide substructure as effective insecticidal agents. Curr Chem Lett. 11. 23-28.
5. Tolba M, Sayed M, Abdel-Raheema S.A.A, Gaber T.A, Kamal El-Dean A.M & Ahmed M. (2021). Synthesis and spectral characterization of some new thiazolopyrimidine derivatives. Curr Chem Lett. 10, 471–478.
6. El‐Dean, A, ul-Malik M, Abd-Ella A, Altaifi, E & Hassanien R, Elsayed M, Mohamed S, Zawam S & Bakhite, E. (2021). A concise review on some synthetic routes and applications of pyridine scaffold compounds. Curr Chem Lett. 10, 337–362.
7. Tolba M.S, Abd Ul-Malik M.A, El-Dean K, Geies A.A, Radwan SA, Zaki R.M, Sayed M, Mohamed S.K & Abdel-Raheem S.A.A (2022) An overview on synthesis and reactions of coumarin based compounds. Curr Chem Lett. 11, 29–42
8. Jasinski, R (2016). A reexamination of the molecular mechanism of the Diels–Alder reaction between tetrafluoroethene and cyclopentadiene. Reac Kinet Mech Cat 119, 49–57.
9. Stecko S, Furman B & Chmielewski M (2014) Kinugasa reaction: an ‘ugly duckling’ of β-lactam chemistry, Tetrahedron, 70 (43), 7817-7844,
10. Padwa A, Koehler K F & Rodriguez A (1984) New synthesis of beta.-lactams based on nitrone cycloaddition to nitroalkenes The J Org Chem 49 (2), 282-288
11. Jasinski R (2015), A new mechanistic insight on β-lactam systems formation from 5-nitroisoxazolidines RSC Adv., 5, 50070-50072
12. Fu DJ, Zhang YF, Chang AQ & Li J (2020). β-Lactams as promising anticancer agents: Molecular hybrids, structure activity relationships and potential targets. Eur J Med Chem. 1; 201, 112510.
13. George, G. I.; Ravikumar, B. T.&Eds. VCH (1993), The Organic Chemistry of -lactams;, New, York, p 295;
14. Alves AJS, Alves NG, Caratao CC, Esteves MIM, Fontinha D, Bartolo I, Soares MIL, Lopes SMM, Prudencio M, Taveira N, Pinho E Melo TMVD (2020). Spiro-Lactams as Novel Antimicrobial Agents. Curr Top Med Chem. 20(2),140-152.
15. Mondal P, Banerjee M , Jana S& Bose A (2010), Synthesis and Evaluation of 1,3 Di-Substituted Schiff, Mannich Bases and Spiro Isatin Derivatives, J Young Pharm., 2(2), 169-172
16. Singh, G.S.; Singh, T.&Lakhan, R (1997), Synthesis 13C-NMR and anticonvulsant activity of new isatin based spiroazetidinones. Indian J. Chem. 1997, 36B, 951-954.
17. Sarangapani, M.& Reddy, V.M. (1994) Pharmacological evaluation of 1-(N,N-disubstituted aminomethyl)-3-imino-(2-phenyl-3,4-dihydro-4-oxo-quinazolin-3-yl) indolin-2-ones. Indian J. Pharm. Sci. 56, 174-177.
18. Popp F.D.; Parson R.&Donigan, B.E (1980). Potential anticonvulsants the condensation of isatin with cyclic-ketones. J. Heterocycl. Chem. 17, 1329-1330.
19. Singh, G.S.; Singh, T.& Lakhan, R (1997), Synthesis 13C-NMR and anticonvulsant activity of new isatin based spiroazetidinones. Indian J. Chem. 1997, 36B, 951-954.
20. Bhattacharya, S.K.& Chakrabarti S (1998). Dose-related proconvulsant and anticonvulsant activity of isatin, a putative biological factor in rats. Indian J. Exp. Biol. 36, 118–121
21. Mondal P, Jana S, Balaji A, Ramakrishna R & Kanthal LK (2012). Synthesis of some new isoxazoline derivatives of chalconised indoline 2-one as a potential analgesic, antibacterial and anthelmintic agents. J Young Pharmacists. 4:38-41.
22. Pandeya, S.N.; Sriram, D.; Nath, G.& De Clercq, E (1999). Synthesis, antibacterial, antifungal and antiviral activity evaluation of some new bis-Schiff bases of isatin and their derivatives. Pharm. Acta Helv. 74, 11-17
23. Venugopala KN, Waheed A & Khan SA (2001). Synthesis of carboxamide of 2 amino-4’-(6-bromo-3 coumarinyl) thiazole as analgesic and antiinflammatory agent. Indian J Heterocyclic Chem ;11:59-62.
24. Furtunescu G, Selmiciu I, Grigorescu E, Haulică I, Haralamb E, Puşcaşu E, Sauciuc T & Rusu G (1973), A new piperazine derivative with anthelmintic action. Rev Med Chir Soc Med Nat Iasi.77(1),179-83.
25. Shrestha B, Banerjee J, Yadav PK, Gupta AK & Khanal H (2016), Comparison of Antihelminthic Activity between Bisaryl Benzyl Piperazine and Benzimidazole linked Piperazine Derivatives. Int J Pharm Sci Res. 7(4), 1547-55
26. Nuno G. Alves, Américo J. S. Alves, Maria I. L. Soares, Teresa M. V. D. & Meloa P (2021), Recent Advances in the Synthesis of Spiro-β-Lactams and Spiro-δ-Lactams. Adv. Synth. Catal. 363, 1 –39
27. Martin RJ (1997). Modes of action of anthelmintic drugs. Vet J. 1997 Jul;154(1),11-34.
28. McKenney ES, Sargent M, Khan H, Uh E, Jackson ER & Jose GS, (2012) Lipophilic Prodrugs of FR900098 Are Antimicrobial against Francisella novicida In Vivo and In Vitro and Show GlpT Independent Efficacy. PLoS ONE 7(10), e38167