Abstract
BackgroundTriazole is an important heterocyclic moiety that occupies a unique position in heterocyclic chemistry, due to its large number of biological activities. It exists in two isomeric forms i.e. 1,2,4-triazole and 1,2,3-triazole and is used as core molecule for the design and synthesis of many medicinal compounds. 1,2,4-Triazole possess broad spectrum of therapeutically interesting drug candidates such as analgesic, antiseptic, antimicrobial, antioxidant, anti-urease, anti-inflammatory, diuretics, anticancer, anticonvulsant, antidiabetic and antimigraine agents.MethodsThe structures of all synthesized compounds were characterized by physicochemical properties and spectral means (IR and NMR). The synthesized compounds were evaluated for their in vitro antimicrobial activity against Gram-positive (B. subtilis), Gram-negative (P. aeruginosa and E. coli) bacterial and fungal (C. albicans and A. niger) strains by tube dilution method using ciprofloxacin, amoxicillin and fluconazole as standards. In-vitro antioxidant and anti-urease screening was done by DPPH assay and indophenol method, respectively. The in-vitro anticancer evaluation was carried out against MCF-7 and HCT116 cancer cell lines using 5-FU as standards.Results, discussion and conclusionThe biological screening results reveal that the compounds T5 (MICBS, EC = 24.7 µM, MICPA, CA = 12.3 µM) and T17 (MICAN = 27.1 µM) exhibited potent antimicrobial activity as comparable to standards ciprofloxacin, amoxicillin (MICCipro = 18.1 µM, MICAmo = 17.1 µM) and fluconazole (MICFlu = 20.4 µM), respectively. The antioxidant evaluation showed that compounds T2 (IC50 = 34.83 µg/ml) and T3 (IC50 = 34.38 µg/ml) showed significant antioxidant activity and comparable to ascorbic acid (IC50 = 35.44 µg/ml). Compounds T3 (IC50 = 54.01 µg/ml) was the most potent urease inhibitor amongst the synthesized compounds and compared to standard thiourea (IC50 = 54.25 µg/ml). The most potent anticancer activity was shown by compounds T2 (IC50 = 3.84 μM) and T7 (IC50 = 3.25 μM) against HCT116 cell lines as compared to standard 5-FU (IC50 = 25.36 μM).
Highlights
Triazole is an N-bridged aromatic heterocyclic compound that received a considerable attention in recent years due to their biological activities [1]
Palmitohydrazide (Int-ii) was synthesized from ethanolic solution of ethylpalmitate (Int-i) followed by addition of hydrazine hydrate. 5-Pentadecyl-1,3,4-oxadiazole2(3H)-thione (Int-iii) was synthesized using Int-ii in alc. potassium hydroxide solution followed by the addition of carbon disulfide and followed by addition of hydrazine hydrate to Int-iii yielded 4-amino-5-pentadecyl-4H-1,2,4-triazole-3-thiol (Int-iv)
The synthesized derivatives of 1,2,4-triazole were confirmed by Infrared (IR) and Nuclear Magnetic Resonance (1H/13CNMR)
Summary
Triazole is an N-bridged aromatic heterocyclic compound that received a considerable attention in recent years due to their biological activities [1]. Kumari et al BMC Chemistry (2021) 15:5 properties and biological profile is exerted by the groups attached to the nitrogen atom at the 4th position [3] It favours the hydrogen bonding and is stable for metabolic degradation, which could be favorable in increasing solubility as well as in binding bimolecular targets [5]. Triazole is an important heterocyclic moiety that occupies a unique position in heterocyclic chemistry, due to its large number of biological activities. It exists in two isomeric forms i.e. 1,2,4-triazole and 1,2,3-triazole and is used as core molecule for the design and synthesis of many medicinal compounds. It exists in two isomeric forms i.e. 1,2,4-triazole and 1,2,3-triazole and is used as core molecule for the design and synthesis of many medicinal compounds. 1,2,4-Triazole possess broad spectrum of therapeutically interesting drug candidates such as analgesic, antiseptic, antimicrobial, antioxidant, antiurease, anti-inflammatory, diuretics, anticancer, anticonvulsant, antidiabetic and antimigraine agents
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