An Insight into Pyrazole-containing Compounds: Synthesis and Pharmacological Activities

Abstract

Background: Heterocyclic scaffolds have gained exceptional devotion in the recent years due to their marked utility in bio-organic field. Among these, pyrazole remains a privileged scaffold as broad array of medicinally active agents encompasses this heterocycle as a core nucleus. Pyrazole is a five-membered, aromatic ring containing two nitrogen atoms at adjacent positions are readily able to show interactions with numerous receptor (s), enzymes located on the target cells in biological system. Pyrazole-containing compounds are acknowledged with anticyclooxygenases (anti-inflammatory), carbonic anhydrase inhibitor, α-glycosidase inhibitor, and cholinesterase enzymes inhibitor and anti-DNA gyrases activities. Noticeably, rimonabant, phenylbutazone, fipronil, difenamizole, celecoxib, antipyrine, fezolamide and betazole are few representatives of pyrazole containing drugs. Objectives: The manuscript aims to review the detailed synthetic approaches applied for the synthesis of pyrazole derivatives. In particular, we examine recent scientific finding on antimicrobial, anti-tubercular, antiviral, anticancer and anti-inflammatory perspectives of pyrazole containing analogues. Methods: Pyrazole analogues have been widely explored by scientific community as large number of papers has been published in this regard. Numerous pyrazole-containing analogues have been designed, synthesized, and screened for their in vitro and in vivo bio-efficacy and many of them endowed with commendable pharmacological activities. Pyrazole analogues with superior applications as antiviral, anticancer, and anti-inflammatory efficacy have also been well documented in patents granted to this heterocyclic nucleus. Results: This review outlines the recent advances in medicinal chemistry of pyrazole analogues with a special emphasize of structure-activity relationships to afford ideas for the rational drug-design and discovery and their impact on desired pharmacological applications. Conclusion: The information provided in this manuscript may help the medicinal chemists to generate robust pyrazole analogues with high efficacy.