Aparna Bahuguna scite author profile

The causative agent of tuberculosis (TB), Mycobacterium tuberculosis and more recently totally drug‐resistant strains of M. tuberculosis, display unique mechanisms to survive in the host. A four‐drug treatment regimen was introduced 40 years ago but the emergence of multidrug‐resistance and more recently TDR necessitates the identification of new targets and drugs for the cure of M. tuberculosis infection. The current efforts in the drug development process are insufficient to completely eradicate the TB epidemic. For almost five decades the TB drug development process remained stagnant. The last 10 years have made sudden progress giving some new and highly promising drugs including bedaquiline, delamanid, and pretomanid. Many of the candidates are repurposed compounds, which were developed to treat other infections but later, exhibited anti‐TB properties also. Each class of drug has a specific target and a definite mode of action. These targets are either involved in cell wall biosynthesis, protein synthesis, DNA/RNA synthesis, or metabolism. This review discusses recent progress in the discovery of newly developed and Food and Drug Administration approved drugs as well as repurposed drugs, their targets, mode of action, drug‐target interactions, and their structure‐activity relationship.

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N-Substituted aminoquinoline-pyrimidine hybrids: Synthesis, in vitro antimalarial activity evaluation and docking studies

Maurya

Bahuguna

Khan

et al. 2019

European Journal of Medicinal Chemistry

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Synthesis, antimalarial activity, heme binding and docking studies of N -substituted 4-aminoquinoline-pyrimidine molecular hybrids

Maurya

Khan

Bahuguna

et al. 2017

European Journal of Medicinal Chemistry

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QcrB in Mycobacterium tuberculosis: The new drug target of antitubercular agents

Bahuguna

Rawat

2021

Medicinal Research Reviews

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Drug‐resistance in mycobacterial infections is a major global health problem that leads to high mortality and socioeconomic pressure in developing countries around the world. From finding new targets to discovering novel chemical scaffolds, there is an urgent need for the development of better approaches for the cure of tuberculosis. Recently, energy metabolism in mycobacteria, particularly the oxidative phosphorylation pathway of cellular respiration, has emerged as a novel target pathway in drug discovery. New classes of antibacterials which target oxidative phosphorylation pathway either by interacting with a protein or any step in the pathway of oxidative phosphorylation can combat dormant mycobacterial infections leading to shortening of tuberculosis chemotherapy. Adenosine triphosphate synthase is one such recently discovered target of the newly approved antitubercular drug bedaquiline. Cytochrome bcc is another new target of the antitubercular drug candidate Q203, currently in phase II clinical trial. Research suggests that b subunit of cytochrome bcc, QcrB, is the target of Q203. The review article describes the structure, function, and importance of targeting QcrB throwing light on all chemical classes of QcrB inhibitors discovered to date. An understanding of the structure and function of validated targets and their inhibitors would enable the development of new chemical entities.

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N -Piperonyl substitution on aminoquinoline-pyrimidine hybrids: Effect on the antiplasmodial potency

Kholiya

Khan

Bahuguna

et al. 2017

European Journal of Medicinal Chemistry

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Aparna Bahuguna

An overview of new antitubercular drugs, drug candidates, and their targets

N-Substituted aminoquinoline-pyrimidine hybrids: Synthesis, in vitro antimalarial activity evaluation and docking studies

Synthesis, antimalarial activity, heme binding and docking studies of N -substituted 4-aminoquinoline-pyrimidine molecular hybrids

QcrB in Mycobacterium tuberculosis: The new drug target of antitubercular agents

N -Piperonyl substitution on aminoquinoline-pyrimidine hybrids: Effect on the antiplasmodial potency

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