Margherita Brindisi scite author profile

The carbamate group is a key structural motif in many approved drugs and prodrugs. There is an increasing use of carbamates in medicinal chemistry and many carbamate derivatives are specifically designed to make drug-target interactions through their carbamate moiety. In this review, we present properties and stabilities of carbamates, reagents and chemical methodologies for the synthesis of carbamates, and recent application of carbamates in drug design and medicinal chemistry.

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Drug Development and Medicinal Chemistry Efforts toward SARS‐Coronavirus and Covid‐19 Therapeutics

Ghosh

et al. 2020

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The COVID‐19 pandemic caused by SARS‐CoV‐2 infection is spreading at an alarming rate and has created an unprecedented health emergency around the globe. There is no effective vaccine or approved drug treatment against COVID‐19 and other pathogenic coronaviruses. The development of antiviral agents is an urgent priority. Biochemical events critical to the coronavirus replication cycle provided a number of attractive targets for drug development. These include, spike protein for binding to host cell‐surface receptors, proteolytic enzymes that are essential for processing polyproteins into mature viruses, and RNA‐dependent RNA polymerase for RNA replication. There has been a lot of ground work for drug discovery and development against these targets. Also, high‐throughput screening efforts have led to the identification of diverse lead structures, including natural product‐derived molecules. This review highlights past and present drug discovery and medicinal‐chemistry approaches against SARS‐CoV, MERS‐CoV and COVID‐19 targets. The review hopes to stimulate further research and will be a useful guide to the development of effective therapies against COVID‐19 and other pathogenic coronaviruses.

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Developing β‐secretase inhibitors for treatment of Alzheimer’s disease

Ghosh

Brindisi

Tang

2011

Journal of Neurochemistry

242

201

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β-Secretase (memapsin 2; BACE1) is the first protease in the processing of amyloid precursor protein leading to the production of amyloid-β (Aβ) in the brain. It is believed that high levels of brain Aβ are responsible for the pathogenisis of Alzheimer’s disease (AD). Therefore, β-secretase is a major therapeutic target for the development of inhibitor drugs. During the past decade, steady progress has been made in the evolution of β-secretase inhibitors toward better drug properties. Recent inhibitors are potent, selective and have been shown to penetrate the blood-brain barrier to inhibit Aβ level in the brains of experimental animals. Moreover, continuous administration of a β-secretase inhibitor was shown to rescue age-related cognitive decline in transgenic AD mice. A small number of β-secretase inhibitors have also entered early phase clinical trials. These developments offer some optimism for the clinical development of a disease-modifying drug for AD.

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Urea Derivatives in Modern Drug Discovery and Medicinal Chemistry

2019

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The urea functionality is inherent to numerous bioactive compounds, including a variety of clinically approved therapies. Urea containing compounds are increasingly used in medicinal chemistry and drug design in order to establish key drug−target interactions and fine-tune crucial drug-like properties. In this perspective, we highlight physicochemical and conformational properties of urea derivatives. We provide outlines of traditional reagents and chemical procedures for the preparation of ureas. Also, we discuss newly developed methodologies mainly aimed at overcoming safety issues associated with traditional synthesis. Finally, we provide a broad overview of urea-based medicinally relevant compounds, ranging from approved drugs to recent medicinal chemistry developments.

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