Nagaraju Kerru scite author profile

The analogs of nitrogen-based heterocycles occupy an exclusive position as a valuable source of therapeutic agents in medicinal chemistry. More than 75% of drugs approved by the FDA and currently available in the market are nitrogen-containing heterocyclic moieties. In the forthcoming decade, a much greater share of new nitrogen-based pharmaceuticals is anticipated. Many new nitrogen-based heterocycles have been designed. The number of novel N-heterocyclic moieties with significant physiological properties and promising applications in medicinal chemistry is ever-growing. In this review, we consolidate the recent advances on novel nitrogen-containing heterocycles and their distinct biological activities, reported over the past one year (2019 to early 2020). This review highlights the trends in the use of nitrogen-based moieties in drug design and the development of different potent and competent candidates against various diseases.

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Current anti-diabetic agents and their molecular targets: A review

Kerru

Singh‐Pillay

Awolade

et al. 2018

European Journal of Medicinal Chemistry

283

155

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Recent advances (2015–2016) in anticancer hybrids

Kerru

Singh

Koorbanally

et al. 2017

European Journal of Medicinal Chemistry

236

122

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Therapeutic significance of β-glucuronidase activity and its inhibitors: A review

Awolade

Cele

Kerru

et al. 2020

European Journal of Medicinal Chemistry

107

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BiomarkerEnzyme inhibition Molecular target Structure activity relationship a b s t r a c tThe emergence of disease and dearth of effective pharmacological agents on most therapeutic fronts, constitutes a major threat to global public health and man's existence. Consequently, this has created an exigency in the search for new drugs with improved clinical utility or means of potentiating available ones. To this end, accumulating empirical evidence supports molecular target therapy as a plausible egress and, b-glucuronidase (bGLU) e a lysosomal acid hydrolase responsible for the catalytic deconjugation of b-D-glucuronides has emerged as a viable molecular target for several therapeutic applications. The enzyme's activity level in body fluids is also deemed a potential biomarker for the diagnosis of some pathological conditions. Moreover, due to its role in colon carcinogenesis and certain drug-induced dose-limiting toxicities, the development of potent inhibitors of bGLU in human intestinal microbiota has aroused increased attention over the years. Nevertheless, although our literature survey revealed both natural products and synthetic scaffolds as potential inhibitors of the enzyme, only few of these have found clinical utility, albeit with moderate to poor pharmacokinetic profile. Hence, in this review we present a compendium of exploits in the present millennium directed towards the inhibition of bGLU. The aim is to proffer a platform on which new scaffolds can be modelled for improved bGLU inhibitory potency and the development of new therapeutic agents in consequential.

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Recent advances in heterogeneous catalysts for the synthesis of imidazole derivatives

Kerru

Bhaskaruni

Gummidi

et al. 2019

Synthetic Communications

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Nagaraju Kerru

A Review on Recent Advances in Nitrogen-Containing Molecules and Their Biological Applications

Current anti-diabetic agents and their molecular targets: A review

Recent advances (2015–2016) in anticancer hybrids

Therapeutic significance of β-glucuronidase activity and its inhibitors: A review

Recent advances in heterogeneous catalysts for the synthesis of imidazole derivatives

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