Dinesh Kumar scite author profile

Scientific community is striving to understand the role of heterocycles and fused heterocycles in drug discovery programme due to its impact on multi-drug resistance (MDR) of anticancer drugs. Architecting of various scaffolds for cancer treatment has become gradually increased in many years. Till now there is no treatment which is so proficient that it can cure the cancer from the roots. Hence, it is very necessary to design novel anticancer agents with minimum side effects. Synthesis of hybrids from natural leads is one of the rationale approaches in medicinal chemistry. It remains a big challenge to invent new efficient drugs to beat cancer. The design and synthesis of fused molecules as anticancer agents is one of the great innovations of modern era. In drug discovery archetype, a variety of heterocycles have been considered for the development of novel lead compounds. This article presents some recent advancements in the field of anticancer heterocyclic agents all around the world and also attracted the structure activity relationship along with the structure of the most promising molecules along with IC50 values against various human cancer cell lines.

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Structure-Activity-Relationship and Mechanistic Insights for Anti-HIV Natural Products

Kaur

Sharma

Gupta

et al. 2020

Molecules

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Acquired Immunodeficiency Syndrome (AIDS), which chiefly originatesfroma retrovirus named Human Immunodeficiency Virus (HIV), has impacted about 70 million people worldwide. Even though several advances have been made in the field of antiretroviral combination therapy, HIV is still responsible for a considerable number of deaths in Africa. The current antiretroviral therapies have achieved success in providing instant HIV suppression but with countless undesirable adverse effects. Presently, the biodiversity of the plant kingdom is being explored by several researchers for the discovery of potent anti-HIV drugs with different mechanisms of action. The primary challenge is to afford a treatment that is free from any sort of risk of drug resistance and serious side effects. Hence, there is a strong demand to evaluate drugs derived from plants as well as their derivatives. Several plants, such as Andrographis paniculata, Dioscorea bulbifera, Aegle marmelos, Wistaria floribunda, Lindera chunii, Xanthoceras sorbifolia and others have displayed significant anti-HIV activity. Here, weattempt to summarize the main results, which focus on the structures of most potent plant-based natural products having anti-HIV activity along with their mechanisms of action and IC50 values, structure-activity-relationships and important key findings.

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Conjugation of Docetaxel with Multiwalled Carbon Nanotubes and Codelivery with Piperine: Implications on Pharmacokinetic Profile and Anticancer Activity

et al. 2016

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Nanotechnology-based drug products are emerging as promising agents to enhance the safety and efficacy of established chemotherapeutic molecules. Carbon nanotubes (CNTs), especially multiwalled CNTs (MWCNTs), have been explored for this potential owing to their safety and other desired attributes. Docetaxel (DTX) is an indispensable anticancer agent, which has wide applicability in variety of cancers. However, the potential of DTX is still not completely harvested due to problems like poor aqueous solubility, low tissue permeability, poor bioavailability, high first pass metabolism, and dose-related toxicity. Hence, it was proposed to attach DTX to MWCNTs and coadminister it along with piperine with an aim to enhance the tissue permeation, anticancer activity, and bioavailability. The Fourier transform infrared, UV, and NMR spectroscopic data confirmed successful conjugation of DTX to MWCNTs and adsorption of piperine onto MWCNTs. The codelivery MWCNT-based system offered drug release moderation and better cancer cell toxicity than that of plain DTX as well as DTX-CNT conjugate. The pharmacokinetic profile of DTX was exceptionally improved by the conjugation, in general, and coadministration with piperine, in specific vis-à-vis plain drug. Hence, the dual approach of MWCNTs conjugation and piperine coadministration can serve as a beneficial option for enhancement of the performance of DTX in cancer chemotherapy.

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Active vibration control of smart plates with partially debonded multilayered PZT actuators

Kumar

Raja

Ikeda

2007

Smart Mater. Struct.

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The influence of actuator damage on the performance of closed loop vibration control is numerically evaluated. Debonding is considered a damage mode and finite element procedures are subsequently developed to introduce its effect on system matrices, namely elastic and electro-elastic stiffness. A simple modelling scheme for multiple debonding is proposed, which can also idealize multiple delamination in the host laminate. Debonding in actuators in general has reduced their load carrying appreciably as well as vibration control characteristics. Therefore, incorporating such a damage mode in the control design as an uncertainty parameter would help to realize a damage-tolerant active vibration control system. It is interesting to note that debonding in actuators has influenced both active damping and active stiffening effects.

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Dinesh Kumar

The value of pyrans as anticancer scaffolds in medicinal chemistry

A Comprehensive Review of N-Heterocycles as Cytotoxic Agents

Structure-Activity-Relationship and Mechanistic Insights for Anti-HIV Natural Products

Conjugation of Docetaxel with Multiwalled Carbon Nanotubes and Codelivery with Piperine: Implications on Pharmacokinetic Profile and Anticancer Activity

Active vibration control of smart plates with partially debonded multilayered PZT actuators

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