Dikshaa Padhi scite author profile

Cyclic dipeptides (CDPs) are the simplest form of cyclic peptides with a wide range of applications from therapeutics to biomaterials. CDP is a versatile molecular platform endowed with unique properties such as conformational rigidity, intermolecular interactions, structural diversification through chemical synthesis, bioavailability and biocompatibility. A variety of natural products with the CDP core exhibit anticancer, antifungal, antibacterial, and antiviral activities. The inherent bioactivities have inspired the development of synthetic analogues as drug candidates and drug delivery systems. CDP plays a crucial role as conformation and molecular assembly directing core in the design of molecular receptors, peptidomimetics and fabrication of functional material architectures. In recent years, CDP has rapidly become a privileged scaffold for the design of advanced drug candidates, drug delivery agents, bioimaging, and biomaterials to mitigate numerous disease conditions. This review describes the structural diversification and multifarious biomedical applications of the CDP scaffold, discusses challenges, and provides future directions for the emerging field.

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Mechanistic Insights for Drug Repurposing and the Design of Hybrid Drugs for Alzheimer’s Disease

Padhi

Govindaraju

2022

J. Med. Chem.

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The heterogeneity and complex nature of Alzheimer's disease (AD) is attributed to several genetic risk factors and molecular culprits. The slow pace and increasing failure rate of conventional drug discovery has led to the exploration of complementary strategies based on repurposing approved drugs to treat AD. Drug repurposing (DR) is a costeffective, low-risk, and efficient approach for identifying novel therapeutic candidates for AD treatment. Similarly, hybrid drug design through the integration of distinct pharmacophores from known or failed drugs and natural products is an interesting strategy to target the multifactorial nature of AD. In this Perspective, we discuss the potential of DR and highlight promising drug candidates that can be advanced for clinical trials, backed by a detailed discussion on their plausible mechanisms of action. Our article fosters research on the hidden potential of DR and hybrid drug design with the goal of unravelling new drugs and targets to tackle AD.

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Lewis‐Acid‐Catalysed Reaction of 3‐Hydroxy‐2‐oxindoles with Terminal Alkynes: Synthetic Approaches to the Pyrroloindoline Alkaloids

et al. 2017

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Lewis‐acid‐catalysed reaction of 3‐hydroxy‐2‐oxindoles with a variety of terminal alkynes has been developed. The key step involves alkylation of 3‐aryl (or) 3‐alkyl, 3‐hydroxyoxindoles with terminal alkyne as π‐electron‐rich system to give a variety of 2‐oxindoles with an all‐carbon quaternary centre. On further extension of this method, a variety of spiro‐2‐oxindoles have been synthesized in high yields. The aforementioned methodology has been used in addressing the cyclotryptamine alkaloids linked with aryl group at the pseudobenzylic position.

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Multifunctional molecules with a bipyridyl core ameliorate multifaceted amyloid toxicity

Padhi¹,

Balachandra²,

Ramesh³

et al. 2022

Chem. Commun.

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Chapter 9. Post-translational Modifications and Alzheimer's Disease

Padhi¹,

Ramesh²,

Govindaraju³

2022

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Dikshaa Padhi

Cyclic Dipeptide: A Privileged Molecular Scaffold to Derive Structural Diversity and Functional Utility

Mechanistic Insights for Drug Repurposing and the Design of Hybrid Drugs for Alzheimer’s Disease

Lewis‐Acid‐Catalysed Reaction of 3‐Hydroxy‐2‐oxindoles with Terminal Alkynes: Synthetic Approaches to the Pyrroloindoline Alkaloids

Multifunctional molecules with a bipyridyl core ameliorate multifaceted amyloid toxicity

Chapter 9. Post-translational Modifications and Alzheimer's Disease

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