Publications by authors named "Dipanjan Karati"

Alzheimer's disease (AD), the most common type of dementia among older adults, is a chronic neurodegenerative pathology that causes a progressive loss of cognitive functioning with a decline of rational skills. It is well known that AD is multifactorial, so there are many different pharmacological targets that can be pursued. According to estimates from the World Health Organization (WHO), 18 million individuals worldwide suffer from AD.

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Cancer involves the uncontrolled, abnormal growth of cells and affects other tissues. Kinase has an impact on proliferating the cells and causing cancer. For the purpose of treating cancer, PIM kinase is a potential target.

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Pharmaceutical research is increasingly focusing on transdermal drug delivery due to its potential for improved compliance and bioavailability. However, it is challenging due to the tight intracellular junctions present in the skin. Researchers have developed noninvasive methods, like transfersomes, to overcome these challenges.

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Nanotechnology exhibits a wide range of applications in the domain of disease therapy, diagnosis, biological detection, and environmental safeguards. The cross-linked polymeric nanosponges (NSs) are a nanoscale drug carrier system with a 3D porous structure and high entrapment efficacy. NSs up to the fourth generation are currently accessible and can serve as a delivery system for both hydrophilic and hydrophobic drugs.

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Cubosomes, a novel drug delivery system, have gained significant attention in recent years due to their unique self-assembled structures and enhanced drug encapsulation capabilities. They are administered by oral, ophthalmic, transdermal, and chemotherapeutic routes, to name a few. Due to their many potential benefits-which include high drug dispersal due to the cubic structure, a large surface area, a relatively simple manufacturing process, biodegradability, the capacity to encapsulate hydrophobic, hydrophilic, and amphiphilic compounds, targeted and controlled release of bioactive agents, and the biodegradability of lipids-cubosomes show enormous promise in drug nanoformulations for cancer therapeutics.

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Alzheimer's disease, characterized by the accumulation of abnormal protein aggregates and neuronal damage in the brain, leads to a gradual decline in cognitive function and memory. As a complex neurodegenerative disorder, it involves disruptions in various biochemical pathways and neurotransmitter systems, contributing to the progressive loss of neurons and synaptic connections. The complexity of Alzheimer's signaling pathways complicates treatment, presenting a formidable challenge in the quest for effective therapeutic interventions.

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Alzheimer's disease (AD), a neurodegenerative disorder, is the most prevalent form of senile dementia, causing progressive deterioration of cognition, behavior, and rational skills. Neuropathologically, AD is characterized by two hallmark proteinaceous aggregates: amyloid beta (Aβ) plaques and neurofibrillary tangles (NFTs) formed of hyperphosphorylated tau. A significant study has been done to understand how Aβ and/or tau accumulation can alter signaling pathways that affect neuronal function.

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Background: Worldwide, cancer is the second most common cause of death. Chemotherapy and other traditional cancer treatments have toxicities that affect normal cells in addition to their intended targets, necessitating the development of novel approaches to enhance cell-specific targeting.

Methods: The present work summarizes the scientific information on nanoparticles in cancer theranostics to provide a comprehensive insight into the preventive and therapeutic potential of nanoparticles in cancer.

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The meninges serve as a protective layer, and the fluid around the brain and spinal cord can become inflamed, known as meningitis. Lipid-based pharmaceutical formulations, by their high lipophilicity, can negotiate the Blood-Brain Barrier (BBB). The current mode of treatment of meningitis is mainly through antibiotics, which, at best, is partially effective.

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Article Synopsis
  • Colon cancer is a major cause of cancer-related deaths worldwide, and its ability to metastasize complicates treatment options, making multi-drug resistance and chemotherapy side effects significant challenges.
  • RNA technology, particularly RNA-based nanoparticles, is being explored as a promising therapeutic intervention for targeted gene silencing and drug delivery in colon cancer treatment, currently under clinical studies.
  • Despite the potential of RNA therapies, issues like low stability and cellular uptake exist; however, nanotechnology offers a solution by enhancing RNA delivery to tumor sites while protecting it from degradation and immune responses.
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Cancer, a widespread challenge to global health, remains a puzzle of intricate molecular dynamics. This review article delves into the mystery of cancer, with a keen focus on understanding the contributory role of thymidylate synthase (TS) in cancer. TS, a vital enzyme in DNA synthesis and repair, emerges as a significant player in the narrative of cancer development.

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In developing new cancer medications, attention has been focused on novel epigenetic medicines called histone deacetylase (HDAC) inhibitors. Our understanding of cancer behavior is being advanced by research on epigenetics, which also supplies new targets for improving the effectiveness of cancer therapy. Most recently published patents emphasize HDAC selective drugs and multitarget HDAC inhibitors.

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Mitosis of somatic cells produces a daughter cell. Apoptosis, a naturally programmed cellular death mechanism, kills abnormal cells produced by mitosis. Cancer can develop when this equilibrium is disrupted, either by an upsurge in cell propagation or a reduction in tissue demise.

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Chalcone derivatives continue to captivate medicinal chemists due to their modest chemistry, facile synthetic method, and promising biological activities. They have become wellknown in the therapeutic and pharmaceutical industries due to their diverse biological actions. These complexes offer different features and applications in a human biological system due to the flexibility of the reactions, including antimicrobial, antineoplastic, antimalarial, and other uses.

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Innovative colloidal preparations that can alter the pharmacological properties of drugs have been made possible by the advancement of nanotechnology. Recent advances in the sciences of the nanoscale have led to the creation of new methods for treating illnesses. Developments in nanotechnology may lessen the side effects of medicine by using effective and regulated drug delivery methods.

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Cancer is one of life's most difficult difficulties and a severe health risk everywhere. Except for haematological malignancies, it is characterized by unchecked cell growth and a lack of cell death, which results in an aberrant tissue mass or tumour. Vascularization promotes tumor growth, which eventually aids metastasis and migration to other parts of the body, ultimately resulting in death.

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In an uncontrolled inflammatory environment, the complex process of lung carcinogenesis occurs. Lung cancer remains the leading cause of cancer-related mortality worldwide. The average 5-year survival rate is still low despite significant advancements in our knowledge of lung carcinogenesis and the development of innovative therapies in recent decades.

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Multiple genetic, environmental, and immunological variables cause neuropsychiatric disorders (NPDs). The induced inflammatory immune response is also connected to the severity and treatment outcomes of various NPDs. These reactions also significantly impact numerous brain functions such as GABAergic signaling and neurotransmitter synthesis through inflammatory cytokines and chemokines.

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In the recent era, developments in the field of bio-inorganic chemistry have improved interest in Schiff base complexes (imine scaffolds) for their pharmacological excellence in different areas. Schiff bases are a kind of synthetic molecule that is synthesized by the condensation reaction between a 1o amine and a carbonyl compound. Imine derivatives are also acknowledged for their ability to form complexes with several metals.

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All biological tissues and bodily fluids include the autacoid adenosine. The P1 class of purinergic receptors includes adenosine receptors. Four distinct G-protein-coupled receptors on the cellular membrane mediate the effects of adenosine, whose cytoplasmic content is regulated by producing/degrading enzymes and nucleoside transporters.

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Skeletal muscle mass responds rapidly to growth stimuli, precipitating hypertrophies (increased protein synthesis) and hyperplasia (activation of the myogenic program). For ages, muscle degeneration has been attributed to changes in the intracellular myofiber pathways. These pathways are tightly regulated by hormones and lymphokines that ultimately pave the way to decreased anabolism and accelerated protein breakdown.

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Cyclin Dependent Kinase 9 (CDK9), which controls transcriptional elongation, is a promising pharmacological target for a variety of cancerous cells, specifically those characterized by transcriptional dysregulation. CDK9 promotes the pause or release of RNA polymerase II, a rate-limiting stage in normal transcriptional regulation that is often disturbed in cancers. New indications suggest that selective CDK9 antagonism may be beneficial in the treatment of some cancers.

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Background: Pyrazole is a component of a diversity of bioactive heterocyclic congeners with a broad-spectrum range of biological and pharmacological uses. Designing novel pyrazole and its analogues, revealing new routes for synthesizing this nucleus, exploring various potencies of that heterocycles, and looking for possible applications of pyrazoles are all becoming more important due to their numerous potential applications.

Objectives: Pyrazole scaffolds have been proven to be successful as anti-viral and anti-inflammatory therapeutics against multiple targets like HSV-1, NNRTI, H1N1, CoX-1, and CoX-2.

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Background: Pyrazole is a bioactive heterocyclic congener with numerous biological and pharmacological functionalities. Due to their multiple prospective applications, developing innovative and novel pyrazoles and analogs, revealing revolutionary methods for synthesizing this nucleus, investigating diverse potencies of that heterocycle, and exploring possible pyrazole applications are becoming increasingly relevant.

Objectives: Pyrazole scaffolds have been proven successful as antimicrobial, anticancer, and antimalarial therapeutics against multiple targets like DNA gyrase, topoisomerase IV, Hsp90, and several kinase enzymes.

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Cancer is a leading cause of death worldwide. The Janus kinase (JAK) signal transducer and activator of transcription (STAT) signalling pathway are activated abnormally, which promotes carcinogenesis. Several cytokines are important cancer drivers.

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