Your search keyword '"Abhijit Dey"' showing total 11 results

1. Corrigendum to 'Cellular landscaping of cisplatin resistance in cervical cancer' Biomed. Pharmacother. 153(2022) 113345

Author

Rahul Bhattacharjee, Tanima Dey, Lamha Kumar, Sulagna Kar, Ritayan Sarkar, Mimosa Ghorai, Sumira Malik, Niraj Kumar Jha, Balachandar Vellingiri, Kavindra Kumar Kesari, José M. Pérez de la Lastra, and Abhijit Dey

Subjects

Therapeutics. Pharmacology, RM1-950

Published

2024

2. Evolving strategies and application of proteins and peptide therapeutics in cancer treatment

Author

Anirban Goutam Mukherjee, Uddesh Ramesh Wanjari, Abilash Valsala Gopalakrishnan, Pragya Bradu, Antara Biswas, Raja Ganesan, Kaviyarasi Renu, Abhijit Dey, Balachandar Vellingiri, Achraf El Allali, Alsamman M. Alsamman, Hatem Zayed, and C. George Priya Doss

Subjects

Protein, Anticancer, Targets, Therapeutics, Immune checkpoint, Therapeutics. Pharmacology, RM1-950

Abstract

Several proteins and peptides have therapeutic potential and can be used for cancer therapy. By binding to cell surface receptors and other indicators uniquely linked with or overexpressed on tumors compared to healthy tissue, protein biologics enhance the active targeting of cancer cells, as opposed to the passive targeting of cells by conventional small-molecule chemotherapeutics. This study focuses on peptide medications that exist to slow or stop tumor growth and the spread of cancer, demonstrating the therapeutic potential of peptides in cancer treatment. As an alternative to standard chemotherapy, peptides that selectively kill cancer cells while sparing healthy tissue are developing. A mountain of clinical evidence supports the efficacy of peptide-based cancer vaccines. Since a single treatment technique may not be sufficient to produce favourable results in the fight against cancer, combination therapy is emerging as an effective option to generate synergistic benefits. One example of this new area is the use of anticancer peptides in combination with nonpeptidic cytotoxic drugs or the combination of immunotherapy with conventional therapies like radiation and chemotherapy. This review focuses on the different natural and synthetic peptides obtained and researched. Discoveries, manufacture, and modifications of peptide drugs, as well as their contemporary applications, are summarized in this review. We also discuss the benefits and difficulties of potential advances in therapeutic peptides.

Published

2023

3. The mechanism of action of non-coding RNAs in placental disorders

Author

Sandra Kannampuzha, Madurika Ravichandran, Anirban Goutam Mukherjee, Uddesh Ramesh Wanjari, Kaviyarasi Renu, Balachandar Vellingiri, Mahalaxmi Iyer, Abhijit Dey, Alex George, and Abilash Valsala Gopalakrishnan

Subjects

Placenta, Non-coding RNAs, Preeclampsia, Accreta, IUGR Pregnancies, Therapeutics. Pharmacology, RM1-950

Abstract

Placental complication arises due to various risk factors occurring during the pregnancy period, leading to an increased morbidity rate. Placenta related disorders are one of primary reason for pregnancy related complications and the clinical incidences are seen to be on the rise. Most of the common disorders associated with placenta are pre-eclampsia, recurrent spontaneous abortions, intra-uterine growth restriction etc. Several studies have been done to understand the genetics and immunological attributes leading to the development of placenta associated complications. In the recent years, studies were able to establish and identify ncRNAs found specifically in foetal tissues such as the placenta. The aberrant expression patterns of ncRNA associated with placenta has been linked to disorders such as pre-eclampsia. Since ncRNA play a major role in regulating biological processes like trophoblast growth, migration and invasion, their aberrant expression could very well lead to complications like spontaneous pregnancy loss. This review article focuses on the association of ncRNAs - miRNAs, lncRNAs, CircRNAs in placenta associated complications as well as the different ncRNA based therapies. Deciphering the exact mechanism involved in the regulation and development of placenta through ncRNA will help in using it as a biomarker for early diagnosis. Understanding the therapeutic opportunities of ncRNAs in placental disorders will result in better treatment strategies.

Published

2022

4. The emergence of metal oxide nanoparticles (NPs) as a phytomedicine: A two-facet role in plant growth, nano-toxicity and anti-phyto-microbial activity

Author

Rahul Bhattacharjee, Lamha Kumar, Nobendu Mukerjee, Uttpal Anand, Archna Dhasmana, Subham Preetam, Samudra Bhaumik, Sanjana Sihi, Sanjana Pal, Tushar Khare, Soham Chattopadhyay, Sally A. El-Zahaby, Athanasios Alexiou, Eapen P. Koshy, Vinay Kumar, Sumira Malik, Abhijit Dey, and Jarosław Proćków

Subjects

Phyto-nanotechnology, Therapeutic nanoparticles, Green synthesis, Anti-phyto-pathogens activity, Plant growth and morphology, Anti-bacterial and antifungal activities, Therapeutics. Pharmacology, RM1-950

Abstract

Anti-microbial resistance (AMR) has recently emerged as an area of high interest owing to the rapid surge of AMR phenotypes. Metal oxide NPs (MeONPs) have been identified as novel phytomedicine and have recently peaked a lot of interest due to their potential applications in combating phytopathogens, besides enhancing plant growth and yields. Numerous MeONPs (Ti2O, MgO, CuO, Ag2O, SiO2, ZnO, and CaO) have been synthesized and tested to validate their antimicrobial roles without causing toxicity to the cells. This review discusses the application of the MeONPs with special emphasis on anti-microbial activities in agriculture and enlists how cellular toxicity caused through reactive oxygen species (ROS) production affects plant growth, morphology, and viability. This review further highlights the two-facet role of silver and copper oxide NPs including their anti-microbial applications and toxicities. Furthermore, the factor modulating nanotoxicity and immunomodulation for cytokine production has also been discussed. Thus, this article will not only provide the researchers with the potential bottlenecks but also emphasizes a comprehensive outline of breakthroughs in the applicability of MeONPs in agriculture.

Published

2022

5. Cellular landscaping of cisplatin resistance in cervical cancer

Author

Rahul Bhattacharjee, Tanima Dey, Lamha Kumar, Sulagna Kar, Ritayan Sarkar, Mimosa Ghorai, Sumira Malik, Niraj Kumar Jha, Balachandar Vellingiri, Kavindra Kumar Kesari, José M. Pérez de la Lastra, and Abhijit Dey

Subjects

Cervical cancer, Cisplatin resistance, Drug resistance, Anti-cancer activity, Chemotherapeutics, Tumor microenvironment, Therapeutics. Pharmacology, RM1-950

Abstract

Cervical cancer (CC) caused by human papillomavirus (HPV) is one of the largest causes of malignancies in women worldwide. Cisplatin is one of the widely used drugs for the treatment of CC is rendered ineffective owing to drug resistance. This review highlights the cause of resistance and the mechanism of cisplatin resistance cells in CC to develop therapeutic ventures and strategies that could be utilized to overcome the aforementioned issue. These strategies would include the application of nanocarries, miRNA, CRIPSR/Cas system, and chemotherapeutics in synergy with cisplatin to not only overcome the issues of drug resistance but also enhance its anti-cancer efficiency. Moreover, we have also discussed the signaling network of cisplatin resistance cells in CC that would provide insights to develop therapeutic target sites and inhibitors. Furthermore, we have discussed the role of CC metabolism on cisplatin resistance cells and the physical and biological factors affecting the tumor microenvironments.

Published

2022

6. Mechanism of chromium-induced toxicity in lungs, liver, and kidney and their ameliorative agents

Author

Rituraj Chakraborty, Kaviyarasi Renu, Mohamed Ahmed Eladl, Mohamed El-Sherbiny, Dalia Mahmoud Abdelmonem Elsherbini, Arshi Khalid Mirza, Balachandar Vellingiri, Mahalaxmi Iyer, Abhijit Dey, and Abilash Valsala Gopalakrishnan

Subjects

Chromium, Lungs, Kidney, Liver, Oxidative damage, Therapeutics. Pharmacology, RM1-950

Abstract

Heavy metal Chromium (Cr), can adversely affect humans and their health if accumulated in organs of the body, such as the lungs, liver, and kidneys. Cr (VI) is highly toxic and has a higher solubility in water than Cr (III). One of the most common routes for Cr exposure is through inhalation and is associated with liver, lung, kidney damage, widespread dermatitis, GI tract damage, human lung cancer, cardiomyopathies, and cardiovascular disease. The increase in ROS production has been attributed to most of the damage caused by Cr toxicity. Cr-induced ROS-mediated oxidative stress has been seen to cause a redox imbalance affecting the antioxidant system balance in the body. The Nrf2 pathway dysregulation has been implicated in the same. Deregulation of histone acetylation and methylation has been observed, together with gene methylation in genes such as p16, MGMT, APC, hMLH1, and also miR-143 repression. Several ultra-structural changes have been observed following Cr (VI)-toxicity, including rough ER dilation, alteration in the mitochondrial membrane and nuclear membrane, pycnotic nuclei formation, and cytoplasm vacuolization. A significant change was observed in the metabolism of lipid, glucose, and the metabolism of protein after exposure to Cr. Cr-toxicity also leads to immune system dysregulations with changes seen in the expression of IL-8, IL-4, IgM, lymphocytes, and leukocytes among others. P53, as well as pro-and anti-apoptotic proteins, are involved in apoptosis. These Cr-induced damages can be alleviated via agents that restore antioxidant balance, regulate Nrf-2 levels, or increase anti-apoptotic proteins while decreasing pro-apoptotic proteins.

Published

2022

7. Onion (Allium cepa L.) peels: A review on bioactive compounds and biomedical activities

Author

Manoj Kumar, Mrunal D. Barbhai, Muzaffar Hasan, Sneh Punia, Sangram Dhumal, Radha, Nadeem Rais, Deepak Chandran, R. Pandiselvam, Anjineyulu Kothakota, Maharishi Tomar, Varsha Satankar, Marisennayya Senapathy, T. Anitha, Abhijit Dey, Ali A.S. Sayed, Farouk M. Gadallah, Ryszard Amarowicz, and Mohamed Mekhemar

Subjects

Onion peel/skin, Bioactives, Biofunctionalities, Phytochemicals, Therapeutics. Pharmacology, RM1-950

Abstract

Huge quantities of byproducts/wastes generated in onion processing are usually discarded, but they are excellent sources of bioactive compounds and phytochemicals. However, with growing interest in the sustainable use of resources and the circular economy to reduce adverse impacts on the environment, food processing wastes such as onion peel/skin can be extracted and employed as inputs in developing or reformulating nutrient supplements, and pharmacological drugs. This review highlights major bioactive components, especially total phenolics, total flavonoid, quercetin and its derivatives present in onion peel/skin and their therapeutic applications as cardioprotective, neuroprotective, antiobesity, antidiabetic, anticancer and antimicrobial agents. The present review emphasized that onion peel is one of the important agricultural by-products which is rich in bioactive compounds and can be utilized as health promoting ingredient especially in pharmacological and biomedical fields. Thus, with increasing burden of life style disorders/non-communicable diseases, finding suitable natural alternative for their treatment is one major concern of the researchers and onion peel and its extract can be exploited as a prime ingredient.

Published

2022

8. Podophyllum hexandrum and its active constituents: Novel radioprotectants

Author

Uttpal Anand, Protha Biswas, Vinay Kumar, Durga Ray, Puja Ray, Verity I.P. Loake, Ramesh Kandimalla, Anupama Chaudhary, Birbal Singh, Nanda Kishore Routhu, Zhe-Sheng Chen, Jarosław Proćków, and Abhijit Dey

Subjects

Radiation, Radiation-induced damage, Free radicals, DNA damage, Genotoxicity, Cancer, Therapeutics. Pharmacology, RM1-950

Abstract

Human exposure to radiation has expanded considerably in recent years, due to a wide range of medical, agricultural, and industrial applications. Despite its beneficial utilities, radiation is also known to have a deleterious effect on cells and tissues, largely through the creation of free radicals, which cause severe damage to biological systems through processes such as DNA double/single-strand fragmentation, protein modification, and upregulation of lipid peroxidation pathways. In addition, radiation damages genetic material while inducing hereditary genotoxicity. Developing measures to counter radiation-induced damage is thus considered to be of significant importance. Considering the inherent capability of plants to survive radiative conditions, certain plants and natural compounds have been the subject of investigations to explore and harness their natural radioprotective abilities. Podophyllum hexandrum, an Indian medicinal plant with several known traditional phytotherapeutic uses, is considered in particular to be of immense therapeutic importance. Recent studies have been conducted to validate its radioprotective potential alongside discovering its protective mechanisms following γ-radiation-induced mortality and disorder in both mice and human cells. These findings show that Podophyllum and its constituents/natural compounds protect the lungs, gastrointestinal tissues, hemopoietic system, and testis by inducing DNA repair pathways, apoptosis inhibition, free radical scavenging, metal chelation, anti-oxidation and anti-inflammatory mechanisms. In this review, we have provided an updated, comprehensive summary of ionizing radiations and their impacts on biological systems, highlighting the mechanistic and radioprotective role of natural compounds from Podophyllum hexandrum.

Published

2022

9. Neoechinulins: Molecular, cellular, and functional attributes as promising therapeutics against cancer and other human diseases

Author

Sicon Mitra, Uttpal Anand, Rupa Sanyal, Niraj Kumar Jha, Tapan Behl, Avinash Mundhra, Arabinda Ghosh, Radha, Manoj Kumar, Jarosław Proćków, and Abhijit Dey

Subjects

Neoechinulin A, Neoechinulin B, Phytochemical, Cyto-protection, Nitrosative, Anti-depressant, Therapeutics. Pharmacology, RM1-950

Abstract

Neoechinulins are fungal and plant-derived chemicals extracted from Microsporum sp., Eurotium rubrum, Aspergillus sp., etc. Two analogues of neoechinulin, i.e., A and B, exerted extensive pharmacological properties described in this review. Neoechinulin is an indole alkaloid and has a double bond between C8/C9, which tends to contribute to its cytoprotective nature. Neoechinulin A exhibits protection to PC12 cells against nitrosative stress via increasing NAD(P)H reserve capacity and decreasing cellular GSH levels. It also confers protection via rescuing PC12 cells from rotenone-induced stress by lowering LDH leakage. This compound has great positive potential against neurodegenerative diseases by inhibiting SIN-1 induced cell death in neuronal cells. Together with these, neoechinulin A tends to inhibit Aβ42-induced microglial activation and confers protection against neuroinflammation. Alongside, it also inhibits cervical cancer cells by caspase-dependent apoptosis and via upregulation of apoptosis inducing genes like Bax, it suppresses LPS-induced inflammation in RAW264.7 macrophages and acts as an antidepressant. Whereas, another analogue, Neoechinulin B tends to interfere with the cellular mechanism thereby, inhibiting the entry of influenza A virus and it targets Liver X receptor (LXR) and decreases the infection rate of Hepatitis C. The present review describes the pharmaceutical properties of neoechinulins with notes on their molecular, cellular, and functional basis and their therapeutic properties.

Published

2022

10. Withania somnifera (L.) Dunal (Ashwagandha): A comprehensive review on ethnopharmacology, pharmacotherapeutics, biomedicinal and toxicological aspects

Author

Subhabrata Paul, Shreya Chakraborty, Uttpal Anand, Swarnali Dey, Samapika Nandy, Mimosa Ghorai, Suchismita Chatterjee Saha, Manoj Tukaram Patil, Ramesh Kandimalla, Jarosław Proćków, and Abhijit Dey

Subjects

Ashwagandha, Ethnobotany, Phytochemistry, Pharmacology, Toxicology, Withanolides, Therapeutics. Pharmacology, RM1-950

Abstract

Withania somnifera (L.) Dunal (Solanaceae) has been used as a traditional Rasayana herb for a long time. Traditional uses of this plant indicate its ameliorative properties against a plethora of human medical conditions, viz. hypertension, stress, diabetes, asthma, cancer etc. This review presents a comprehensive summary of the geographical distribution, traditional use, phytochemistry, and pharmacological activities of W. somnifera and its active constituents. In addition, it presents a detailed account of its presence as an active constituent in many commercial preparations with curative properties and health benefits. Clinical studies and toxicological considerations of its extracts and constituents are also elucidated. Comparative analysis of relevant in-vitro, in-vivo, and clinical investigations indicated potent bioactivity of W. somnifera extracts and phytochemicals as anti-cancer, anti-inflammatory, apoptotic, immunomodulatory, antimicrobial, anti-diabetic, hepatoprotective, hypoglycaemic, hypolipidemic, cardio-protective and spermatogenic agents. W. somnifera was found to be especially active against many neurological and psychological conditions like Parkinson’s disease, Alzheimer’s disease, Huntington’s disease, ischemic stroke, sleep deprivation, amyotrophic lateral sclerosis, attention deficit hyperactivity disorder, bipolar disorder, anxiety, depression, schizophrenia and obsessive-compulsive disorder. The probable mechanism of action that imparts the pharmacological potential has also been explored. However, in-depth studies are needed on the clinical use of W. somnifera against human diseases. Besides, detailed toxicological analysis is also to be performed for its safe and efficacious use in preclinical and clinical studies and as a health-promoting herb.

Published

2021

11. Neoechinulins: Molecular, cellular, and functional attributes as promising therapeutics against cancer and other human diseases

Author

Niraj Kumar Jha, Uttpal Anand, Radha, Manoj Kumar, Sicon Mitra, Jarosław Proćków, Avinash Mundhra, Tapan Behl, Abhijit Dey, Rupa Sanyal, and Arabinda Ghosh

Subjects

Programmed cell death, Neoechinulin B, Neoechinulin A, Anti-Inflammatory Agents, Antineoplastic Agents, Inflammation, RM1-950, Phytochemical, PC12 Cells, Piperazines, Mice, chemistry.chemical_compound, Alkaloids, Downregulation and upregulation, Neoplasms, Nitrosative, medicine, Animals, Humans, Liver X receptor, Neuroinflammation, Pharmacology, Neurodegenerative Diseases, General Medicine, Glutathione, Rats, Cell biology, Cyto-protection, RAW 264.7 Cells, chemistry, Apoptosis, Anti-depressant, NAD+ kinase, Therapeutics. Pharmacology, medicine.symptom

Abstract

Neoechinulins are fungal and plant-derived chemicals extracted from Microsporum sp., Eurotium rubrum, Aspergillus sp., etc. Two analogues of neoechinulin, i.e., A and B, exerted extensive pharmacological properties described in this review. Neoechinulin is an indole alkaloid and has a double bond between C8/C9, which tends to contribute to its cytoprotective nature. Neoechinulin A exhibits protection to PC12 cells against nitrosative stress via increasing NAD(P)H reserve capacity and decreasing cellular GSH levels. It also confers protection via rescuing PC12 cells from rotenone-induced stress by lowering LDH leakage. This compound has great positive potential against neurodegenerative diseases by inhibiting SIN-1 induced cell death in neuronal cells. Together with these, neoechinulin A tends to inhibit Aβ42-induced microglial activation and confers protection against neuroinflammation. Alongside, it also inhibits cervical cancer cells by caspase-dependent apoptosis and via upregulation of apoptosis inducing genes like Bax, it suppresses LPS-induced inflammation in RAW264.7 macrophages and acts as an antidepressant. Whereas, another analogue, Neoechinulin B tends to interfere with the cellular mechanism thereby, inhibiting the entry of influenza A virus and it targets Liver X receptor (LXR) and decreases the infection rate of Hepatitis C. The present review describes the pharmaceutical properties of neoechinulins with notes on their molecular, cellular, and functional basis and their therapeutic properties.

Published

2022