Displaying publications 141 - 160 of 290 in total

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  1. Drug delivery advances in mitigating inflammation via matrix metalloproteinases in respiratory diseases
    Mehta M, Paudel KR, Panth N, Xenaki D, Macloughlin R, Oliver BG, et al.
    Nanomedicine (Lond), 2021 03;16(6):437-439.
    PMID: 33599533 DOI: 10.2217/nnm-2021-0016
  2. Fulltext Interferon therapy for preventing COPD exacerbations
    Mehta M, Paudel KR, Shukla SD, Shastri MD, Singh SK, Gulati M, et al.
    EXCLI J, 2020;19:1477-1480.
    PMID: 33312108 DOI: 10.17179/excli2020-2997
  3. Rutin loaded liquid crystalline nanoparticles inhibit lipopolysaccharide induced oxidative stress and apoptosis in bronchial epithelial cells in vitro
    Paudel KR, Wadhwa R, Mehta M, Chellappan DK, Hansbro PM, Dua K
    Toxicol In Vitro, 2020 Oct;68:104961.
    PMID: 32771431 DOI: 10.1016/j.tiv.2020.104961
    Airway inflammation and infections are the primary causes of damage in the airway epithelium, that lead to hypersecretion of mucus and airway hyper-responsiveness. The role of reactive oxygen species (ROS) and their components in the pathophysiological mechanisms of airway inflammation have been well-studied and emphasized for the past several decades. Rutin, a potent bioflavonoid, is well-known for its antioxidant, anti-inflammatory, especially in bronchial inflammation. However, poor solubility and rapid metabolism have led to its low bioavailability in biological systems, and hence limit its application. The present study aims to investigate the beneficial effects of rutin-loaded liquid crystalline nanoparticles (LCNs) against lipopolysaccharide (LPS) induced oxidative damage in human bronchial epithelial cell line (BEAS-2-B) cells in vitro. LPS was used to stimulate BEAS-2-B cells, causing the generation of nitric oxide (NO) and other reactive oxygen species (ROS) that had led to cellular apoptosis. The levels of NO and ROS were detected by, Griess reagent kit and dichlorodihydrofluorescein diacetate (DCFH-DA) respectively, whereas, cell apoptosis was studied by Annexin V-FITC and PI staining. The findings revealed that rutin-loaded LCNs significantly reduced NO, ROS levels and prevented apoptosis in BEAS-2B cells. The observations and findings provide a mechanistic understanding of the effectiveness of rutin-loaded LCNs in protecting the bronchial cells against airway inflammation, thus possessing a promising therapeutic option for the management of airway diseases.
  4. Targeting Cancer using Curcumin Encapsulated Vesicular Drug Delivery Systems
    Hardwick J, Taylor J, Mehta M, Satija S, Paudel KR, Hansbro PM, et al.
    Curr Pharm Des, 2021;27(1):2-14.
    PMID: 32723255 DOI: 10.2174/1381612826666200728151610
    Curcumin is a major curcuminoid present in turmeric. The compound is attributed to various therapeutic properties, which include anti-oxidant, anti-inflammatory, anti-bacterial, anti-malarial, and neuroprotection. Due to its therapeutic potential, curcumin has been employed for centuries in treating different ailments. Curcumin has been investigated lately as a novel therapeutic agent in the treatment of cancer. However, the mechanisms by which curcumin exerts its cytotoxic effects on malignant cells are still not fully understood. One of the main limiting factors in the clinical use of curcumin is its poor bioavailability and rapid elimination. Advancements in drug delivery systems such as nanoparticle-based vesicular drug delivery platforms have improved several parameters, namely, drug bioavailability, solubility, stability, and controlled release properties. The use of curcumin-encapsulated niosomes to improve the physical and pharmacokinetic properties of curcumin is one such approach. This review provides an up-to-date summary of nanoparticle-based vesicular drug carriers and their therapeutic applications. Specifically, we focus on niosomes as novel drug delivery formulations and their potential in improving the delivery of challenging small molecules, including curcumin. Overall, the applications of such carriers will provide a new direction for novel pharmaceutical drug delivery, as well as for biotechnology, nutraceutical, and functional food industries.
  5. Advancing of Cellular Signaling Pathways in Respiratory Diseases Using Nanocarrier Based Drug Delivery Systems
    Mehta M, Dhanjal DS, Satija S, Wadhwa R, Paudel KR, Chellappan DK, et al.
    Curr Pharm Des, 2020;26(42):5380-5392.
    PMID: 33198611 DOI: 10.2174/1381612826999201116161143
    Cell Signaling pathways form an integral part of our existence that allows the cells to comprehend a stimulus and respond back. Such reactions to external cues from the environment are required and are essential to regulate the normal functioning of our body. Abnormalities in the system arise when there are errors developed in these signals, resulting in a complication or a disease. Presently, respiratory diseases contribute to being the third leading cause of morbidity worldwide. According to the current statistics, over 339 million people are asthmatic, 65 million are suffering from COPD, 2.3 million are lung cancer patients and 10 million are tuberculosis patients. This toll of statistics with chronic respiratory diseases leaves a heavy burden on society and the nation's annual health expenditure. Hence, a better understanding of the processes governing these cellular pathways will enable us to treat and manage these deadly respiratory diseases effectively. Moreover, it is important to comprehend the synergy and interplay of the cellular signaling pathways in respiratory diseases, which will enable us to explore and develop suitable strategies for targeted drug delivery. This review, in particular, focuses on the major respiratory diseases and further provides an in-depth discussion on the various cell signaling pathways that are involved in the pathophysiology of respiratory diseases. Moreover, the review also analyses the defining concepts about advanced nano-drug delivery systems involving various nanocarriers and propose newer prospects to minimize the current challenges faced by researchers and formulation scientists.
  6. Rutin loaded liquid crystalline nanoparticles inhibit non-small cell lung cancer proliferation and migration in vitro
    Paudel KR, Wadhwa R, Tew XN, Lau NJX, Madheswaran T, Panneerselvam J, et al.
    Life Sci, 2021 Jul 01;276:119436.
    PMID: 33789146 DOI: 10.1016/j.lfs.2021.119436
    Non-small cell lung cancer (NSCLC) is one of the major causes of cancer-related mortality globally. Despite the availability of therapeutic options, the improvement in patient survival is yet to be achieved. Recent advances in natural product (e.g., Rutin) research, therapeutic nanotechnology and especially the combination of both could aid in achieving significant improvements in the treatment or management of NSCLC. In this study, we explore the anti-cancer activity of Rutin-loaded liquid crystalline nanoparticles (LCNs) in an in vitro model where we have employed the A549 human lung epithelial carcinoma cell line. The anti-proliferative activity was determined by MTT and Trypan blue assays, whereas, the anti-migratory activity was evaluated by the scratch wound healing assay and a modified Boyden chamber assay. We also evaluated the anti-apoptotic activity by Annexin V-FITC staining, and the colony formation activity was studied using crystal violet staining. Here, we report that Rutin-LCNs showed promising anti-proliferative and anti-migratory activities. Furthermore, Rutin-LCNs also induced apoptosis in the A549 cells and inhibited colony formation. The findings warrant further detailed and in-depth anti-cancer mechanistic studies of Rutin-LCNs with a focus towards a potential therapeutic option for NSCLC. LCNs may help to enhance the solubility of Rutin used in the treatment of lung cancer and hence enhance the anticancer effect of Rutin.
  7. Treatment of chronic airway diseases using nutraceuticals: Mechanistic insight
    Allam VSRR, Chellappan DK, Jha NK, Shastri MD, Gupta G, Shukla SD, et al.
    Crit Rev Food Sci Nutr, 2021 May 12.
    PMID: 33977840 DOI: 10.1080/10408398.2021.1915744
    Respiratory diseases, both acute and chronic, are reported to be the leading cause of morbidity and mortality, affecting millions of people globally, leading to high socio-economic burden for the society in the recent decades. Chronic inflammation and decline in lung function are the common symptoms of respiratory diseases. The current treatment strategies revolve around using appropriate anti-inflammatory agents and bronchodilators. A range of anti-inflammatory agents and bronchodilators are currently available in the market; however, the usage of such medications is limited due to the potential for various adverse effects. To cope with this issue, researchers have been exploring various novel, alternative therapeutic strategies that are safe and effective to treat respiratory diseases. Several studies have been reported on the possible links between food and food-derived products in combating various chronic inflammatory diseases. Nutraceuticals are examples of such food-derived products which are gaining much interest in terms of its usage for the well-being and better human health. As a consequence, intensive research is currently aimed at identifying novel nutraceuticals, and there is an emerging notion that nutraceuticals can have a positive impact in various respiratory diseases. In this review, we discuss the efficacy of nutraceuticals in altering the various cellular and molecular mechanisms involved in mitigating the symptoms of respiratory diseases.
  8. Molecular mechanisms of action of naringenin in chronic airway diseases
    Chin LH, Hon CM, Chellappan DK, Chellian J, Madheswaran T, Zeeshan F, et al.
    Eur J Pharmacol, 2020 Jul 15;879:173139.
    PMID: 32343971 DOI: 10.1016/j.ejphar.2020.173139
    Chronic airway inflammatory diseases are characterized by persistent proinflammatory responses in the respiratory tract. Although, several treatment strategies are currently available, lifelong therapy is necessary for most of these diseases. In recent years, phytophenols, namely, flavonoids, derived from fruits and vegetables have been gaining tremendous interest and have been extensively studied due to their low toxicological profile. Naringenin is a bioflavonoid abundantly found in citrus fruits. This substance has shown notable therapeutic potential in various diseases due to its promising diverse biological activities. In this review, we have attempted to review the published studies from the available literature, discussing the molecular level mechanisms of naringenin in different experimental models of airway inflammatory diseases including asthma, chronic obstructive pulmonary disease (COPD), lung cancer, pulmonary fibrosis and cystic fibrosis. Current evidences have proposed that the anti-inflammatory properties of naringenin play a major role in ameliorating inflammatory disease states. In addition, naringenin also possesses several other biological properties. Despite the proposed mechanisms suggesting remarkable therapeutic benefits, the clinical use of naringenin is, however, hampered by its low solubility and bioavailability. Furthermore, this review also discusses on the studies that utilise nanocarriers as a drug delivery system to address the issue of poor solubility.
  9. Interactions between microbiome and lungs: Paving new paths for microbiome based bio-engineered drug delivery systems in chronic respiratory diseases
    Chellappan DK, Sze Ning QL, Su Min SK, Bin SY, Chern PJ, Shi TP, et al.
    Chem Biol Interact, 2019 Sep 01;310:108732.
    PMID: 31276660 DOI: 10.1016/j.cbi.2019.108732
    BACKGROUND: The human body is a home to thousands of microbiotas. It is defined as a community of symbiotic, commensal and pathogenic microorganisms that have existed in all exposed sites of the body, which have co-evolved with diet, lifestyle, genetic factors and immune factors. Human microbiotas have been studied for years on their effects with relation to health and diseases.

    METHODS: Relevant published studies, literature and reports were searched from accessible electronic databases and related institutional databases. We used keywords, viz; microbiome, microbiota, microbiome drug delivery and respiratory disease. Selected articles were carefully read through, clustered, segregated into subtopics and reviewed.

    FINDINGS: The traditional belief of sterile lungs was challenged by the emergence of culture-independent molecular techniques and the recently introduced invasive broncho-alveolar lavage (BAL) sampling method. The constitution of a lung microbiome mainly depends on three main ecological factors, which include; firstly, the immigration of microbes into airways, secondly, the removal of microbes from airways and lastly, the regional growth conditions. In healthy conditions, the microbial communities that co-exist in our lungs can build significant pulmonary immunity and could act as a barrier against diseases, whereas, in an adverse way, microbiomes may interact with other pathogenic bacteriomes and viromes, acting as a cofactor in inflammation and host immune responses, which may lead to the progression of a disease. Thus, the use of microbiota as a target, and as a drug delivery system in the possible modification of a disease state, has started to gain massive attention in recent years. Microbiota, owing to its unique characteristics, could serve as a potential drug delivery system, that could be bioengineered to suit the interest. The engineered microbiome-derived therapeutics can be delivered through BC, bacteriophage, bacteria-derived lipid vesicles and microbe-derived extracellular vesicles. This review highlights the relationships between microbiota and different types of respiratory diseases, the importance of microbiota towards human health and diseases, including the role of novel microbiome drug delivery systems in targeting various respiratory diseases.

  10. A contemporary biological pathway of islet amyloid polypeptide for the management of diabetic dementia
    Sah SK, Samuel VP, Dahiya S, Singh Y, Gilhotra RM, Gupta G, et al.
    Chem Biol Interact, 2019 Jun 01;306:117-122.
    PMID: 31004596 DOI: 10.1016/j.cbi.2019.04.022
    Major challenges of dealing elder patients with diabetes mellitus (DM) are the individualization of consideration in persons with various comorbid types of conditions. In spite of the fact that microvascular and macrovascular problems associated with DM are well documented, there is only a few numbers of reports viewing different conditions, for example, cognitive dysfunction. Cognitive dysfunction is of specific significance due to its effect on self-care and quality of life. All in all, the etiology of cognitive dysfunction in the maturing populace is probably going to be the grouping of ischemic and degenerative pathology. It is likewise trusted that Hyperglycemia is engaged with the system of DM-related cognitive dysfunction. At present, it isn't certain in the case of enhancing glycemic control or utilizing therapeutic agents can enhance the risk of cognitive decay. Amylin was later characterized as an amyloidogenic peptide, confined from a beta cell tumor and called islet amyloid polypeptide (IAPP), and after that, amylin. Conversely, we investigate the beneficial role and hypothesizing the mechanism of amylin related expanding the level and activation of CGRP receptor to enhance the cognition declination amid diabetic dementia.
  11. Monotherapy of RAAS blockers and mobilization of aldosterone: A mechanistic perspective study in kidney disease
    Gupta G, Dahiya R, Singh Y, Mishra A, Verma A, Gothwal SK, et al.
    Chem Biol Interact, 2020 Feb 01;317:108975.
    PMID: 32032593 DOI: 10.1016/j.cbi.2020.108975
    In patients with acute kidney injury progressively converting into chronic kidney disease (CKD), proteinuria and high blood pressure predict progression to end-stage renal disease (ESRD). Although, Renin-angiotensin-aldosterone system (RAAS) regulates blood pressure and kidney disease through both direct and indirect mechanisms. RAAS blockers that act at the level of angiotensin or lower in the cascade can cause compensatory increases in the plasma renin and angiotensin II level. Here, in this review article, we are exploring the evidence-based on RAAS blockade action releases of aldosterone and hypothesizing the molecular mechanism for converting the acute kidney injury into chronic kidney disease to end-stage renal disease.
  12. Immunological axis of berberine in managing inflammation underlying chronic respiratory inflammatory diseases
    Tew XN, Xin Lau NJ, Chellappan DK, Madheswaran T, Zeeshan F, Tambuwala MM, et al.
    Chem Biol Interact, 2020 Feb 01;317:108947.
    PMID: 31968208 DOI: 10.1016/j.cbi.2020.108947
    Inflammatory responses play a remarkable role in the mechanisms of acute and chronic respiratory diseases such as chronic obstructive pulmonary disease (COPD), asthma, pulmonary fibrosis and lung cancer. Currently, there is a resurgence in the use of drugs from natural sources for various ailments as potent therapeutics. Berberine, an alkaloid prominent in the Chinese traditional system of medicine has been reported to exert therapeutic properties in various diseases. Nevertheless, the number of studies focusing on the curative potential of berberine in inflammatory diseases involving the respiratory system is limited. In this review, we have attempted to discuss the reported anti-inflammatory properties of berberine that function through several pathways such as, the NF-κB, ERK1/2 and p38 MAPK pathways which affect several pro-inflammatory cytokines in the pathophysiological processes involved in chronic respiratory diseases. This review would serve to provide valuable information to researchers who work in this field and a new direction in the field of drug discovery with respect to respiratory diseases.
  13. Fulltext miRNA nanotherapeutics: potential and challenges in respiratory disorders
    Mehta M, Chellappan DK, Wich PR, Hansbro NG, Hansbro PM, Dua K
    Future Med Chem, 2020 06;12(11):987-990.
    PMID: 32270706 DOI: 10.4155/fmc-2020-0066
  14. Fulltext Incipient need of targeting airway remodeling using advanced drug delivery in chronic respiratory diseases
    Mehta M, Satija S, Paudel KR, Liu G, Chellappan DK, Hansbro PM, et al.
    Future Med Chem, 2020 05;12(10):873-875.
    PMID: 32352313 DOI: 10.4155/fmc-2020-0091
  15. Fulltext Effects of curcumin-loaded poly(lactic-co-glycolic acid) nanoparticles in MDA-MB231 human breast cancer cells
    Sharma A, Hawthorne S, Jha SK, Jha NK, Kumar D, Girgis S, et al.
    Nanomedicine (Lond), 2021 08;16(20):1763-1773.
    PMID: 34296625 DOI: 10.2217/nnm-2021-0066
    Aim: This study was aimed at evaluating the anticancer potential of curcumin-loaded poly(lactic-co-glycolic acid) (PLGA) based nanoparticles (NPs) in MDA-MB231 human breast cancer cells. Methods: Curcumin-loaded PLGA NPs were developed using a modified solvent evaporation technique. Physical characterization was performed on the formulated NPs. Furthermore, in vitro experiments were conducted to study the biological activity of the curcumin-loaded NPs. Results: Curcumin-loaded PLGA NPs demonstrated high encapsulation efficiency and sustained payload release. Moreover, the NPs exhibited a significant reduction in cell viability, cell migration and cell invasion in the MDA-MB231 cells. Conclusion: The study revealed that the formulated curcumin-loaded PLGA NPs possessed significant anti-metastatic properties. The findings showcased the possible potential of curcumin-loaded NPs in the management of debilitating conditions such as cancer. In addition, this study could form the basis for further research and advancements in this area.
  16. Rutin-loaded liquid crystalline nanoparticles attenuate oxidative stress in bronchial epithelial cells: a PCR validation
    Mehta M, Paudel KR, Shukla SD, Shastri MD, Satija S, Singh SK, et al.
    Future Med Chem, 2021 03;13(6):543-549.
    PMID: 33538615 DOI: 10.4155/fmc-2020-0297
    Aim: In the present study, the inhibitory potential of rutin-loaded liquid crystalline nanoparticles (LCNs) on oxidative stress was determined in human bronchial epithelial cells (BEAS-2B) by analysing the expression levels of different antioxidant (NADPH quinine oxidoreductase-1 (NQO1); γ-glutamyl cysteine synthetase catalytic subunit (GCLC)) and pro-oxidant (NADPH oxidase (Nox)-4; Nox2B) genes. Results: Our findings revealed that the rutin-loaded LCNs inhibited the genes, namely Nox2B and Nox4, which caused oxidative stress. In addition, these nanoparticles demonstrated an upregulation in the expression of the antioxidant genes Gclc and Nqo-1 in a dose-dependent manner. Conclusion: The study indicates the promising potential of rutin-loaded LCNs as an effective treatment strategy in patients with high oxidant loads in various respiratory diseases.
  17. Applications and practice of advanced drug delivery systems for targeting Toll-like receptors in pulmonary diseases
    Chan Y, Prasher P, Löbenberg R, Gupta G, Singh SK, Oliver BG, et al.
    Nanomedicine (Lond), 2021 04;16(10):783-786.
    PMID: 33733817 DOI: 10.2217/nnm-2021-0056
  18. Emerging trends in nanomedicine for topical delivery in skin disorders: Current and translational approaches
    Pandey P, Satija S, Wadhwa R, Mehta M, Purohit D, Gupta G, et al.
    Dermatol Ther, 2020 05;33(3):e13292.
    PMID: 32126154 DOI: 10.1111/dth.13292
  19. Beta-catenin non-canonical pathway: A potential target for inflammatory and hyperproliferative state via expression of transglutaminase 2 in psoriatic skin keratinocyte
    Gupta G, Singh Y, Tiwari J, Raizaday A, Alharbi KS, Al-Abbasi FA, et al.
    Dermatol Ther, 2020 11;33(6):e14209.
    PMID: 32816372 DOI: 10.1111/dth.14209
    Psoriasis is a chronic, local as well as a systemic, inflammatory skin condition. Psoriasis influences the quality of life up to 3.8% of the population and occurs often between 15 and 30 years of age. Specific causes are linked to psoriasis, including the interleukin IL-23/IL-17 Axis, human antigen leucocyte (HLA), and tumor necrosis factor-α (TNF-α). Secukinumab is a monoclonal antibody that specifically binds and neutralizes IL-17A required in the treatment of Psoriasis. The signaling pathways of Wnt govern multiple functions of cell-like fate specification, proliferation, polarity, migration, differentiation with their signaling controlled rigorously, given that dysregulation caused by various stimuli, can lead to alterations in cell proliferation, apoptosis, and human inflammatory disease. Current data has supported non-canonical Wnt signaling pathways in psoriasis development, particularly Wnt5a activated signaling cascades. These interconnected factors are significant in interactions between immune cells, keratinocytes, and inflammatory factors due to a higher degree of transglutaminase 2, mediated by activation of the keratinocyte hyperproliferation of the psoriatic patient's epidermis. This study discusses the pathology of Wnt5a signaling and its involvement in the epidermal inflammatory effects of psoriasis with other related pathways.
  20. Recent updates on animal models for understanding the etiopathogenesis of polycystic ovarian syndrome
    Corrie L, Gulati M, Singh SK, Kapoor B, Khursheed R, Awasthi A, et al.
    Life Sci, 2021 Sep 01;280:119753.
    PMID: 34171379 DOI: 10.1016/j.lfs.2021.119753
    Polycystic ovarian syndrome (PCOS) is the primary cause of female infertility affecting several women worldwide. Changes in hormonal functions such as hyperandrogenism are considered a significant factor in developing PCOS in women. In addition, many molecular pathways are involved in the pathogenesis of PCOS in women. To have better insights about PCOS, it is data from clinical studies carried on women suffering from PCOS should be collected. However, this approach has several implications, including ethical considerations, cost involved and availability of subject. Moreover, during the early drug development process, it is always advisable to use non-human models mimicking human physiology as they are less expensive, readily available, have a shorter gestation period and less risk involved. Many animal models have been reported that resemble the PCOS pathways in human subjects. However, the models developed on rats and mice are more preferred over other rodent/non-rodent models due to their closer resemblance with human PCOS development mechanism. The most extensively reported PCOS models for rats and mice include those induced by using testosterone, letrozole and estradiol valerate. As the pathophysiology of PCOS is complex, none of the explored models completely surrogates the PCOS related conditions occurring in women. Hence, there is a need to develop an animal model that can resemble the pathophysiology of PCOS in women. The review focuses on various animal models explored to understand the pathophysiology of PCOS. The article also highlights some environmental and food-related models that have been used to induce PCOS.
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