School Of Health Sciences

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Now showing 1 - 10 of 16
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    Advances in therapeutic applications of silver nanoparticles
    (Elsevier Ireland Ltd, 2023-06-01T00:00:00) Kaushal, Ashutosh; Khurana, Isha; Yadav, Poonam; Allawadhi, Prince; Banothu, Anil Kumar; Neeradi, Dinesh; Thalugula, Sunitha; Barani, Percy Jasmine; Naik, Ramavath Redya; Navik, Umashanker; Bharani, Kala Kumar; Khurana, Amit
    Nanotechnology is one of the most appealing area for developing new applications in biotechnology and medicine. For decades, nanoparticles have been extensively studied for a variety of biomedical applications. Silver has evolved into a potent antibacterial agent that can be used in a variety of nanostructured materials of various shapes and sizes. Silver nanoparticles (AgNP) based antimicrobial compounds are employed in a wide range of applications, including medicinal uses, surface treatment and coatings, the chemical and food industries, and agricultural productivity. When designing formulations for specific applications, the size, shape, and surface area of AgNPs are all crucial structural aspects to consider. Different methods for producing AgNPs with varying sizes and forms that are less harmful have been devised. The anticancer, anti-inflammatory, antibacterial, antiviral, and anti-angiogenic properties of AgNPs have been addressed in this review, as well as their generation and processes. Herein, we have reviewed the advances in therapeutic applications of AgNPs, as well as their limitations and barriers for future applications. � 2023 Elsevier B.V.
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    Targeting Mitochondria as a Novel Disease-Modifying Therapeutic Strategy in Cancer
    (Springer Singapore, 2022-09-28T00:00:00) Bhatti, Gurjit Kaur; Pahwa, Paras; Gupta, Anshika; Sidhu, Inderpal Singh; Navik, Uma Shanker; Reddy, P. Hemachandra; Bhatti, Jasvinder Singh
    Mitochondria are essential for the metabolism of energy, regulation of apoptosis, and cell signaling. Overproduction of reactive oxidation species (ROS) in mitochondria is one of the indications of cancer cells. Moreover, this boosts the proliferation of cancerous cells by causing genomic instability and altering gene expressions. Mitochondrial and nuclear DNA mutations caused by oxidative damage impair the mechanism of oxidative phosphorylation and can lead to more mitochondrial ROS output, genome instability, and cancer development. The classic approach to target mitochondria of cancerous cells with novel targeted therapeutics helps in targeting the mitochondrial apoptotic proteins and changing energy metabolism. A key benefit of selective drug delivery is that it reduces the drug�s toxicity and increases specificity. A better understanding of the mitochondrial role in tumor growth will help design more therapeutic agents with better selectivity. � Springer Nature Singapore Pte Ltd. 2022.
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    Targeting Mitochondria as a Novel Disease-Modifying Therapeutic Strategy in Cancer
    (Springer Nature, 2022-01-31T00:00:00) Bhatti, Gurjit Kaur; Pahwa, Paras; Gupta, Anshika; Navik, Uma Shanker; Reddy, P. Hemachandra; Bhatti, Jasvinder Singh
    Mitochondria are important for the metabolism of energy, regulation of apoptosis and cell signaling. Overproduction of reactive oxidation species (ROS) in mitochondria is one of the indications of cancer cells; moreover, this boosts the proliferation of cancerous cells by causing genomic instability and altering gene expressions. Mitochondrial and nuclear DNA mutations, caused by oxidative damage which impairs the mechanism of oxidative phosphorylation, can lead to more mitochondrial ROS output, genome instability, and the development of the cancer. Classic approach to target mitochondria of cancerous cells with novel-targeted therapeutics helps in targeting the mitochondrial apoptotic proteins and changing energy metabolism. Key benefit of selective drug delivery is it reduces the toxicity of drug and increases specificity. Better understanding of mitochondrial role in tumor growth will help to design more therapeutic agents with better selectivity. � Springer Nature Singapore Pte Ltd. 2022.
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    Emerging role of non?coding RNA in health and disease
    (Springer, 2021-04-21T00:00:00) Bhatti, Gurjit Kaur; Khullar, Naina; Sidhu, Inderpal Singh; Navik, Uma Shanker; Reddy, Arubala P.; Reddy, P. Hemachandra; Bhatti, Jasvinder Singh
    Human diseases have always been a significant turf of concern since the origin of mankind. It is cardinal to know the cause, treatment, and cure for every disease condition. With the advent and advancement in technology, the molecular arena at the microscopic level to study the mechanism, progression, and therapy is more rational and authentic pave than a macroscopic approach. Non-coding RNAs (ncRNAs) have now emerged as indispensable players in the diagnosis, development, and therapeutics of every abnormality concerning physiology, pathology, genetics, epigenetics, oncology, and developmental diseases. This is a comprehensive attempt to collate all the existing and proven strategies, techniques, mechanisms of genetic disorders including Silver Russell Syndrome, Fascio- scapula humeral muscular dystrophy, cardiovascular diseases (atherosclerosis, cardiac fibrosis, hypertension, etc.), neurodegenerative diseases (Spino-cerebral ataxia type 7, Spino-cerebral ataxia type 8, Spinal muscular atrophy, Opitz-Kaveggia syndrome, etc.) cancers (cervix, breast, lung cancer, etc.), and infectious diseases (viral) studied so far. This article encompasses discovery, biogenesis, classification, and evolutionary prospects of the existence of this junk RNA along with the integrated networks involving chromatin remodelling, dosage compensation, genome imprinting, splicing regulation, post-translational regulation and proteomics. In conclusion, all the major human diseases are discussed with a facilitated technology transfer, advancements, loopholes, and tentative future research prospects have also been proposed. � 2021, The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.
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    Molecular mechanisms behind ROS regulation in cancer: A balancing act between augmented tumorigenesis and cell apoptosis
    (Springer Science and Business Media Deutschland GmbH, 2022-11-28T00:00:00) Tuli, Hardeep Singh; Kaur, Jagjit; Vashishth, Kanupriya; Sak, Katrin; Sharma, Ujjawal; Choudhary, Renuka; Behl, Tapan; Singh, Tejveer; Sharma, Sheetu; Saini, Adesh K.; Dhama, Kuldeep; Varol, Mehmet; Sethi, Gautam
    ROS include hydroxyl radicals (HO.), superoxide (O2.), and hydrogen peroxide (H2O2). ROS are typically produced under physiological conditions and play crucial roles in living organisms. It is known that ROS, which are created spontaneously by cells through aerobic metabolism in mitochondria, can have either a beneficial or detrimental influence on biological systems. Moderate levels of ROS can cause oxidative damage to proteins, DNA and lipids, which can aid in the pathogenesis of many disorders, including cancer. However, excessive concentrations of ROS can initiate programmed cell death in cancer. Presently, a variety of chemotherapeutic drugs and herbal agents are being investigated to induce ROS-mediated cell death in cancer. Therefore, preserving ROS homeostasis is essential for ensuring normal cell development and survival. On account of a significant association of ROS levels at various concentrations with carcinogenesis in a number of malignancies, further studies are needed to determine the underlying molecular mechanisms and develop the possibilities for intervening in these processes. � 2022, The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.
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    Role of Hedgehog and Hippo signaling pathways in cancer: A special focus on non-coding RNAs
    (Academic Press, 2022-10-28T00:00:00) Sharma, Uttam; Tuli, Hardeep Singh; Uttam, Vivek; Choudhary, Renuka; Sharma, Bunty; Sharma, Ujjawal; Prakash, Hridayesh; Jain, Aklank
    Despite advanced clinical and translational oncology research, mortality rates are still increasing worldwide. Recently, a class of non-coding RNAs (ncRNAs), such as microRNAs (miRNAs), long non-coding RNAs (lncRNAs), and circular RNAs (circRNAs), have been well investigated in regulating biological, molecular, and cellular signaling pathways. This review article provided the current research progress on how miRNAs, lncRNAs, and circRNAs regulate Hedgehog (Hh) and Hippo signaling pathways in various cancers. These ncRNAs target both pathways' key downstream molecules and may be used for targeted cancer treatment. Moreover, Hh and Hippo signaling pathways crosstalked with each other through Gli1 of Hh pathways and YAP1/TEAD molecules of Hippo pathways during cancer progression. Additionally, Hh and Hippo signaling pathways regulate resistance against the chemo, radio, and immune therapies for several types of cancer via inducing GLI and YAP/TAZ proteins level. Therefore, to improve the treatment regime, we presented the role of various prominent phytochemicals such as curcumin, resveratrol, genistein, quercetin, paclitaxel, and silibinin in regulating lncRNAs, miRNAs, circRNA through Hedgehog and Hippo signaling pathways� constituents in cancers. We believe that knowledge obtained from this review may help make new drugs for cancer treatment in the future. � 2022 Elsevier Ltd
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    Targeting Redox Homeostasis of Tumor Cells by Therapeutic Compounds in Cancer: An Indian Perspective
    (Springer Singapore, 2022-09-28T00:00:00) Vasudeva, Kanika; Chaturvedi, Pragya; Khan, Rahul; Sahu, Prachi; Munshi, Anjana
    Cancer is one of the significant causes of morbidity and mortality in the world. The role of oxidative stress in tumor progression and metastasis has been under focus since the last two decades, suggesting the importance of redox balance upon which cancer cells thrive to promote oncogenic phenotype. Therefore, it is highly warranted to develop therapies that can disrupt the fine-tuned intracellular reactive oxygen species (ROS) balance of tumor cells. Even though classical chemotherapy, radiotherapy, and many FDA-approved chemotherapeutic drugs modulate ROS levels, the associated side effects make it worthwhile to explore alternative options. Various compounds of natural origin have high efficacy and minimum side effects and pose a low risk of recurrence. This chapter has been compiled to give a thorough account of medicinal plants of Indian origin that have been implicated in ROS modulation and their potential applications in clinical settings. � Springer Nature Singapore Pte Ltd. 2022.
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    Differential molecular mechanistic behavior of HDACs in cancer progression
    (Springer, 2022-08-16T00:00:00) Singh, Tashvinder; Kaur, Prabhsimran; Singh, Paramdeep; Singh, Sandeep; Munshi, Anjana
    Genetic aberration including mutation in oncogenes and tumor suppressor genes transforms normal cells into tumor cells. Epigenetic modifications work concertedly with genetic factors in controlling cancer development. Histone acetyltransferases (HATs), histone deacetylases (HDACs), DNA methyltransferases (DNMTs) and chromatin structure modifier are prospective epigenetic regulators. Specifically, HDACs are histone modifiers regulating the expression of genes implicated in cell survival, growth, apoptosis, and metabolism. The majority of HDACs are highly upregulated in cancer, whereas some have a varied function and expression in cancer progression. Distinct HDACs have a positive and negative role in controlling cancer progression. HDACs are also significantly involved in tumor cells acquiring metastatic and angiogenic potential in order to withstand the anti-tumor microenvironment. HDACs� role in modulating metabolic genes has also been associated with tumor development and survival. This review highlights and discusses the molecular mechanisms of HDACs by which they regulate cell survival, apoptosis, metastasis, invasion, stemness potential, angiogenesis, and epithelial to mesenchymal transitions (EMT) in tumor cells. HDACs are the potential target for anti-cancer drug development and various inhibitors have been developed and FDA approved for a variety of cancers. The primary HDAC inhibitors with proven anti-cancer efficacy have also been highlighted in this review. � 2022, The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.
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    Long non-coding RNAs involved in different steps of cancer metastasis
    (Springer Science and Business Media Deutschland GmbH, 2022-02-04T00:00:00) Suman, P.; Chhichholiya, Y.; Kaur, P.; Ghosh, S.; Munshi, A.
    Non-proteincoding transcripts bearing 200 base pairs known as long non-coding RNAs (lncRNAs) play a role in a variety of molecular mechanisms, including cell differentiation, apoptosis and metastasis. Previous studies have suggested that frequently dysregulated lncRNAs play a crucial role in various aspects of cancer metastasis. Metastasis is the main leading cause of death in cancer. The role of lncRNAs in different stages of metastasis is the subject of this review. Based on in vitro and in vivo investigations on metastasis, we categorized lncRNAs into distinct stages of metastasis including angiogenesis, invasion, intravasation, survival in circulation, and extravasation. The involvement of lncRNAs in angiogenesis and invasion has been extensively studied. Here, we comprehensively discuss the role and functions of these lncRNAs with a particular focus on the molecular mechanisms. � 2022, The Author(s), under exclusive licence to Federaci�n de Sociedades Espa�olas de Oncolog�a (FESEO).
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    Let-7a induces metabolic reprogramming in breast cancer cells via targeting mitochondrial encoded ND4
    (BioMed Central Ltd, 2021-11-27T00:00:00) Sharma, Praveen; Sharma, Vibhuti; Ahluwalia, Tarunveer Singh; Dogra, Nilambra; Kumar, Santosh; Singh, Sandeep
    Background and objectives: MicroRNA (miRNA) that translocate from the nucleus to mitochondria are referred to as mitochondrial microRNA (mitomiR). Albeit mitomiRs have been shown to modulate gene expression, their functional impact within mitochondria is unknown. The main objective of this study is to investigate whether the mitochondrial genome is regulated by miR present inside the mitochondria. Methods and results: Here, we report mitomiR let-7a regulates mitochondrial transcription in breast cancer cells and reprogram the metabolism accordingly. These effects were mediated through the interaction of let-7a with mtDNA, as studied by RNA pull-down assays, altering the activity of Complex I in a cell line-specific manner. Our study, for the first time, identifies the role of mitomiR (let-7a) in regulating the mitochondrial genome by transcriptional repression and its contribution to regulating mitochondrial metabolism of breast cancer cells. Conclusion: These findings uncover a novel mechanism by which mitomiR regulates mitochondrial transcription. � 2021, The Author(s).