Vijaya Pandit scite author profile

When a cell is damaged or altered without repair to its system, it usually dies. But if such damaged or unrepaired cells do not die and proliferate with uncontrolled growth; a mass of cancer cells develop. Cancer has a complex aetiology with multiple risk factors that involve the interplay between genetic and environmental influences. The redox dysregulation originates from metabolic alterations and it is dependent on mitogenic and survival signalling through reactive oxygen species. There is a delicate balance between the production and the destruction of reactive species; for this, we need to understand the role of redox homeostasis in cancer. So, the specific vulnerability of the malignant cells can be selectively targeted. This article will outline the redox homeostasis and the relationship between the disturbances in it and cancer. InTRoduCTIonRedox (reduction and oxidation) reactions are a family of reactions that are concerned with the transfer of electrons between molecules. Normally, the redox reactions ensure that the cells respond properly to endogenous and exogenous stimuli. During the cellular redox process, Reactive Species -Oxygen (ROS) and nitrogen (RNS)-are liberated as by-products. Lot of research has been directed to understand the beneficial and the deleterious effects of the reactive oxidizing molecules on the human body. An excess of these molecules is commonly referred to as 'Oxidative stress', which can lead to cell damage [1]. This may be one of the factors in the occurrence of many diseases like atherosclerosis, cataract, cardiovascular diseases, Alzheimer's, etc [2][3][4][5][6]. Efforts are also on to design strategies to overcome oxidative stress by using antioxidants.Reactive oxidizing molecules are the molecules with a strong oxidizing property. Free radicals, also called as radicals, are atoms which have unpaired electrons in their outer orbits. Because of this property, they are highly reactive. There are other molecules which lack free electrons in their outer orbits but are highly reactive. These molecules are called as non free radicals.Because of their high reactivities, the free and the non free radicals are collectively called as Reactive Species.Under the normal physiologic conditions, moderate levels of these reactive molecules allow their incorporation into the structure of the macromolecules in a reversible fashion. Such reversible oxidative modifications of lipids, proteins, or DNA play a crucial role in the physiologic processes such as the differentiation, maturation, and trafficking of the intracellular vesicles.ROS and RNS are formed under normal physiological conditions as the products of the cellular metabolism [7]. ROS can be (i) generated during UV light irradiation and by X-rays and gamma rays (ii) produced during metal catalyzed reactions (iii) present in Though many reactive molecules are formed in the body, the Reactive Oxygen Species (ROS) and the Reactive Nitrogen Species (RNS) are the Important ones [Table/ Fig-1]. A delicate balance between the...

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Antidiabetic, Lipid Normalizing, and Nephroprotective Actions of the Strawberry: A Potent Supplementary Fruit

Mandave

Khadke

Karandikar

et al. 2017

IJMS

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The study was designed to assess the effect of different strawberry extracts on glucose levels, lipid profiles, and oxidative stress in nicotinamide-streptozotocin (NIC-STZ) induced diabetic rats. The associated changes were evaluated through biochemical, molecular, and histological assays. Diabetes was induced by intraperitoneal injection of STZ to albino Wistar rats after treatment with nicotinamide. Aqueous, hydroalcoholic, and alcoholic strawberry extracts were administrated orally to diabetic rats. Treatment of strawberry extracts improved lipid profile, liver function, and serum creatinine and led to a significant increase in antioxidant status in diabetic rats. Real-time PCR expression analysis of genes from the liver of animals treated with strawberry extracts exhibited downregulation of several fatty acid synthesis genes, transcription factors, such as Sterol regulatory Element Binding Transcription factor (SREBP) and Nuclear Factor-κβ (NF-κβ), and inflammatory markers, like Interleukin 6 (IL6) and Tumor Necrosis Factor-α (TNF-α). Strawberry extracts also upregulated liver Peroxisome Proliferator Activated Receptor-γ (PPAR-γ). Histological examination confirmed the nephroprotective and β-cell regeneration/protection effects of strawberry extracts. The present study demonstrates several beneficial effects of strawberry extracts along with its probable mechanism of action.

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Vijaya Pandit

Perception of pharmacovigilance among doctors in a tertiary care hospital: Influence of an interventional lecture

Inappropriate prescribing in the elderly: A comparison of two validated screening tools

Antibiotic Prescribing Pattern in a Tertiary Level Neonatal Intensive Care Unit

Understanding Redox Homeostasis and Its Role in Cancer

Antidiabetic, Lipid Normalizing, and Nephroprotective Actions of the Strawberry: A Potent Supplementary Fruit

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