Nidhi Dwivedi scite author profile

Mediator, an important component of eukaryotic transcriptional machinery, is a huge multisubunit complex. Though the complex is known to be conserved across all the eukaryotic kingdoms, the evolutionary topology of its subunits has never been studied. In this study, we profiled disorder in the Mediator subunits of 146 eukaryotes belonging to three kingdoms viz., metazoans, plants and fungi, and attempted to find correlation between the evolution of Mediator complex and its disorder. Our analysis suggests that disorder in Mediator complex have played a crucial role in the evolutionary diversification of complexity of eukaryotic organisms. Conserved intrinsic disordered regions (IDRs) were identified in only six subunits in the three kingdoms whereas unique patterns of IDRs were identified in other Mediator subunits. Acquisition of novel molecular recognition features (MoRFs) through evolution of new subunits or through elongation of the existing subunits was evident in metazoans and plants. A new concept of ‘junction-MoRF’ has been introduced. Evolutionary link between CBP and Med15 has been provided which explain the evolution of extended-IDR in CBP from Med15 KIX-IDR junction-MoRF suggesting role of junction-MoRF in evolution and modulation of protein–protein interaction repertoire. This study can be informative and helpful in understanding the conserved and flexible nature of Mediator complex across eukaryotic kingdoms.

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Targeting the vasopressin type-2 receptor for renal cell carcinoma therapy

Sinha

Dwivedi

Tao

et al. 2019

Oncogene

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Arginine vasopressin (AVP) and its type-2 receptor (V2R) play an essential role in the regulation of salt and water homeostasis by the kidneys. V2R activation also stimulates proliferation of renal cell carcinoma (RCC) cell lines in vitro. The current studies investigated V2R expression and activity in human RCC tumors, and its role in RCC tumor growth. Examination of the cancer genome atlas (TCGA) database, and analysis of human RCC tumor tissue microarrays, cDNA arrays and tumor biopsy samples demonstrated V2R expression and activity in clear cell RCC (ccRCC). In vitro, V2R antagonists OPC31260 and Tolvaptan, or V2R gene silencing reduced wound closure and cell viability of 786-O and Caki-1 human ccRCC cell lines. Similarly in mouse xenograft models, Tolvaptan and OPC31260 decreased RCC tumor growth by reducing cell proliferation and angiogenesis, while increasing apoptosis. In contrast, the V2R agonist dDAVP significantly increased tumor growth. High intracellular cAMP levels and ERK1/2 activation were observed in human ccRCC tumors. In mouse tumors and Caki-1 cells, V2R agonists reduced Users may view, print, copy, and download text and data-mine the content in such documents, for the purposes of academic research, subject always to the full Conditions of use:

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Suprabasal expression of Ki-67 as a marker for the severity of oral epithelial dysplasia and oral squamous cell carcinoma

et al. 2013

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Background:Transition of the normal oral epithelium to dysplasia and to malignancy is featured by increased cell proliferation. To evaluate the hypothesis of distributional disturbances in proliferating and stem cells in oral epithelial dysplasia and oral squamous cell carcinoma (OSCC).Aim:To evaluate layer wise expression of Ki-67 in oral epithelial dysplasia and in OSCC.Materials and Methods:Thirty histologically confirmed cases of oral epithelial dysplasia, fifteen cases of OSCC and five cases of normal buccal mucosa were immunohistochemically examined and nuclear expression of Ki-67 was counted according to basal, parabasal, and suprabasal layers in epithelial dysplasia and number of positive cells per 100 cells in OSCC as labeling index (LI).Results:Suprabasal expression of Ki-67 increased according to the severity of epithelial dysplasia and the difference was statistically significant (P < 0.001). The mean Ki-67LI was 12.78 for low risk lesions, 28.68 for high risk lesions, 39.45 for OSCC and 13.6 for normal buccal mucosa.Conclusion:The results of the present study demonstrate the use of proliferative marker Ki-67 in assessing the severity of epithelial dysplasia. Suprabasal expression of Ki-67 provides an objective criteria for determining the severity of epithelial dysplasia and histological grading of OSCC.

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MiADMSA reverses impaired mitochondrial energy metabolism and neuronal apoptotic cell death after arsenic exposure in rats

Dwivedi

Mehta

Yadav

et al. 2011

Toxicology and Applied Pharmacology

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Tuning the intramolecular charge transfer (ICT) process in push–pull systems: effect of nitro groups

2016

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Concomitant exposure to arsenic and organophosphates on tissue oxidative stress in rats

Dwivedi

Flora

2011

Food and Chemical Toxicology

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Effects of combined exposure to dichlorvos and monocrotophos on blood and brain biochemical variables in rats

et al. 2009

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Dichlorvos (DDVP) and monocrotophos (MC) are systemic insecticides and known to produce cholinergic and non-cholinergic effects. Individual toxic effects of these chemicals are known but their combined effects have not been studied. We studied the effect of concomitant exposure to DDVP and MC on selected biochemical variables suggestive of liver damage, changes in whole brain biogenic amines levels, acetylcholinesterase (AchE) and monoamine oxidase (MAO) activities in rats. Female rats were exposed to DDVP (2.5 mg/kg subcutaneously) and MC (1.8 mg/kg oral) either individually or in combination for 4 weeks. We observed significant decrease in more pronounced depletion in norepinephrine (NE) and dopamine (DA) levels during co-exposure to DDVP and MC. Brain AChE activity increased and activity of MAO showed significant depletion on co-exposure to DDVP and MC. Brain glutathione (GSH) and oxidized glutathione (GSSG) ratio decreased significantly during exposure to DDVP or MC while co-exposure to these toxicants led to a more pronounced depletion of GSH: GSSG ratio. Serum aspartate amino transferase (AST) and alkaline phosphatase (ALP) activities increased significantly on exposure to MC suggesting liver injury, while DDVP alone had no effect on these variables. There were no effects of DDVP and MC exposure on haematological biochemical variables except for depletion in serum glucose level after MC exposure which was more pronounced DDVP + MC during co-exposure. It can be concluded that only moderate synergistic effects occur between MC and DDVP during co-exposure. A more detailed study with variable doses, prolonged exposure and alterations in different brain regions is recommended.

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A possible mechanism for combined arsenic and fluoride induced cellular and DNA damage in mice

et al. 2012

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Arsenic and fluoride are major contaminants of drinking water. Mechanisms of toxicity following individual exposure to arsenic or fluoride are well known. However, it is not explicit how combined exposure to arsenic and fluoride leads to cellular and/or DNA damage. The present study was planned to assess (i) oxidative stress during combined chronic exposure to arsenic and fluoride in drinking water, (ii) correlation of oxidative stress with cellular and DNA damage and (iii) mechanism of cellular damage using IR spectroscopy. Mice were exposed to arsenic and fluoride (50 ppm) either individually or in combination for 28 weeks. Arsenic or fluoride exposure individually led to a significant increase in reactive oxygen species (ROS) generation and associated oxidative stress in blood, liver and brain. Individual exposure to the two toxicants showed significant depletion of blood glutathione (GSH) and glucose 6-phosphate dehydrogenase (G6PD) activity, and single-stranded DNA damage using a comet assay in lymphocytes. We also observed an increase in the activity of ATPase, thiobarbituric acid reactive substance (TBARS) and a decreased, reduced and oxidized glutathione (GSH : GSSG) ratio in the liver and brain. Antioxidant enzymes like superoxide dismutase (SOD), catalase and glutathione peroxidase (GPx) were decreased and increased in liver and brain respectively. The changes were more pronounced in liver compared to brain suggesting liver to be more susceptible to the toxic effects of arsenic and fluoride. Interestingly, combined exposure to arsenic and fluoride resulted in less pronounced toxic effects compared to their individual effects based on biochemical variables, IR spectra, DNA damage (TUNEL and comet assays) and histopathological observations. IR spectra suggested that arsenic or fluoride perturbs the strength of protein and amide groups; however, the shifts in peaks were not pronounced during combined exposure. These results thus highlight the role of arsenic- or fluoride-induced oxidative stress, DNA damage and protein interaction as the major determinants of toxicity, along with the differential toxic effects during arsenic-fluoride interaction during co-exposure. The study further corroborates our earlier observations that at the higher concentration co-exposures to these toxicants do not elicit synergistic toxicity.

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Nidhi Dwivedi

Evolution of disorder in Mediator complex and its functional relevance

Targeting the vasopressin type-2 receptor for renal cell carcinoma therapy

Suprabasal expression of Ki-67 as a marker for the severity of oral epithelial dysplasia and oral squamous cell carcinoma

MiADMSA reverses impaired mitochondrial energy metabolism and neuronal apoptotic cell death after arsenic exposure in rats

Tuning the intramolecular charge transfer (ICT) process in push–pull systems: effect of nitro groups

Concomitant exposure to arsenic and organophosphates on tissue oxidative stress in rats

Effects of combined exposure to dichlorvos and monocrotophos on blood and brain biochemical variables in rats

A possible mechanism for combined arsenic and fluoride induced cellular and DNA damage in mice

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