Department Of Microbiology

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Author: search.filters.author.Dhiman, Monisha

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    Understanding the multifaceted role of miRNAs in Alzheimer�s disease pathology
    (Springer, 2023-07-28T00:00:00) Kaur, Sharanjot; Verma, Harkomal; Kaur, Sukhchain; Gangwar, Prabhakar; Yadav, Anuradha; Yadav, Bharti; Rao, Rashmi; Dhiman, Monisha; Mantha, Anil Kumar
    Small non-coding RNAs (miRNAs) regulate gene expression by binding to mRNA and mediating its degradation or inhibiting translation. Since miRNAs can regulate the expression of several genes, they have multiple roles to play in biological processes and human diseases. The majority of miRNAs are known to be expressed in the brain and are involved in synaptic functions, thus marking their presence and role in major neurodegenerative disorders, including Alzheimer�s disease (AD). In AD, amyloid beta (A?) plaques and neurofibrillary tangles (NFTs) are known to be the major hallmarks. The clearance of A? and tau is known to be associated with miRNA dysregulation. In addition, the ?-site APP cleaving enzyme (BACE 1), which cleaves APP to form A?, is also found to be regulated by miRNAs, thus directly affecting A? accumulation. Growing evidences suggest that neuroinflammation can be an initial event in AD pathology, and miRNAs have been linked with the regulation of neuroinflammation. Inflammatory disorders have also been associated with AD pathology, and exosomes associated with miRNAs are known to regulate brain inflammation, suggesting for the role of systemic miRNAs in AD pathology. Several miRNAs have been related in AD, years before the clinical symptoms appear, most of which are associated with regulating the cell cycle, immune system, stress responses, cellular senescence, nerve growth factor (NGF)�signaling, and synaptic regulation. Phytochemicals, especially polyphenols, alter the expression of various miRNAs by binding to miRNAs or binding to the transcriptional activators of miRNAs, thus control/alter various metabolic pathways. Awing to the sundry biological processes being regulated by miRNAs in the brain and regulation of expression of miRNAs via phytochemicals, miRNAs and the regulatory bioactive phytochemicals can serve as therapeutic agents in the treatment and management of AD. � 2023, The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.
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    Gliadin induced oxidative stress and altered cellular responses in human intestinal cells: An in-vitro study to understand the cross-talk between the transcription factor Nrf-2 and multifunctional APE1 enzyme
    (John Wiley and Sons Inc, 2022-05-09T00:00:00) Gupta, Kunj Bihari; Dhiman, Monisha; Mantha, Anil Kumar
    The present study examined the wheat protein gliadin-induced oxidative and nitrosative stress and its downstream responses in human intestinal HCT-116 and HT-29 cells. The beneficial role of dietary phytochemical curcumin and role of multifunctional enzyme Apurinic/aprymidinic endonuclease 1 (APE1) a major player involved in the base excision repair (BER)-pathway in gliadin intolerant intestinal HCT-116 and HT-29 cell lines were evaluated as an in vitro model study. The cultured cells were exposed to gliadin protein, H2O2, and curcumin followed by the assessment of oxidative stress and the consequences were measured using spectrophotometric, PCR, flow cytometer, Western blotting, confocal microscopy, and other methods. Results demonstrate that a 3 h pretreatment of curcumin, followed by the treatment of gliadin protein for 24 h time period protected both the HCT-116 and HT-29 cells via: (i) decreasing the ROS/RNS, restoring the mitochondrial transmembrane potential; (ii) re-establishing the cellular antioxidant defense system (superoxide dismutase, catalase, and GSH); (iii) enhancing the functions of APE1 viz. endonuclease activity and redox activation of transcription factor Nrf-2, the later binds with the antioxidant response elements (ARE) and activates downstream targets involved in cell survival. The cross-talk between APE1 and Nrf-2 was also established using immunofluorescence imaging and co-immunoprecipitation assays. In conclusion, gliadin protein induces oxidative/nitrosative stress, mitochondrial dysfunction and it damages cellular biomolecules in the intestinal cells. Hence it can be attributed to the tissue damage and disease pathogenesis in wheat intolerance-associated intestinal diseases. The gliadin-induced stress and its consequences are significantly reduced by the pretreatment of curcumin via BER-pathway and ARE-pathway; which is evident through the interaction between these two essential proteins. Hence suggesting for the intervention of curcumin and other natural dietary phytochemicals-based disease management and treatment of gliadin intolerance associated intestinal diseases like celiac disease. � 2022 Wiley Periodicals LLC.
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    Correlative study on heavy metal-induced oxidative stress and hypertension among the rural population of Malwa Region of Punjab, India
    (Springer Science and Business Media Deutschland GmbH, 2022-07-26T00:00:00) Kaur, Sukhchain; Garg, Neha; Rubal, Rubal; Dhiman, Monisha
    Heavy metal-induced toxicity contributes to the progression of various metabolic disorders and possible mechanisms involved in disease progression are not well established. In this study, the correlation of heavy metal exposure and hypertension have been demonstrated. The results showed that in hypertensive subjects, the lipid profiles (triglycerides, LDL-C, HDL-C, and total cholesterol) and cardiac markers (CK-MB and LDH) were altered abruptly. As a consequence of heavy- induced oxidative stress, the oxidants (TBARS and protein carbonyls) and antioxidants (SOD, GSH, and TAC) were significantly increased and decreased, respectively in hypertension�subjects. The concentrations of heavy metals (Pb, Cd, and As) exceeded the permissible limits in hypertensive subjects. The Nrf-2 genotyping indicated that heavy metals may induce mutations at molecular level. The results of correlation analysis revealed that�the heavy metals interact with cellular components and interfere with metabolic processes which then�results in disturbed lipid profile, enhanced oxidative stress, and reduced antioxidant status. The current study systematically estimated the association of hair and nail heavy metal concentrations with hypertension among the population residing in the Malwa region of Punjab. The proposed study highlighted that heavy metals act as a silent risk factor in the hypertension progression in the population of Malwa region. Future studies are required to confirm current findings and further scrutinize the effect of heavy metals exposure in early adulthood, early, and late mid-life to develop metabolic complications such as hypertension. � 2022, The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.
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    Methods to Assess Oxidative DNA Base Damage Repair of Apurinic/Apyrimidinic (AP) Sites Using Radioactive and Nonradioactive Oligonucleotide-Based Assays
    (NLM (Medline), 2022-01-19T00:00:00) Gupta, Kunj Bihari; Kaur, Sharanjot; Dhiman, Monisha; Mantha, Anil Kumar
    Reactive oxygen species (ROS) overproduction results in oxidative stress leading to genomic instability via the generation of small base lesions in the genome, and this unrepaired DNA base damage leads to various cellular consequences. The oxidative stress-mediated DNA base damage is involved in various human disorders like cancer, cardiovascular, ocular, and neurodegenerative diseases. Base excision repair (BER) pathway, one of the DNA repair pathways, is majorly involved in the repair of oxidative DNA base lesions, which utilizes a different set of enzymes, including endonuclease viz Apurinic/apyrimidinic endonuclease 1 (APE1). APE1 is a well-known multifunctional enzyme with DNA repair, REDOX regulatory, and protein-protein interaction/cross-talk functions associated with the cell survival mechanisms. APE1 acts as an important player in both normal and cancerous cell survival; thus, evaluating its endonuclease activity in the biological samples provide useful readout of the DNA repair capacity/ability, which can be used to tune for the development of therapeutic candidates via either stimulating or blocking its DNA repair function in normal vs. cancer cells, respectively. This chapter enlists two methods used for the determination of APE1's endonuclease activity by oligonucleotide-based radioactive P32-labeled and nonradioactive fluorescence dyes using the cell extracts and recombinant APE1 protein. � 2022. Springer Science+Business Media, LLC, part of Springer Nature.
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    New pentacyclic triterpene from Potentilla atrosanguinea Lodd. as anticancer agent for breast cancer targeting estrogen receptor-?
    (Taylor and Francis Ltd., 2021-10-04T00:00:00) Kumar, Amit; Gupta, Kunj Bihari; Dhiman, Monisha; Arora, Saroj; Jaitak, Vikas
    One new (compound 3) along with two previously known ursane type triterpenoids (compounds 1 and 2) were purified by chromatographic techniques from ethyl acetate extract of aerial parts of Potentilla atrosanguniea and characterized by HRMS, 1 D and 2 D-NMR. Compounds 1 (ursolic acid), 2 (euscaphic acid) and 3 (3?,20?-dihydroxy 2-oxo-urs-12-en-28-oic acid) were tested for their antiproliferative activity along with standard bazedoxifene. Compounds 1 and 3 were found to be of higher activity (3.71 and 6.05 ?g/mL) as compared to compound 2 and bazedoxifene (IC50: 24.53 and 17.87 ?g/mL). Anti-estrogenic activity of three compounds on breast cancer (BC) were studied in vitro by accessing their antiproliferative activity and binding with estrogen receptor alpha (ER-?). All three compounds have effective binding affinity towards ER-? and decreased cell growth by downregulating the expression of mRNA and its translational protein as tested by semi-qRT-PCR and western blotting. In terms of effectiveness compounds 1 and 3 were found more active due to their antiproliferative, and antiestrogenic activity as compared to standard bazedoxifene. � 2021 Informa UK Limited, trading as Taylor & Francis Group.
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    Brain Exosomes: Friend or Foe in Alzheimer�s Disease?
    (Springer, 2021-09-30T00:00:00) Kaur, Sharanjot; Verma, Harkomal; Dhiman, Monisha; Tell, Gianluca; Gigli, Gian Luigi; Janes, Francesco; Mantha, Anil K.
    Alzheimer�s disease (AD) is the most common neurodegenerative disease. It is known to be a multifactorial disease and several causes are associated with its occurrence as well as progression. However, the accumulation of amyloid beta (A?) is widely considered its major pathogenic hallmark. Additionally, neurofibrillary tangles (NFT), mitochondrial dysfunction, oxidative stress, and aging (cellular senescence) are considered as additional hits affecting the disease pathology. Several studies are now suggesting important role of inflammation in AD, which shifts our thought towards the brain�s resident immune cells, microglia, and astrocytes; how they interact with neurons; and how these interactions are affected by intra and extracellular stressful factors. These interactions can be modulated by different mechanisms and pathways, in which exosomes could play an important role. Exosomes are multivesicular bodies secreted by nearly all types of cells. The exosomes secreted by glial cells or neurons affect the interactions and thus the physiology of these cells by transmitting miRNAs, proteins, and lipids. Exosomes can serve as a friend or foe to the neuron function, depending upon the carried signals. Exosomes, from the healthy microenvironment, may assist neuron function and health, whereas, from the stressed microenvironment, they carry oxidative and inflammatory signals to the neurons and thus prove detrimental to the neuronal function. Furthermore, exosomes can cross the blood�brain barrier (BBB), and from the blood plasma they can enter the brain cells and activate microglia and astrocytes. Exosomes can transport A? or Tau, cytokines, miRNAs between the cells, and alter the physiology of recipient cells. They can also assist in A? clearance and regulation of synaptic activity. The exosomes derived from different cells play different roles, and this field is still in its infancy stage. This review advocates exosomes� role as a friend or foe in neurodegenerative diseases, especially in the case of Alzheimer�s disease. � 2021, The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.
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    Organophosphate-pesticides induced survival mechanisms and APE1-mediated Nrf2 regulation in non-small-cell lung cancer cells
    (John Wiley and Sons Inc, 2020-10-20T00:00:00) Thakur, Shweta; Sarkar, Bibekananda; Dhiman, Monisha; Mantha, Anil K.
    Epidemiological and molecular studies have indicated that environmental exposure to organophosphate pesticides (OPPs) is associated with increased cancer risk; however, the underlying molecular mechanisms still need to be explained. Increasing cancer incidence is linked�to OPPs-induced oxidative stress (OS). Our study evaluates monocrotophos (MCP) and chlorpyrifos (CP)-induced OS responses and apurinic/apyrimidinic endonuclease 1 (APE1) role in human non-small-cell lung cancer (NSCLC) cells. Our prior study has implicated OPPs-induced base excision repair (BER)-pathway dysregulation and APE1-mediated regulation of transcription factor (TF) c-jun in A549 cells. We further investigated the effects of MCP and CP on apoptosis, proliferation, and APE1's redox-regulation of nuclear factor-like 2 (Nrf2). Data demonstrates that MCP and CP at subtoxic concentrations induced reactive oxygen species generation and oxidative DNA base damage 8-oxo-dG lesions in NCI-H1299 cells. CP moderately upregulated�the apoptosis-inducing factor (AIF) in A549 cells, however, it did not trigger other pro-apoptotic factors viz. caspase-9 and caspase-3, suggesting early caspase-independent apoptosis. However, dose-dependent AIF-downregulation was observed for MCP treatment. Furthermore, CP and MCP treatments upregulated proliferating cell nuclear antigen levels. Immunofluorescent confocal imaging showed the colocalization of APE1 with Nrf2 in 10 �M CP- and MCP-treated NCI-H1299 cells. Immunoprecipitation confirmed that APE1 and Nrf2 physically interacted, indicating the role of APE1-mediated Nrf2 activation following OPPs treatment. This study suggests that low concentration MCP and CP exposure generates OS along with DNA damage, and modulates apoptosis, and APE1-mediated Nrf2 activation, which might be considered as the possible mechanism promoting lung cancer cell survival, suggesting that APE1 may have the potential to become a therapeutic target for the treatment of NSCLC. � 2020 Wiley Periodicals LLC
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    A short review on cross-link between pyruvate kinase (PKM2) and Glioblastoma Multiforme
    (Springer, 2021-03-02T00:00:00) Verma, Harkomal; Cholia, Ravi P.; Kaur, Sharanjot; Dhiman, Monisha; Mantha, Anil K.
    Pyruvate kinase (PK) catalyzes the last irreversible reaction of glycolysis pathway, generating pyruvate and ATP, from Phosphoenol Pyruvate (PEP) and ADP precursors. In mammals, four different tissue-specific isoforms (M1, M2, L and R) of PK exist, which are translated from two genes (PKL and PKR). PKM2 is the highly expressed isoform of PK in cancers, which regulates the aerobic glycolysis via reprogramming cancer cell�s metabolic pathways�to provide an anabolic�advantage to the tumor cells. In addition to the established role of PKM2 in aerobic glycolysis of multiple cancer types, various recent findings have highlighted the non-metabolic functions of PKM2 in brain tumor development. Nuclear PKM2 acts as a co-activator and directly regulates gene transcription. PKM2 dependent transactivation of various oncogenic genes is instrumental in the progression and aggressiveness of Glioblastoma Multiforme (GBM). Also, PKM2 acts as a protein kinase in histone modification which regulates gene expression and tumorigenesis. Ongoing research has explored novel regulatory mechanisms of PKM2 and its association in GBM progression. This review enlists and summarizes the metabolic and non-metabolic roles of PKM2 at the cellular level, and its regulatory function highlights the importance of the nuclear functions of PKM2 in GBM progression, and an emerging role of PKM2 as novel cancer therapeutics. � 2021, The Author(s), under exclusive licence to Springer Science+Business Media, LLC part of Springer Nature.
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    Understanding the multifaceted role of miRNAs in Alzheimer�s disease pathology
    (Springer, 2023-07-28T00:00:00) Kaur, Sharanjot; Verma, Harkomal; Kaur, Sukhchain; Gangwar, Prabhakar; Yadav, Anuradha; Yadav, Bharti; Rao, Rashmi; Dhiman, Monisha; Mantha, Anil Kumar
    Small non-coding RNAs (miRNAs) regulate gene expression by binding to mRNA and mediating its degradation or inhibiting translation. Since miRNAs can regulate the expression of several genes, they have multiple roles to play in biological processes and human diseases. The majority of miRNAs are known to be expressed in the brain and are involved in synaptic functions, thus marking their presence and role in major neurodegenerative disorders, including Alzheimer�s disease (AD). In AD, amyloid beta (A?) plaques and neurofibrillary tangles (NFTs) are known to be the major hallmarks. The clearance of A? and tau is known to be associated with miRNA dysregulation. In addition, the ?-site APP cleaving enzyme (BACE 1), which cleaves APP to form A?, is also found to be regulated by miRNAs, thus directly affecting A? accumulation. Growing evidences suggest that neuroinflammation can be an initial event in AD pathology, and miRNAs have been linked with the regulation of neuroinflammation. Inflammatory disorders have also been associated with AD pathology, and exosomes associated with miRNAs are known to regulate brain inflammation, suggesting for the role of systemic miRNAs in AD pathology. Several miRNAs have been related in AD, years before the clinical symptoms appear, most of which are associated with regulating the cell cycle, immune system, stress responses, cellular senescence, nerve growth factor (NGF)�signaling, and synaptic regulation. Phytochemicals, especially polyphenols, alter the expression of various miRNAs by binding to miRNAs or binding to the transcriptional activators of miRNAs, thus control/alter various metabolic pathways. Awing to the sundry biological processes being regulated by miRNAs in the brain and regulation of expression of miRNAs via phytochemicals, miRNAs and the regulatory bioactive phytochemicals can serve as therapeutic agents in the treatment and management of AD. � 2023, The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.
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    Correlative study on heavy metal-induced oxidative stress and hypertension among the rural population of Malwa Region of Punjab, India
    (Springer Science and Business Media Deutschland GmbH, 2022-07-26T00:00:00) Kaur, Sukhchain; Garg, Neha; Rubal, Rubal; Dhiman, Monisha
    Heavy metal-induced toxicity contributes to the progression of various metabolic disorders and possible mechanisms involved in disease progression are not well established. In this study, the correlation of heavy metal exposure and hypertension have been demonstrated. The results showed that in hypertensive subjects, the lipid profiles (triglycerides, LDL-C, HDL-C, and total cholesterol) and cardiac markers (CK-MB and LDH) were altered abruptly. As a consequence of heavy- induced oxidative stress, the oxidants (TBARS and protein carbonyls) and antioxidants (SOD, GSH, and TAC) were significantly increased and decreased, respectively in hypertension�subjects. The concentrations of heavy metals (Pb, Cd, and As) exceeded the permissible limits in hypertensive subjects. The Nrf-2 genotyping indicated that heavy metals may induce mutations at molecular level. The results of correlation analysis revealed that�the heavy metals interact with cellular components and interfere with metabolic processes which then�results in disturbed lipid profile, enhanced oxidative stress, and reduced antioxidant status. The current study systematically estimated the association of hair and nail heavy metal concentrations with hypertension among the population residing in the Malwa region of Punjab. The proposed study highlighted that heavy metals act as a silent risk factor in the hypertension progression in the population of Malwa region. Future studies are required to confirm current findings and further scrutinize the effect of heavy metals exposure in early adulthood, early, and late mid-life to develop metabolic complications such as hypertension. � 2022, The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.