Senthamizharasi Manivasagam scite author profile

Cardiovascular diseases are the major health concern and the leading cause of death. Numerous studies have shown that oxidative stress stimuli have been incriminated in the pathogenesis of both acute and chronic heart disease. Though it is well known that bioflavonoids protect cells against reactive oxygen species (ROS)-induced damage, the molecular mechanisms involved are uncertain. Understanding the possible intracellular signaling pathways triggered by flavonoids will help to overcome the cardiac diseases resulting from oxidative stress. In the present study, we investigated whether naringenin (NGN) supplementation would improve the antioxidant defence under oxidative stress through the activation of Nrf2 signaling in cultured cardiomyoblast. NGN pretreatment significantly reduced stress-mediated apoptotic cell death and lipid peroxidation and showed increased level of reduced glutathione in H2O2-treated cardiomyoblast. In addition, NGN inhibited the production of NO and trigged the synthesis of antioxidant marker enzymes. Gene expression studies revealed that NGN upregulated the transcription of Akt and downregulated NF-κB and Caspase 3 genes. Notably, transcription of Nrf2 and its target genes was also upregulated. Taken together, the present study revealed that NGN elicits potent cytoprotective effect against oxidative stress by regulating Nrf2 and its target genes. In conclusion, the present work suggests that improving Nrf2 signaling by NGN supplementation would be a rational approach to facilitate ROS detoxification by augmenting both expression and activity of phase II detoxification enzymes for the alleviation of cardiac complications.

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Development of a Single-Cycle Infectious SARS-CoV-2 Virus Replicon Particle System for Use in Biosafety Level 2 Laboratories

Malicoat

Manivasagam

Zúñiga

et al. 2022

J Virol

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Research activities with infectious severe acute respiratory syndrome associated coronavirus 2 (SARS-CoV-2) are currently permitted only under biosafety level 3 (BSL3) containment. Here, we report the development of a single-cycle infectious SARS-CoV-2 virus replicon particle (VRP) system with a luciferase and green fluorescent protein (GFP) dual reporter that can be safely handled in BSL2 laboratories to study SARS-CoV-2 biology. The Spike (S) gene of SARS-CoV-2 encodes for the envelope glycoprotein, which is essential for mediating infection of new host cells. Through deletion and replacement of this essential S gene with a luciferase and GFP dual reporter, we have generated a conditional SARS-CoV-2 mutant (ΔS-VRP) that produces infectious particles only in cells expressing a viral envelope glycoprotein of choice. Interestingly, we observed more efficient production of infectious particles in cells expressing vesicular stomatitis virus (VSV) glycoprotein G (ΔS-VRP(G)) as compared to cells expressing other viral glycoproteins including S. We confirmed that infection from ΔS-VRP(G) is limited to a single round and can be neutralized by anti-VSV serum. In our studies with ΔS-VRP(G), we observed robust expression of both luciferase and GFP reporters in various human and murine cell types, demonstrating that a broad variety of cells can support intracellular replication of SARS-CoV-2. In addition, treatment of ΔS-VRP(G) infected cells with anti-CoV drugs remdesivir (nucleoside analog) or GC376 (CoV 3CL protease inhibitor) resulted in a robust decrease in both luciferase and GFP expression in a drug-dose and cell-type dependent manner. Taken together, we have developed a single-cycle infectious SARS-CoV-2 VRP system that serves as a versatile platform to study SARS-CoV-2 intracellular biology and to perform high throughput screening of antiviral drugs under BSL2 containment. Importance Due to the highly contagious nature of SARS-CoV-2 and the lack of immunity in the human population, research on SARS-CoV-2 has been restricted to biosafety level 3 laboratories. This has greatly limited participation of the broader scientific community in SARS-CoV-2 research and thus has hindered the development of vaccines and antiviral drugs. By deleting the essential Spike gene in the viral genome, we have developed a conditional mutant of SARS-CoV-2 with luciferase and fluorescent reporters, which can be safely used under biosafety level 2 conditions. Our single-cycle infectious SARS-CoV-2 virus replicon system can serve as a versatile platform to study SARS-CoV-2 intracellular biology and to perform high throughput screening of antiviral drugs under BSL2 containment.

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Diet with high content of advanced glycation end products induces systemic inflammation and weight gain in experimental mice: Protective role of curcumin and gallic acid

Rajan

Manivasagam

Dhanusu

et al. 2018

Food and Chemical Toxicology

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Host factor Rab11a is critical for efficient assembly of influenza A virus genomic segments

et al. 2021

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It is well documented that influenza A viruses selectively package 8 distinct viral ribonucleoprotein complexes (vRNPs) into each virion; however, the role of host factors in genome assembly is not completely understood. To evaluate the significance of cellular factors in genome assembly, we generated a reporter virus carrying a tetracysteine tag in the NP gene (NP-Tc virus) and assessed the dynamics of vRNP localization with cellular components by fluorescence microscopy. At early time points, vRNP complexes were preferentially exported to the MTOC; subsequently, vRNPs associated on vesicles positive for cellular factor Rab11a and formed distinct vRNP bundles that trafficked to the plasma membrane on microtubule networks. In Rab11a deficient cells, however, vRNP bundles were smaller in the cytoplasm with less co-localization between different vRNP segments. Furthermore, Rab11a deficiency increased the production of non-infectious particles with higher RNA copy number to PFU ratios, indicative of defects in specific genome assembly. These results indicate that Rab11a+ vesicles serve as hubs for the congregation of vRNP complexes and enable specific genome assembly through vRNP:vRNP interactions, revealing the importance of Rab11a as a critical host factor for influenza A virus genome assembly.

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Angiotensin II down-regulates natriuretic peptide receptor-A expression and guanylyl cyclase activity in H9c2 (2-1) cardiac myoblast cells: Role of ROS and NF-κB

et al. 2015

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Atrial natriuretic peptide (ANP)/natriuretic peptide receptor-A (NPR-A) system is suggested as an endogenous anti-hypertrophic protective mechanism of the heart. We have shown previously that Angiotensin II (ANG II), an effector molecule of renin-angiotensin-aldosterone system, down-regulates NPR-A expression and its activity in vivo rat heart. However, the underlying mechanism by which ANG II down-regulates NPR-A expression in the heart is not well understood. Hence, the present investigation was aimed to determine whether ANG II-stimulated reactive oxygen species (ROS) and NF-κB are involved in the down-regulation of NPR-A activity in H9c2 (2-1) cardiac myoblast cells. The H9c2 (2-1) cardiac myoblast cells were exposed to ANG II (10(-7) M for 20 h) with/or without blocker treatment (losartan-10 µM, N-acetyl cysteine (NAC)-10 mM and pyrrolidine dithiocarbamate (PDTC)-100 µM). On exposure, ANG II induced a significant decrease (P < 0.001) in the expression of Npr1 (coding for NPR-A) gene and NPR-A receptor-dependent guanylyl cyclase (GC) activity. The level of expression of proto-oncogenes (c-fos, c-myc, and c-jun) and natriuretic peptides (ANP and BNP) was increased in ANG II-treated cells when compared with control cells. Interestingly, ANG II-dependent repression of Npr1 gene expression and guanylyl cyclase (GC) activity was completely restored on treatment with losartan, while only a partial reversal was observed in NAC- and PDTC-co-treated cells. In conclusion, the results of this study suggest that ROS-mediated NF-κB activation mechanism is critically involved in the ANG II-mediated down-regulation of NPR-A expression and its GC activity.

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