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1. SARS-CoV-2 aberrantly elevates mitochondrial bioenergetics to induce robust virus propagation

Author

Shin, Hye Jin, Lee, Wooseong, Ku, Keun Bon, Yoon, Gun Young, Moon, Hyun-Woo, Kim, Chonsaeng, Kim, Mi-Hwa, Yi, Yoon-Sun, Jun, Sangmi, Kim, Bum-Tae, Oh, Jong-Won, Siddiqui, Aleem, and Kim, Seong-Jun

Subjects
Biochemistry and Cell Biology, Biological Sciences, Coronaviruses, Infectious Diseases, Coronaviruses Therapeutics and Interventions, Lung, Emerging Infectious Diseases, 2.1 Biological and endogenous factors, Infection, Good Health and Well Being, SARS-CoV-2, Mitochondria, Humans, Animals, Mice, COVID-19, ErbB Receptors, Virus Replication, Energy Metabolism, Vero Cells, Chlorocebus aethiops, Antiviral Agents, COVID-19 Drug Treatment, Membrane Potential, Mitochondrial, Oxidative Phosphorylation, Signal Transduction
Abstract

Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) is a 'highly transmissible respiratory pathogen, leading to severe multi-organ damage. However, knowledge regarding SARS-CoV-2-induced cellular alterations is limited. In this study, we report that SARS-CoV-2 aberrantly elevates mitochondrial bioenergetics and activates the EGFR-mediated cell survival signal cascade during the early stage of viral infection. SARS-CoV-2 causes an increase in mitochondrial transmembrane potential via the SARS-CoV-2 RNA-nucleocapsid cluster, thereby abnormally promoting mitochondrial elongation and the OXPHOS process, followed by enhancing ATP production. Furthermore, SARS-CoV-2 activates the EGFR signal cascade and subsequently induces mitochondrial EGFR trafficking, contributing to abnormal OXPHOS process and viral propagation. Approved EGFR inhibitors remarkably reduce SARS-CoV-2 propagation, among which vandetanib exhibits the highest antiviral efficacy. Treatment of SARS-CoV-2-infected cells with vandetanib decreases SARS-CoV-2-induced EGFR trafficking to the mitochondria and restores SARS-CoV-2-induced aberrant elevation in OXPHOS process and ATP generation, thereby resulting in the reduction of SARS-CoV-2 propagation. Furthermore, oral administration of vandetanib to SARS-CoV-2-infected hACE2 transgenic mice reduces SARS-CoV-2 propagation in lung tissue and mitigates SARS-CoV-2-induced lung inflammation. Vandetanib also exhibits potent antiviral activity against various SARS-CoV-2 variants of concern, including alpha, beta, delta and omicron, in in vitro cell culture experiments. Taken together, our findings provide novel insight into SARS-CoV-2-induced alterations in mitochondrial dynamics and EGFR trafficking during the early stage of viral infection and their roles in robust SARS-CoV-2 propagation, suggesting that EGFR is an attractive host target for combating COVID-19.

Published
2024

9. HBV‐Induced Increased N6 Methyladenosine Modification of PTEN RNA Affects Innate Immunity and Contributes to HCC

Author

Kim, Geon‐Woo, Imam, Hasan, Khan, Mohsin, Mir, Saiful Anam, Kim, Seong‐Jun, Yoon, Seung Kew, Hur, Wonhee, and Siddiqui, Aleem

Subjects
Infectious Diseases, Cancer, Rare Diseases, Genetics, Liver Cancer, Hepatitis - B, Digestive Diseases, Chronic Liver Disease and Cirrhosis, Hepatitis, Liver Disease, Aetiology, 2.1 Biological and endogenous factors, Good Health and Well Being, Adenosine, Biopsy, Carcinogenesis, Carcinoma, Hepatocellular, DNA Methylation, Epigenesis, Genetic, Gene Expression Regulation, Neoplastic, Hep G2 Cells, Hepatitis B virus, Hepatitis B, Chronic, Humans, Immunity, Innate, Interferon Regulatory Factor-3, Liver, Liver Neoplasms, PTEN Phosphohydrolase, Phosphorylation, RNA Stability, RNA, Messenger, Tumor Escape, Medical Biochemistry and Metabolomics, Clinical Sciences, Immunology, Gastroenterology & Hepatology
Abstract

Background and aimsEpitranscriptomic modification of RNA has emerged as the most prevalent form of regulation of gene expression that affects development, differentiation, metabolism, viral infections, and most notably cancer. We have previously shown that hepatitis B virus (HBV) transcripts are modified by N6 methyladenosine (m6 A) addition. HBV also affects m6 A modification of several host RNAs, including phosphatase and tensin homolog (PTEN), a well-known tumor suppressor. PTEN plays a critical role in antiviral innate immunity and the development of hepatocellular carcinoma (HCC). Reports have shown that PTEN controlled interferon regulatory factor 3 (IRF-3) nuclear localization by negative phosphorylation of IRF-3 at Ser97, and PTEN reduced carcinogenesis by inhibiting the phosphatidylinositol-3-kinase (PI3K)/AKT pathway.Approach and resultsHere, we show that HBV significantly increases the m6 A modification of PTEN RNA, which contributes to its instability with a corresponding decrease in PTEN protein levels. This is reversed in cells in which the expression of m6 A methyltransferases is silenced. PTEN expression directly increases activated IRF-3 nuclear import and subsequent interferon synthesis. In the absence of PTEN, IRF-3 dephosphorylation at the Ser97 site is decreased and interferon synthesis is crippled. In chronic HBV patient biopsy samples, m6 A-modified PTEN mRNA levels were uniformly up-regulated with a concomitant decrease of PTEN mRNA levels. HBV gene expression also activated the PI3K/AKT pathway by regulating PTEN mRNA stability in HCC cell lines.ConclusionsThe m6 A epitranscriptomic regulation of PTEN by HBV affects innate immunity by inhibiting IRF-3 nuclear import and the development of HCC by activating the PI3K/AKT pathway. Our studies collectively provide new insights into the mechanisms of HBV-directed immune evasion and HBV-associated hepatocarcinogenesis through m6 A modification of the host PTEN mRNAs.

Published
2021

19. N6-methyladenosine modification of hepatitis B virus RNA differentially regulates the viral life cycle

Author

Imam, Hasan, Khan, Mohsin, Gokhale, Nandan S, McIntyre, Alexa BR, Kim, Geon-Woo, Jang, Jae Young, Kim, Seong-Jun, Mason, Christopher E, Horner, Stacy M, and Siddiqui, Aleem

Subjects
Liver Disease, Stem Cell Research, Hepatitis - B, Infectious Diseases, Digestive Diseases, Chronic Liver Disease and Cirrhosis, Genetics, Hepatitis, Infection, Good Health and Well Being, Adenosine, Gene Expression Regulation, Viral, Hep G2 Cells, Hepatitis B virus, Humans, Nucleic Acid Conformation, RNA Stability, RNA, Viral, Reverse Transcription, Viral Proteins, hepatitis B virus, RNA methylation, HBV reverse transcription, epsilon loop
Abstract

N6-methyladenosine (m6A) RNA methylation is the most abundant epitranscriptomic modification of eukaryotic messenger RNAs (mRNAs). Previous reports have found m6A on both cellular and viral transcripts and defined its role in regulating numerous biological processes, including viral infection. Here, we show that m6A and its associated machinery regulate the life cycle of hepatitis B virus (HBV). HBV is a DNA virus that completes its life cycle via an RNA intermediate, termed pregenomic RNA (pgRNA). Silencing of enzymes that catalyze the addition of m6A to RNA resulted in increased HBV protein expression, but overall reduced reverse transcription of the pgRNA. We mapped the m6A site in the HBV RNA and found that a conserved m6A consensus motif situated within the epsilon stem loop structure, is the site for m6A modification. The epsilon stem loop is located in the 3' terminus of all HBV mRNAs and at both the 5' and 3' termini of the pgRNA. Mutational analysis of the identified m6A site in the 5' epsilon stem loop of pgRNA revealed that m6A at this site is required for efficient reverse transcription of pgRNA, while m6A methylation of the 3' epsilon stem loop results in destabilization of all HBV transcripts, suggesting that m6A has dual regulatory function for HBV RNA. Overall, this study reveals molecular insights into how m6A regulates HBV gene expression and reverse transcription, leading to an increased level of understanding of the HBV life cycle.

Published
2018

20. The essential role of mitochondrial dynamics in antiviral immunity

Author

Kim, Seong-Jun, Ahn, Dae-Gyun, Syed, Gulam H, and Siddiqui, Aleem

Subjects
Biochemistry and Cell Biology, Biological Sciences, Emerging Infectious Diseases, Infectious Diseases, 2.2 Factors relating to the physical environment, 1.1 Normal biological development and functioning, Aetiology, Underpinning research, Infection, Inflammatory and immune system, Animals, Antiviral Agents, Host-Pathogen Interactions, Humans, Immune Evasion, Immunity, Innate, Mitochondria, Mitochondrial Dynamics, Signal Transduction, Viruses, Genetics, Biochemistry & Molecular Biology, Biochemistry and cell biology
Abstract

Viruses alter cellular physiology and function to establish cellular environment conducive for viral proliferation. Viral immune evasion is an essential aspect of viral persistence and proliferation. The multifaceted mitochondria play a central role in many cellular events such as metabolism, bioenergetics, cell death, and innate immune signaling. Recent findings accentuate that viruses regulate mitochondrial function and dynamics to facilitate viral proliferation. In this review, we will discuss how viruses exploit mitochondrial dynamics to modulate mitochondria-mediated antiviral innate immune response during infection. This review will provide new insight to understanding the virus-mediated alteration of mitochondrial dynamics and functions to perturb host antiviral immune signaling.

Published
2018

22. Electrically tunable metasurface by using InAs in a metal–insulator–metal configuration

Author

Park Junghyun, Kim Seong Jun, Sorger Volker J., and Kim Soo Jin

Subjects
inas, metasurface, optical modulator, surface plasmonics, wavefront shaping, Physics, QC1-999
Abstract

The ability of modulating optical properties at a lateral subwavelength scale is of crucial importance due to its potential applications for wide-angle holographic displays, optical communications, and interferometric sensors. Here, we present an electrically tunable metasurface whose optical properties can be element-wise controlled at the lateral subwavelength scale in the mid-infrared wavelength regime. Our proposed device facilitates an n-doped InAs layer as a dynamic-tunable layer, and the charge carrier concentration inside the InAs layer is tailored by external gate biases. This InAs active layer is sandwiched between top aluminum strip antennas and a bottom gold substrate, forming the metal–insulator–metal configuration. The change of the charge carrier concentration gives rise to modulation of the amplitude and phase of reflected light in a mid-infrared regime. Numerical investigations show the reflectivity contrast of 44%P with biases of −2.5–0 V and the phase change of 236° with biases of −15 V to +15 V at the wavelength of ∼5 μm. Versatile wavefront shaping such as beam focusing with Fresnel Zone plate and beam steering with saw-tooth phase grating is also provided.

Published
2022
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23. Optimal Sensor Positioning (OSP); A Probability Perspective Study

Author

Kim, Seong Jun, Kang, Sung Ha, and Zhou, Haomin

Subjects
Mathematics - Optimization and Control
Abstract

We propose a method to optimally position a sensor system, which consists of multiple sensors, each has limited range and viewing angle, and they may fail with a certain failure rate. The goal is to find the optimal locations as well as the viewing directions of all the sensors and achieve the maximal surveillance of the known environment. We setup the problem using the level set framework. Both the environment and the viewing range of the sensors are represented by level set functions. Then we solve a system of ordinary differential equations (ODEs) to find the optimal viewing directions and locations of all sensors together. Furthermore, we use the intermittent diffusion, which converts the ODEs into stochastic differential equations (SDEs), to find the global maximum of the total surveillance area. The numerical examples include various failure rates of sensors, different rate of importance of surveillance region, and 3-D setups. They show the effectiveness of the proposed method.

Published
2016

24. Ocular tropism of SARS-CoV-2 in animal models with retinal inflammation via neuronal invasion following intranasal inoculation

Author

Jeong, Gi Uk, Kwon, Hyung-Jun, Ng, Wern Hann, Liu, Xiang, Moon, Hyun Woo, Yoon, Gun Young, Shin, Hye Jin, Lee, In-Chul, Ling, Zheng Lung, Spiteri, Alanna G., King, Nicholas J. C., Taylor, Adam, Chae, Ji Soo, Kim, Chonsaeng, Ahn, Dae-Gyun, Kim, Kyun-Do, Ryu, Young Bae, Kim, Seong-Jun, Mahalingam, Suresh, and Kwon, Young-Chan

Published
2022
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25. Ginsenoside Rg3 restores hepatitis C virus–induced aberrant mitochondrial dynamics and inhibits virus propagation

Author

Kim, Seong‐Jun, Jang, Jae Young, Kim, Eun‐Jung, Cho, Eun Kyung, Ahn, Dae‐Gyun, Kim, Chonsaeng, Park, Han Seul, Jeong, Soung Won, Lee, Sae Hwan, Kim, Sang Gyune, Kim, Young Seok, Kim, Hong Soo, Kim, Boo Sung, Lee, Jihyung, and Siddiqui, Aleem

Subjects
Medical Microbiology, Biomedical and Clinical Sciences, Infectious Diseases, Hepatitis, Hepatitis - C, Chronic Liver Disease and Cirrhosis, Liver Disease, Digestive Diseases, Emerging Infectious Diseases, 5.1 Pharmaceuticals, Development of treatments and therapeutic interventions, Infection, Good Health and Well Being, Biopsy, Needle, Blotting, Western, Cell Survival, Cells, Cultured, Fluorescent Antibody Technique, Ginsenosides, Hepacivirus, Hepatitis C, Chronic, Humans, Immunity, Innate, Immunohistochemistry, Mitochondria, Liver, Mitochondrial Dynamics, Real-Time Polymerase Chain Reaction, Sampling Studies, Virus Replication, Medical Biochemistry and Metabolomics, Clinical Sciences, Immunology, Gastroenterology & Hepatology, Clinical sciences
Abstract

Hepatitis C virus (HCV) alters mitochondrial dynamics associated with persistent viral infection and suppression of innate immunity. Mitochondrial dysfunction is also a pathologic feature of direct-acting antiviral (DAA) treatment. Despite the high efficacy of DAAs, their use in treating patients with chronic hepatitis C in interferon-sparing regimens occasionally produces undesirable side effects such as fatigue, migraine, and other conditions, which may be linked to mitochondrial dysfunction. Here, we show that clinically prescribed DAAs, including sofosbuvir, affect mitochondrial dynamics. To counter these adverse effects, we examined HCV-induced and DAA-induced aberrant mitochondrial dynamics modulated by ginsenoside, which is known to support healthy mitochondrial physiology and the innate immune system. We screened several ginsenoside compounds showing antiviral activity using a robust HCV cell culture system. We investigated the role of ginsenosides in antiviral efficacy, alteration of mitochondrial transmembrane potential, abnormal mitochondrial fission, its upstream signaling, and mitophagic process caused by HCV infection or DAA treatment. Only one of the compounds, ginsenoside Rg3 (G-Rg3), exhibited notable and promising anti-HCV potential. Treatment of HCV-infected cells with G-Rg3 increased HCV core protein-mediated reduction in the expression level of cytosolic p21, required for increasing cyclin-dependent kinase 1 activity, which catalyzes Ser616 phosphorylation of dynamin-related protein 1. The HCV-induced mitophagy, which follows mitochondrial fission, was also rescued by G-Rg3 treatment.ConclusionG-Rg3 inhibits HCV propagation. Its antiviral mechanism involves restoring the HCV-induced dynamin-related protein 1-mediated aberrant mitochondrial fission process, thereby resulting in suppression of persistent HCV infection. (Hepatology 2017;66:758-771).

Published
2017

34. Parareal methods for highly oscillatory dynamical systems

Author

Ariel, Gil, Kim, Seong Jun, and Tsai, Richard

Subjects
Mathematics - Numerical Analysis
Abstract

We introduce a new strategy for coupling the parallel in time (parareal) iterative methodology with multiscale integrators. Following the parareal framework, the algorithm computes a low-cost approximation of all slow variables in the system using an appropriate multiscale integrator, which is refined using parallel fine scale integrations. Convergence is obtained using an alignment algorithm for fast phase-like variables. The method may be used either to enhance the accuracy and range of applicability of the multiscale method in approximating only the slow variables, or to resolve all the state variables. The numerical scheme does not require that the system is split into slow and fast coordinates. Moreover, the dynamics may involve hidden slow variables, for example, due to resonances. We propose an alignment algorithm for almost-periodic solution, in which case convergence of the parareal iterations is proved. The applicability of the method is demonstrated in numerical examples.

Published
2015

36. Subwavelength sorting of full-color based on anti-Hermitian metasurfaces

Author

Kim Seong Jun, Lee Changhyun, Jeon Sangtae, Park Junghyun, and Kim Soo Jin

Subjects
anti-hermitian coupling, metasurface, mie resonance, spectrum splitting, subwavelength photon sorting, Physics, QC1-999
Abstract

Splitting the spectrum of incident light at nanoscale has been of great scientific and practical interest due to its potential application in various optical sensors. For many years, researchers have been striving to realize the full-color sorting of light at subwavelength scale, while keeping the loss of incident photons to a minimum. In this article, we present semiconductor-based metasurfaces that facilitate the efficient sorting of full-color by inducing anti-Hermitian coupling between multiple nanoantenna arrays. To achieve this, we first explore how the coherent interactions between maximally crafted nanoantennas in the metasurfaces can be effectively controlled by judiciously positioning them in both lateral and vertical directions, which leads to the switched coupling of light at each target position. Based on the analysis, we demonstrate a metasurface-based absorber that features efficient, spectropolarimetric detections over the entire visible spectrum, ranging from 470 to 630 nm. In addition, the metasurface detects relatively narrow spectral linewidth of 60 nm and shows the sensitivity up to 70%, which surpasses the previous works on subwavelength photon sorting or color filter-based detection system. We envision that our approach provides guidelines for realizing the metasurfaces with enhanced functionalities, that is the increase of spectral channels for detection in a given subwavelength-scaled unit cell.

Published
2020
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41. Mitochondrial dynamics and viral infections: A close nexus

Author

Khan, Mohsin, Syed, Gulam Hussain, Kim, Seong-Jun, and Siddiqui, Aleem

Subjects
Biochemistry and Cell Biology, Biological Sciences, Emerging Infectious Diseases, Infectious Diseases, 1.1 Normal biological development and functioning, Underpinning research, Infection, Good Health and Well Being, Animals, Autophagy, Humans, Mitochondria, Mitochondrial Dynamics, Mitophagy, Virus Diseases, Mitochondrial fission and fusion, Innate immunity, Virus, Hepatitis virus, Physical Sciences, Biological sciences, Physical sciences
Abstract

Viruses manipulate cellular machinery and functions to subvert intracellular environment conducive for viral proliferation. They strategically alter functions of the multitasking mitochondria to influence energy production, metabolism, survival, and immune signaling. Mitochondria either occur as heterogeneous population of individual organelles or large interconnected tubular network. The mitochondrial network is highly susceptible to physiological and environmental insults, including viral infections, and is dynamically maintained by mitochondrial fission and fusion. Mitochondrial dynamics in tandem with mitochondria-selective autophagy 'mitophagy' coordinates mitochondrial quality control and homeostasis. Mitochondrial dynamics impacts cellular homeostasis, metabolism, and innate-immune signaling, and thus can be major determinant of the outcome of viral infections. Herein, we review how mitochondrial dynamics is affected during viral infections and how this complex interplay benefits the viral infectious process and associated diseases.

Published
2015

43. Understanding the electrochemical processes of SeS2 positive electrodes for developing high-performance non-aqueous lithium sulfur batteries.

Author

Kim, Ji Hwan, Kim, Mihyun, Kim, Seong-Jun, Kim, Shin-Yeong, Yu, Seungho, Hwang, Wonchan, Kwon, Eunji, Lim, Jae-Hong, Kim, So Hee, Sung, Yung-Eun, and Yu, Seung-Ho

Subjects
LITHIUM sulfur batteries, IMAGE analysis, NUCLEATION, ELECTRODES, LITHIUM cells, STORAGE batteries
Abstract

SeS2 positive electrodes are promising components for the development of high-energy, non-aqueous lithium sulfur batteries. However, the (electro)chemical and structural evolution of this class of positive electrodes is not yet fully understood. Here, we use operando physicochemical measurements to elucidate the dissolution and deposition processes in the SeS2 positive electrodes during lithium sulfur cell charge and discharge. Our analysis of real-time imaging reveals the pivotal role of Se in the SeS2 nucleation process, while S enables selective depositions. During the initial discharge, SeS2 converts into Se and S separately, with the dissolved Se acting as nucleation sites due to their lower nucleation potential. The Se effectively catalyzes the growth of S particles, resulting in improved lithium sulfur battery performance compared to cells using positive electrodes containing only Se or S as active materials. By adjusting the Se-to-S ratio, we demonstrate that a low concentration of Se enables uniform catalytic sites, promotes the homogeneous distribution of S and favours improved lithium sulfur battery performance. SexSy is a promising positive electrode material for non-aqueous Li||chalcogen batteries. However, the behaviour of S and Se in the electrode is unclear. Here, the authors investigate the physicochemical phenomena of SexSy and the catalytic role of Se during battery testing. [ABSTRACT FROM AUTHOR]

Published
2024
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