Your search keyword '"JooHee Choi"' showing total 19 results

1. Investigation of Effect of Platinum Nanoparticle Shape on Oxygen Transport in PEMFC Catalyst Layer Using Molecular Dynamics Simulation

Author

Danah Kim, Jihoon Lim, Ji Hee Lee, Joohee Choi, Sung Hyun Kwon, Sung-Dae Yim, Young-Jun Sohn, and Seung Geol Lee

Subjects

Chemistry, QD1-999

Published

2023

2. Effect of the Novel Myotrope Danicamtiv on Cross‐Bridge Behavior in Human Myocardium

Author

Joohee Choi, Joshua B. Holmes, Kenneth S. Campbell, and Julian E. Stelzer

Subjects

heart failure, myocardium, myosin modulators, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Background Omecamtiv mecarbil (OM) and danicamtiv both increase myocardial force output by selectively activating myosin within the cardiac sarcomere. Enhanced force generation is presumably due to an increase in the total number of myosin heads bound to the actin filament; however, detailed comparisons of the molecular mechanisms of OM and danicamtiv are lacking. Methods and Results The effect of OM and danicamtiv on Ca2+ sensitivity of force generation was analyzed by exposing chemically skinned myocardial samples to a series of increasing Ca2+ solutions. The results showed that OM significantly increased Ca2+ sensitivity of force generation, whereas danicamtiv showed similar Ca2+ sensitivity of force generation to untreated preparations. A direct comparison of OM and danicamtiv on dynamic cross‐bridge behavior was performed at a concentration that produced a similar force increase when normalized to predrug levels at submaximal force (pCa 6.1). Both OM and danicamtiv‐treated groups slowed the rates of cross‐bridge detachment from the strongly bound state and cross‐bridge recruitment into the force‐producing state. Notably, the significant OM‐induced prolongation in the time to reach force relaxation and subsequent commencement of force generation following rapid stretch was dramatically reduced in danicamtiv‐treated myocardium. Conclusions This is the first study to directly compare the effects of OM and danicamtiv on cross‐bridge kinetics. At a similar level of force enhancement, danicamtiv had a less pronounced effect on the slowing of cross‐bridge kinetics and, therefore, may provide a similar improvement in systolic function as OM without excessively prolonging systolic ejection time and slowing cardiac relaxation facilitating diastolic filling at the whole‐organ level.

Published

2023

3. Divergent Syntheses of (-)-Chicanine, (+)-Fragransin A2, (+)-Galbelgin, (+)-Talaumidin, and (+)-Galbacin via One-Pot Homologative γ-Butyrolactonization

Author

Hosam Choi, Jongyeol Han, Joohee Choi, and Kiyoun Lee

Subjects

one-pot homologative γ-butyrolactonization, tetrahydrofuran lignans, (-)-chicanine, (+)-fragransin A2, (+)-galbelgin, (+)-talaumidin, Organic chemistry, QD241-441

Abstract

In this study, the divergent syntheses of (-)-chicanine, (+)-fragransin A2, (+)-galbelgin, (+)-talaumidin, and (+)-galbacin are detailed. In this approach, an early-stage modified Kowalski one-carbon homologation reaction is utilized to construct the central γ-butyrolactone framework with the two necessary β,γ-vicinal stereogenic centers. The two common chiral γ-butyrolactone intermediates were designed to be capable for assembling five different optically active tetrahydrofuran lignans from commercially available materials in a concise and effective divergent manner in five to eight steps. These five syntheses are among the shortest and highest-yielding syntheses reported to date.

Published

2024

4. Differences in salient beliefs associated with voluntary exercise training among South Korean firefighters before and after COVID-19

Author

Junhye Kwon, Joohee Choi, Juhyuk Kwon, Chung Gun Lee, Dong-il Seo, Wook Song, Jung-jun Park, Han-joon Lee, Hyun Joo Kang, and Yeon Soon Ahn

Subjects

Theory of planned behavior, Firefighters, Salient beliefs, Elicitation study, Exercise training, COVID-19, Public aspects of medicine, RA1-1270

Abstract

Abstract Background Participating in voluntary exercise training is important to meet occupational requirements as well as firefighters’ health and safety. The purpose of this study is to identify salient beliefs associated with voluntary exercise training among firefighters in the pandemic era by comparing outcomes with those from a previous elicitation study, which was carried out before the COVID-19 outbreak. Methods A total of 57 firefighters are recruited to participate in an elicitation study. Participants are requested to respond to six open-ended questions related to voluntary exercise training. Content analysis is used to create categories that combine similar factors in each belief. Beliefs mentioned by more than 30% of participants are used for comparison with the results of the previous research. Results “Improves my physical ability” (n = 44) and “cause injury” (n = 17) are identified as behavioral beliefs in the present study, whereas “makes me tired” and “takes too much time” were also elicited in Lee’s study. Normative beliefs are “family members” (n = 45) and “colleagues” (n = 27) and these results are consistent with those in Lee’s study. “Lack of time” (n = 28), “exercise facilities” (n = 19), and “COVID-19” (n = 19) are elicited as control beliefs in the present study, whereas “physical condition” (n = 21) and “exercise partners” (n = 14) were elicited as other control beliefs, and “COVID-19” was not mentioned in Lee’s study. Conclusion This study can contribute valuable information about salient beliefs associated with exercise training behavior among firefighters, particularly under pandemic conditions. Future researchers should develop tailored exercise training programs for firefighters based on current elicited beliefs.

Published

2022

5. Brivaracetam to Treat Partial Onset Seizures in Adults

Author

Dustin Latimer, David Le, Evan Falgoust, Patrick Ingraffia, Alaa Abd-Elsayed, Elyse M. Cornett, Rupin Singh, JooHee Choi, Giustino Varrassi, Adam M. Kaye, Alan D. Kaye, and Latha Ganti

Subjects

Medicine, Mental healing, RZ400-408

Abstract

# Purpose of Review Seizures are a hyperexcitable, and hypersynchronous imbalance between excitatory and inhibitory factors (E/I imbalance) in neurotransmission, and epilepsy is the recurrent manifestation of seizures within a reasonable time frame and without being attributable to a reversible cause. Brivaracetam is a derivative of the antiepileptic agent, levetiracetam, that is used as adjuvant therapy for focal onset seizures. It was approved by the FDA in 2016 and has shown promising results with minimal adverse effect reactions in clinical trials. # Recent Findings Brivaracetam has been used in multiple clinical trials at various dosages in adults that have partial-onset seizures refractory to conventional treatment. A meta-analysis in 2016 showed that brivaracetam as adjunctive therapy was statically significant in its reduction of adults with drug-refractory seizure frequency.^1^ The most commonly reported adverse effects that patients who were taking brivaracetam experienced were somnolence, headache, and dizziness. Further studies are necessary to conclude long term efficacy and safety profile of brivaracetam. # Conclusion The treatment of epilepsy with pharmacologic agents is a difficult task due to balancing the efficacy of the drug with the side effect profile that will allow for the best quality of life for the patient. There are approximately 30 antiepileptic agents for clinicians to choose from. Brivaracetam is a novel antiepileptic agent that was approved for use by the FDA in 2016 and is showing promising results as monotherapy and adjunctive therapy in individuals with drug-refractory focal seizures while minimizing adverse drug reactions.

Published

2023

6. Midazolam nasal spray to treat intermittent, stereotypic episodes of frequent seizure activity: pharmacology and clinical role, a comprehensive review

Author

Elyse M. Cornett, Meskerem A. Nemomsa, Bailey Turbeville, Matthew A. Busby, Jessica S. Kaye, Aaron J. Kaye, JooHee Choi, Giovanni F. Ramírez, Giustino Varrassi, Adam M. Kaye, Alan D. Kaye, James Wilson, and Latha Ganti

Subjects

Medicine, Mental healing, RZ400-408

Abstract

An intranasal formulation of midazolam, Nayzilam, has been FDA-approved to treat intermittent, stereotypic episodes of frequent seizure activity. Nayzilam is easy to administer and can quickly treat seizures that occur outside of the hospital. The intra-nasal route of administration allows non-medical personal to administer the drug which makes it more accessible and user-friendly in the event of a seizure. Many studies have indicated quick cessation of seizures with Nayzilam compared to rectal diazepam, which has been the standard of care treatment. Nayzilam has been proven to be safe and effective for acute seizures in children, deeming it a revolutionary alternative in times where intravenous administration is not possible.

Published

2022

7. Impact of investigational microbiota therapeutic RBX2660 on the gut microbiome and resistome revealed by a placebo-controlled clinical trial

Author

Suryang Kwak, JooHee Choi, Tiffany Hink, Kimberly A. Reske, Kenneth Blount, Courtney Jones, Margaret H. Bost, Xiaoqing Sun, Carey-Ann D. Burnham, Erik R. Dubberke, Gautam Dantas, and for the CDC Prevention Epicenter Program

Subjects

Microbiota-based therapy, Placebo, Microbiome, Resistome, Clostridioides difficile infection, Antibiotic-resistant organisms, Microbial ecology, QR100-130

Abstract

Abstract Background Intestinal microbiota restoration can be achieved by complementing a subject’s perturbed microbiota with that of a healthy donor. Recurrent Clostridioides difficile infection (rCDI) is one key application of such treatment. Another emerging application of interest is reducing antibiotic-resistant genes (ARGs) and organisms (AROs). In this study, we investigated fecal specimens from a multicenter, randomized, double-blind, placebo-controlled phase 2b study of microbiota-based investigational drug RBX2660. Patients were administered either placebo, 1 dose of RBX2660 and 1 placebo, or 2 doses of RBX2660 via enema and longitudinally tracked for changes in their microbiome and antibiotic resistome. Results All patients exhibited significant recovery of gut microbiome diversity and a decrease of ARG relative abundance during the first 7 days post-treatment. However, the microbiome and resistome shifts toward average configurations from unperturbed individuals were more significant and longer-lasting in RBX2660 recipients compared to placebo. We quantified microbiome and resistome modification by RBX2660 using a novel “transplantation index” metric. We identified taxonomic and metabolic features distinguishing the baseline microbiome of non-transplanted patients and taxa specifically enriched during the process of transplantation. We elucidated the correlation between resistome and taxonomic transplantations and post-treatment dynamics of patient-specific and RBX2660-specific ARGs. Whole genome sequencing of AROs cultured from RBX2660 product and patient samples indicate ARO eradication in patients via RBX2660 administration, but also, to a lesser extent, introduction of RBX2660-derived AROs. Conclusions Through shotgun metagenomic sequencing, we elucidated the effects of RBX2660 in the microbiome and resistome. Antibiotic discontinuation alone resulted in significant recovery of gut microbial diversity and reduced ARG relative abundance, but RBX2660 administration more rapidly and completely changed the composition of patients’ microbiome, resistome, and ARO colonization by transplanting RBX2660 microbiota into the recipients. Although ARGs and AROs were transmitted through RBX2660, the resistome post-RBX2660 more closely resembled that of the administered product—a proxy for the donor—than an antibiotic perturbed state. Trial registration ClinicalTrials.gov, NCT02299570 . Registered 19 November 2014 Video Abstract

Published

2020

8. Rice microRNA171f/SCL6 module enhances drought tolerance by regulation of flavonoid biosynthesis genes

Author

Taeyoung Um, Joohee Choi, Taehyeon Park, Pil Joong Chung, Se Eun Jung, Jae Sung Shim, Youn Shic Kim, Ik‐Young Choi, Soo Chul Park, Se‐Jun Oh, Jun Sung Seo, and Ju‐Kon Kim

Subjects

drought, flavonoids, miR171, Osa‐miR171f, Rice, SCL6, Botany, QK1-989

Abstract

Abstract Plants have evolved sophisticated defense systems to enhance drought tolerance. These include the microRNA (miRNA) group of small noncoding RNAs that act as post‐transcriptional regulators; however, details of the mechanisms by which they confer drought tolerance are not well understood. Here, we show that osa‐MIR171f, a member of osa‐MIR171 gene family, is mainly expressed in response to drought stress and regulates the transcript levels of SCARECROW‐LIKE6‐I (SCL6‐I) and SCL6‐II in rice (Oryza sativa). The SCL6 genes are known to be involved in shoot branching and flag leaf morphology. Osa‐MIR171f‐overexpressing (osa‐MIR171f‐OE) transgenic plants showed reduced drought symptoms compared with non‐transgenic (NT) control plants under both field drought and polyethylene glycol (PEG)‐mediated dehydration stress conditions. Transcriptome analysis of osa‐MIR171f‐OE plants and osa‐mir171f‐knockout (K/O) lines generated by clustered regularly interspaced short palindromic repeats (CRISPR/Cas9) revealed that osa‐mature‐miR171a‐f (osa‐miR171) regulates the expression of flavonoid biosynthesis genes, consequently leading to drought tolerance. This upregulation in the osa‐MIR171f‐OE plants, which did not occur in NT control plants, was observed under both normal and drought conditions. Our findings indicate that osa‐miR171 plays a role in drought tolerance by regulating SCL6‐I and SCL6‐II transcript levels.

Published

2022

9. Comparative Genomics of Mycobacterium avium Complex Reveals Signatures of Environment-Specific Adaptation and Community Acquisition

Author

Eric C. Keen, JooHee Choi, Meghan A. Wallace, Michelle Azar, Carlos R. Mejia-Chew, Shail B. Mehta, Thomas C. Bailey, Lindsay J. Caverly, Carey-Ann D. Burnham, and Gautam Dantas

Subjects

comparative genomics, genomic epidemiology, Mycobacterium, Mycobacterium avium complex, nontuberculous mycobacteria, whole-genome sequencing, Microbiology, QR1-502

Abstract

ABSTRACT Nontuberculous mycobacteria, including those in the Mycobacterium avium complex (MAC), constitute an increasingly urgent threat to global public health. Ubiquitous in soil and water worldwide, MAC members cause a diverse array of infections in humans and animals that are often multidrug resistant, intractable, and deadly. MAC lung disease is of particular concern and is now more prevalent than tuberculosis in many countries, including the United States. Although the clinical importance of these microorganisms continues to expand, our understanding of their genomic diversity is limited, hampering basic and translational studies alike. Here, we leveraged a unique collection of genomes to characterize MAC population structure, gene content, and within-host strain dynamics in unprecedented detail. We found that different MAC species encode distinct suites of biomedically relevant genes, including antibiotic resistance genes and virulence factors, which may influence their distinct clinical manifestations. We observed that M. avium isolates from different sources—human pulmonary infections, human disseminated infections, animals, and natural environments—are readily distinguished by their core and accessory genomes, by their patterns of horizontal gene transfer, and by numerous specific genes, including virulence factors. We identified highly similar MAC strains from distinct patients within and across two geographically distinct clinical cohorts, providing important insights into the reservoirs which seed community acquisition. We also discovered a novel MAC genomospecies in one of these cohorts. Collectively, our results provide key genomic context for these emerging pathogens and will facilitate future exploration of MAC ecology, evolution, and pathogenesis. IMPORTANCE Members of the Mycobacterium avium complex (MAC), a group of mycobacteria encompassing M. avium and its closest relatives, are omnipresent in natural environments and emerging pathogens of humans and animals. MAC infections are difficult to treat, sometimes fatal, and increasingly common. Here, we used comparative genomics to illuminate key aspects of MAC biology. We found that different MAC species and M. avium isolates from different sources encode distinct suites of clinically relevant genes, including those for virulence and antibiotic resistance. We identified highly similar MAC strains in patients from different states and decades, suggesting community acquisition from dispersed and stable reservoirs, and we discovered a novel MAC species. Our work provides valuable insight into the genomic features underlying these versatile pathogens.

Published

2021

10. Predicting the Properties of High-Performance Epoxy Resin by Machine Learning Using Molecular Dynamics Simulations

Author

Joohee Choi, Haisu Kang, Ji Hee Lee, Sung Hyun Kwon, and Seung Geol Lee

Subjects

epoxy resin, molecular dynamics, machine learning, artificial neural network, adhesive strength, Chemistry, QD1-999

Abstract

Epoxy resin is an of the most widely used adhesives for various applications owing to its outstanding properties. The performance of epoxy systems varies significantly depending on the composition of the base resin and curing agent. However, there are limitations in exploring numerous formulations of epoxy resins to optimize adhesive properties because of the expense and time-consuming nature of the trial-and-error process. Herein, molecular dynamics (MD) simulations and machine learning (ML) methods were used to overcome these challenges and predict the adhesive properties of epoxy resin. Datasets for diverse epoxy adhesive formulations were constructed by considering the degree of crosslinking, density, free volume, cohesive energy density, modulus, and glass transition temperature. A linear correlation analysis demonstrated that the content of the curing agents, especially dicyandiamide (DICY), had the greatest correlation with the cohesive energy density. Moreover, the content of tetraglycidyl methylene dianiline (TGMDA) had the highest correlation with the modulus, and the content of diglycidyl ether of bisphenol A (DGEBA) had the highest correlation with the glass transition temperature. An optimized artificial neural network (ANN) model was constructed using test sets divided from MD datasets through error and linear regression analyses. The root mean square error (RMSE) and correlation coefficient (R2) showed the potential of each model in predicting epoxy properties, with high linear correlations (0.835–0.986). This technique can be extended for optimizing the composition of other epoxy resin systems.

Published

2022

11. Development and Evaluation of Gellan Gum/Silk Fibroin/Chondroitin Sulfate Ternary Injectable Hydrogel for Cartilage Tissue Engineering

Author

Seongwon Lee, Joohee Choi, Jina Youn, Younghun Lee, Wooyoup Kim, Seungho Choe, Jeongeun Song, Rui L. Reis, and Gilson Khang

Subjects

gellan gum, silk fibroin, chondroitin sulfate, ternary hydrogel, cartilage tissue engineering, Microbiology, QR1-502

Abstract

Hydrogel is in the spotlight as a useful biomaterial in the field of drug delivery and tissue engineering due to its similar biological properties to a native extracellular matrix (ECM). Herein, we proposed a ternary hydrogel of gellan gum (GG), silk fibroin (SF), and chondroitin sulfate (CS) as a biomaterial for cartilage tissue engineering. The hydrogels were fabricated with a facile combination of the physical and chemical crosslinking method. The purpose of this study was to find the proper content of SF and GG for the ternary matrix and confirm the applicability of the hydrogel in vitro and in vivo. The chemical and mechanical properties were measured to confirm the suitability of the hydrogel for cartilage tissue engineering. The biocompatibility of the hydrogels was investigated by analyzing the cell morphology, adhesion, proliferation, migration, and growth of articular chondrocytes-laden hydrogels. The results showed that the higher proportion of GG enhanced the mechanical properties of the hydrogel but the groups with over 0.75% of GG exhibited gelling temperatures over 40 °C, which was a harsh condition for cell encapsulation. The 0.3% GG/3.7% SF/CS and 0.5% GG/3.5% SF/CS hydrogels were chosen for the in vitro study. The cells that were encapsulated in the hydrogels did not show any abnormalities and exhibited low cytotoxicity. The biochemical properties and gene expression of the encapsulated cells exhibited positive cell growth and expression of cartilage-specific ECM and genes in the 0.5% GG/3.5% SF/CS hydrogel. Overall, the study of the GG/SF/CS ternary hydrogel with an appropriate content showed that the combination of GG, SF, and CS can synergistically promote articular cartilage defect repair and has considerable potential for application as a biomaterial in cartilage tissue engineering.

Published

2021

12. Stereoselective Synthesis of Oxazolidin-2-ones via an Asymmetric Aldol/Curtius Reaction: Concise Total Synthesis of (−)-Cytoxazone

Author

Hosam Choi, Hanho Jang, Joohee Choi, and Kiyoun Lee

Subjects

oxazolidin-2-one, (−)-cytoxazone, natural product, total synthesis, curtius reaction, asymmetric aldol, Organic chemistry, QD241-441

Abstract

Herein, we are reporting an efficient approach toward the synthesis of 4,5-disubstituted oxazolidin-2-one scaffolds. The developed approach is based on a combination of an asymmetric aldol and a modified Curtius protocol, which uses an effective intramolecular ring closure to rapidly access a range of oxazolidin-2-one building blocks. This strategy also permits a straightforward and concise asymmetric total synthesis of (−)-cytoxazone. Consisting of three steps, this is one of the shortest syntheses reported to date. Ultimately, this convenient platform would provide a promising method for the early phases of drug discovery.

Published

2021

13. The contribution of N-terminal truncated cMyBPC to in vivo cardiac function.

Author

Dominic, Katherine L., Joohee Choi, Holmes, Joshua B., Singh, Mandeep, Majcher, Michael J., and Stelzer, Julian E.

Subjects

*MECHANICAL hearts, *PROTEIN C, *MYOCARDIUM, *CARRIER proteins, *VENTRICULAR ejection fraction

Abstract

Cardiac myosin binding protein C (cMyBPC) is an 11-domain sarcomeric protein (C0–C10) integral to cardiac muscle regulation. In vitro studies have demonstrated potential functional roles for regions beyond the N-terminus. However, the in vivo contributions of these domains are mostly unknown. Therefore, we examined the in vivo consequences of expression of N-terminal truncated cMyBPC (C3C10). Neonatal cMyBPC−/− mice were injected with AAV9-full length (FL), C3C10 cMyBPC, or saline, and echocardiography was performed 6 wk after injection. We then isolated skinned myocardium from virus-treated hearts and performed mechanical experiments. Our results show that expression of C3C10 cMyBPC in cMyBPC−/− mice resulted in a 28% increase in systolic ejection fraction compared to saline-injected cMyBPC−/− mice and a 25% decrease in left ventricle mass-to-body weight ratio. However, unlike expression of FL cMyBPC, there was no prolongation of ejection time compared to saline-injected mice. In vitro mechanical experiments demonstrated that functional improvements in cMyBPC−/− mice expressing C3C10 were primarily due to a 35% reduction in the rate of cross-bridge recruitment at submaximal Ca2+ concentrations when compared to hearts from saline-injected cMyBPC−/− mice. However, unlike the expression of FL cMyBPC, there was no change in the rate of cross-bridge detachment when compared to saline-injected mice. Our data demonstrate that regions of cMyBPC beyond the N-terminus are important for in vivo cardiac function, and have divergent effects on crossbridge behavior. Elucidating the molecular mechanisms of cMyBPC region-specific function could allow for development of targeted approaches to manipulate specific aspects of cardiac contractile function. [ABSTRACT FROM AUTHOR]

Published

2023

14. Midazolam nasal spray to treat intermittent, stereotypic episodes of frequent seizure activity: pharmacology and clinical role, a comprehensive review.

Author

Cornett, Elyse M., Nemomsa, Meskerem A., Turbeville, Bailey, Busby, Matthew A., Kaye, Jessica S., Kaye, Aaron J., JooHee Choi, Ramírez, Giovanni F., Varrassi, Giustino, Kaye, Adam M., Kaye, Alan D., Wilson, James, and Ganti, Latha

Published

2022

15. Stereoselective Synthesis of Oxazolidin-2-Ones via an Asymmetric Aldol/Curtius Reaction: Concise Total Synthesis of (−)-Cytoxazone

Author

Joohee Choi, Hanho Jang, Hosam Choi, and Kiyoun Lee

Subjects

natural product, Pharmaceutical Science, Ring (chemistry), Article, Analytical Chemistry, lcsh:QD241-441, Aldol reaction, lcsh:Organic chemistry, Drug Discovery, Physical and Theoretical Chemistry, total synthesis, Oxazoles, Oxazolidinones, Aldehydes, Chemistry, asymmetric aldol, Organic Chemistry, Total synthesis, Stereoisomerism, Cytoxazone, Combinatorial chemistry, Chemistry (miscellaneous), Intramolecular force, oxazolidin-2-one, Molecular Medicine, Stereoselectivity, (−)-cytoxazone, curtius reaction, Curtius rearrangement

Abstract

Herein, we are reporting an efficient approach toward the synthesis of 4,5-disubstituted oxazolidin-2-one scaffolds. The developed approach is based on a combination of an asymmetric aldol and a modified Curtius protocol, which uses an effective intramolecular ring closure to rapidly access a range of oxazolidin-2-one building blocks. This strategy also permits a straightforward and concise asymmetric total synthesis of (−)-cytoxazone. Consisting of three steps, this is one of the shortest syntheses reported to date. Ultimately, this convenient platform would provide a promising method for the early phases of drug discovery.

Published

2021

16. Divergent Total Syntheses of Gymnothelignan N, Beilschmin A, and Eupomatilones 1, 3, 4, and 7.

Author

Choi, Hosam, Joohee Choi, Jongyeol Han, and Kiyoun Lee

Published

2022

17. Comparative Genomics of Mycobacterium avium Complex Reveals Signatures of Environment-Specific Adaptation and Community Acquisition.

Author

Keen, Eric C., JooHee Choi, Wallace, Meghan A., Azar, Michelle, Mejia-Chew, Carlos R., Mehta, Shail B., Bailey, Thomas C., Caverly, Lindsay J., Burnham, Carey-Ann D., and Dantas, Gautam

Published

2021

18. Business Ethics and Government Intervention in the Market in Joseon.

Author

Sangsoon Kang and Joohee Choi

Subjects

BUSINESS ethics, INTERVENTION (Federal government), TAX reform, TAXATION, PUBLIC finance

Abstract

This pape r analyzes the Daedongbeop tax reform to understand management ethics adopted by the kings and elite of late Joseon. Unlike other interpretations that view such reform as evidence of a linear movement towards a capitalist market system, this paper argues that such tax reform represented efforts at defending manorial and mercantilist modes of exchange and highlights the economic and ethical incentives of the Confucian goodwill that reinforced the traditional economic basis of the dynasty. The moral justification of the tax system was Confucian in nature and emphasized its humanitarian principle in contrast with justifications of efficiency for the market mode. As such, the Confucian ethical persuasion helped Joseon to hold on to firm manorial and mercantile rule in East Asia and maintained its hold going into the 19th century. [ABSTRACT FROM AUTHOR]

Published

2014

19. Ubiquitination-dependent CARM1 degradation facilitates Notch1-mediated podocyte apoptosis in diabetic nephropathy.

Author

Dongil Kim, Seulki Lim, Minjung Park, Joohee Choi, Jongchoon Kim, Hojae Han, Kyungchul Yoon, Kwonseop Kim, Jaehyang Lim, and Soohyun Park

Subjects

*UBIQUITINATION, *BIODEGRADATION, *APOPTOSIS, *DIABETIC nephropathies, *CELLULAR signal transduction, *GENETIC transcription

Abstract

Podocyte apoptosis induced by hyperglycemia is considered a critical factor in the development of diabetic nephropathy. Recent studies have implicated Notch signaling in podocyte apoptosis; however, its regulatory mechanisms are not fully understood. In this study, we found that high-glucose treatment increased Notch1 and Jagged-1 expression, the transcriptional activity of Hes, and podocyte apoptosis, and decreased the expression of coactivator-associated arginine methyltransferase 1 (CARM1) in rat podocytes. Transient transfection of CARM1 reversed high-glucose-induced Notch1 expression, the transcriptional activity of Hes, and podocyte apoptosis. Moreover, the silencing of CARM1 using siRNA increased Notch1 expression, the transcriptional activity of Hes, and podocyte apoptosis. However, the Glu 266 -mediated enzymatic activity of CARM1 was not necessary for Notch signaling activation and podocyte apoptosis. Here, we demonstrate that AMP-activated protein kinase alpha (AMPKa) and cannabinoid receptor 1 (CB 1 R) are regulated by CARM1 and that high-glucose-induced podocyte apoptosis is mediated by a CARM1-AMPKa-Notch1-CB 1 R signaling axis. We also show that high-glucose-induced CARM1 downregulation is due to ubiquitination-dependent CARM1 degradation. Finally, we demonstrate that CARM1 expression in podocytes was diminished in rats with streptozotocin-induced diabetes compared to vehicle-treated rats. Together, our data provide evidence that ubiquitination-dependent CARM1 degradation in podocytes in diabetes promotes podocyte apoptosis via Notch1 activation. Strategies to preserve CARM1 expression or reduce the enzymatic activity of a ubiquitin ligase specific for CARM1 could be used to prevent podocyte loss in diabetic nephropathy. [ABSTRACT FROM AUTHOR]

Published

2014