Your search keyword '"Choi, A."' showing total 4,546 results

1. Low-Dose Docetaxel Is Effective in Reducing Atherogenic Lipids and Atherosclerosis.

Author

Choi, Hong Y., Ruel, Isabelle, Choi, Shiwon, Iatan, Iulia, Choi, Senna, Lee, Jyh-Yeuan, and Genest, Jacques

Abstract

High-density lipoprotein (HDL) particles form during cellular cholesterol removal, positioning HDL biogenesis as a potential strategy to combat atherosclerosis. We identified desmocollin 1 (DSC1) as a negative regulator of HDL biogenesis and discovered that docetaxel (DTX) effectively inhibits DSC1 activity. This study assessed the efficacy of DTX in reducing atherosclerosis in ApoE−/− mice. After two weeks on a high-fat diet, mice were divided into baseline, vehicle-treated, and DTX-treated groups. Baseline mice were sacrificed at the end of the two weeks, while the other groups received a vehicle or DTX (1 μg/μL) via subcutaneously implanted osmotic pumps delivering 0.15 μL/h for six weeks, with the high-fat diet continued. The controlled drug delivery system maintained stable DTX blood concentrations (2.7–4.3 nM) over six weeks without hematologic toxicity. DTX treatment significantly reduced circulating atherogenic lipids, including triglycerides, non-esterified fatty acids, low-density lipoprotein cholesterol, and total cholesterol, while increasing the HDL cholesterol/total cholesterol ratio. These improvements were associated with significant reductions in atherosclerotic lesions in the aortic sinus and arch. Notably, these effects occurred without altering circulating inflammatory cytokine levels. These results demonstrate that DTX effectively reduces dyslipidemia-induced atherosclerosis. Its HDL-biogenic and anti-atherosclerotic effects establish DTX as a promising candidate for developing HDL-directed therapies for atherosclerosis. [ABSTRACT FROM AUTHOR]

Published

2025

2. Beyond Misfolding: A New Paradigm for the Relationship Between Protein Folding and Aggregation.

Author

Choi, Seong Il, Jin, Yoontae, Choi, Yura, and Seong, Baik L.

Subjects

*PROTEIN folding, *PROTEIN structure, *INTERMOLECULAR forces, *MACROMOLECULES, *MOLECULES, *MOLECULAR chaperones

Abstract

Aggregation is intricately linked to protein folding, necessitating a precise understanding of their relationship. Traditionally, aggregation has been viewed primarily as a sequential consequence of protein folding and misfolding. However, this conventional paradigm is inherently incomplete and can be deeply misleading. Remarkably, it fails to adequately explain how intrinsic and extrinsic factors, such as charges and cellular macromolecules, prevent intermolecular aggregation independently of intramolecular protein folding and structure. The pervasive inconsistencies between protein folding and aggregation call for a new framework. In all combined reactions of molecules, both intramolecular and intermolecular rate (or equilibrium) constants are mutually independent; accordingly, intrinsic and extrinsic factors independently affect both rate constants. This universal principle, when applied to protein folding and aggregation, indicates that they should be treated as two independent yet interconnected processes. Based on this principle, a new framework provides groundbreaking insights into misfolding, Anfinsen's thermodynamic hypothesis, molecular chaperones, intrinsic chaperone-like activities of cellular macromolecules, intermolecular repulsive force-driven aggregation inhibition, proteome solubility maintenance, and proteinopathies. Consequently, this paradigm shift not only refines our current understanding but also offers a more comprehensive view of how aggregation is coupled to protein folding in the complex cellular milieu. [ABSTRACT FROM AUTHOR]

Published

2025

3. Genome-Wide Association Study to Identify Genetic Factors Linked to HBV Reactivation Following Liver Transplantation in HBV-Infected Patients.

Author

Park, Joonhong, Kim, Dong Yun, Gee, Heon Yung, Yu, Hee Chul, Yang, Jae Do, Hwang, Shin, Choi, YoungRok, Lee, Jae Geun, Rhu, Jinsoo, Choi, Donglak, You, Young Kyoung, Ryu, Je Ho, Nah, Yang Won, Kim, Bong-Wan, Kim, Dong-Sik, Cho, Jai Young, and Group, The Korean Organ Transplantation Registry Study

Subjects

GENOME-wide association studies, DISEASE risk factors, HEPATITIS B virus, LOGISTIC regression analysis, SINGLE nucleotide polymorphisms

Abstract

This study utilized a genome-wide association study (GWAS) to investigate the genetic variations linked to the risk of hepatitis B virus (HBV) reactivation in patients who have undergone liver transplantation (LT), aiming to enhance understanding and improve clinical outcomes. Genotyping performed on a selected patients from the Korean Organ Transplantation Registry (KOTRY) data using high-throughput platforms with the Axiom Korea Biobank array 1.1. The discovery cohort included 21 patients who experienced HBV reactivation (cases) and 888 patients without HBV reactivation (controls) following LT. The replication cohort consisted of 5 patients with HBV reactivation (cases) and 312 patients without HBV reactivation (controls) after LT. Additive logistic regression analysis was conducted using PLINK software ver 1.9, with adjustments for age and gender. The GWAS findings from the discovery cohort were validated using the replication cohort. The GWAS identified several single-nucleotide polymorphisms (SNPs) in the RGL1, CDCA7L, and AQP9 genes that were significantly linked to HBV reactivation after LT, with genome-wide significance thresholds set at p < 10−7. Down-regulation of RGL1 cDNAs was observed in primary duck hepatocytes infected with duck HBV. Overexpression of CDCA7L was found to promote hepatocellular carcinoma cell proliferation and colony formation, whereas knocking down CDCA7L inhibited these processes. Additionally, the absence of AQP9 triggered immune and inflammatory responses, leading to mild and scattered liver cell pyroptosis, accompanied by compensatory liver cell proliferation. This study provides critical insights into the genetic factors influencing HBV reactivation after LT, identifying significant associations with SNPs in RGL1, CDCA7L, and AQP9. These findings hold promise for developing predictive biomarkers and personalized management strategies to improve outcomes for HBV-infected LT recipients. [ABSTRACT FROM AUTHOR]

Published

2025

4. In Situ Profiling of the Three Dominant Phyla Within the Human Gut Using TaqMan PCR for Pre-Hospital Diagnosis of Gut Dysbiosis.

Author

Jo, Young, Tagele, Setu, Pham, Huy, Jung, YeonGyun, Ibal, Jerald, Choi, SeungDae, Kang, Gi-Ung, Park, Sowon, Kang, Yunkoo, Kim, Seung, Koh, Hong, and Shin, Jae-Ho

Subjects

TaqMan probes, gut microbiota, next generation sequencing, primer design, qPCR, ulcerative colitis, Bacteria, Colitis, Ulcerative, Dysbiosis, Fecal Microbiota Transplantation, Feces, Gastrointestinal Microbiome, High-Throughput Nucleotide Sequencing, Humans, Multiplex Polymerase Chain Reaction, Phylogeny, Sequence Analysis, DNA

Abstract

A microbial imbalance called dysbiosis leads to inflammatory bowel disease (IBD), which can include ulcerative colitis (UC). Fecal microbiota transplantation (FMT), a novel therapy, has recently been successful in treating gut dysbiosis in UC patients. For the FMT technique to be successful, the gut microbiota of both the healthy donors and UC patients must be characterized. For decades, next-generation sequencing (NGS) has been used to analyze gut microbiota. Despite the popularity of NGS, the cost and time constraints make it difficult to use in emergency services and activities related to the periodic monitoring of microbiota profile alterations. Hence, in this study, we developed a multiplex TaqMan qPCR assay (MTq-PCR) with novel probes to simultaneously determine the relative proportions of the three dominant microbial phyla in the human gut: Bacteroidetes, Firmicutes, and Proteobacteria. The relative proportions of the three phyla in fecal samples of either healthy volunteers or UC patients were similar when assessed NGS and the MTq-PCR. Thus, our MTq-PCR assay could be a practical microbiota profiling alternative for diagnosing and monitoring gut dysbiosis in UC patients during emergency situations, and it could have a role in screening stool from potential FMT donors.

Published

2020

5. Soluble Epoxide Hydrolase Inhibition by t-TUCB Promotes Brown Adipogenesis and Reduces Serum Triglycerides in Diet-Induced Obesity

Author

Overby, Haley, Yang, Yang, Xu, Xinyun, Graham, Katherine, Hildreth, Kelsey, Choi, Sue, Wan, Debin, Morisseau, Christophe, Zeldin, Darryl C, Hammock, Bruce D, Wang, Shu, Bettaieb, Ahmed, and Zhao, Ling

Subjects

Biochemistry and Cell Biology, Biological Sciences, Prevention, Obesity, Nutrition, 2.1 Biological and endogenous factors, Metabolic and endocrine, Stroke, Cardiovascular, Adipocytes, Brown, Adipogenesis, Adipose Tissue, Brown, Animals, Benzoates, Cell Line, Enzyme Inhibitors, Epoxide Hydrolases, Humans, Male, Mice, Mice, Inbred C57BL, Phenylurea Compounds, Triglycerides, soluble epoxide hydrolase, soluble epoxide hydrolase inhibitor, t-TUCB, brown adipose tissue, brown adipogenesis, Other Chemical Sciences, Genetics, Other Biological Sciences, Chemical Physics, Biochemistry and cell biology, Microbiology, Medicinal and biomolecular chemistry

Abstract

Brown adipose tissue (BAT) is an important target for obesity treatment and prevention. Soluble epoxide hydrolase (sEH) converts bioactive epoxy fatty acids (EpFAs) into less active diols. sEH inhibitors (sEHI) are beneficial in many chronic diseases by stabilizing EpFAs. However, roles of sEH and sEHI in brown adipogenesis and BAT activity in treating diet-induced obesity (DIO) have not been reported. sEH expression was studied in in vitro models of brown adipogenesis and the fat tissues of DIO mice. The effects of the sEHI, trans-4-{4-[3-(4-trifluoromethoxy-phenyl)-ureido]-cyclohexyloxy-benzoic acid (t-TUCB), were studied in vitro and in the obese mice via mini osmotic pump delivery. sEH expression was increased in brown adipogenesis and the BAT of the DIO mice. t-TUCB promoted brown adipogenesis in vitro. Although t-TCUB did not change body weight, fat pad weight, or glucose and insulin tolerance in the obese mice, it decreased serum triglycerides and increased protein expression of genes important for lipid metabolism in the BAT. Our results suggest that sEH may play a critical role in brown adipogenesis, and sEHI may be beneficial in improving BAT protein expression involved in lipid metabolism. Further studies using the sEHI combined with EpFA generating diets for obesity treatment and prevention are warranted.

Published

2020

6. Lipocalin 2: A New Antimicrobial in Mast Cells.

Author

Chang, Yu-Ling, Wang, Zhenping, Igawa, Satomi, Choi, Jae Eun, Werbel, Tyler, and Di Nardo, Anna

Subjects

Cells, Cultured, Mast Cells, Animals, Mice, Inbred C57BL, Humans, Mice, Escherichia coli, Staphylococcus aureus, Sphingosine, Lysophospholipids, Receptors, Lysosphingolipid, Immunity, Innate, Lipocalin-2, Sphingosine-1-Phosphate Receptors, antimicrobial, keratinocyte, lipocalin 2, mast cell, microbiome, sphingosine-1-phosphate cathelicidin, Cells, Cultured, Inbred C57BL, Receptors, Lysosphingolipid, Immunity, Innate, Other Chemical Sciences, Genetics, Other Biological Sciences, Chemical Physics

Abstract

Mast cells (MCs) play a significant role in the innate immune defense against bacterial infection through the release of cytokines and antimicrobial peptides. However, their antimicrobial function is still only partially described. We therefore hypothesized that MCs express additional antimicrobial peptides. In this study, we used FANTOM 5 transcriptome data to identify for the first time that MCs express lipocalin 2 (LCN2), a known inhibitor of bacterial growth. Using MCs derived from mice which were deficient in LCN2, we showed that this antimicrobial peptide is an important component of the MCs' antimicrobial activity against Escherichia coli (E. coli). Since sphingosine-1-phosphate receptors (S1PRs) on MCs are known to regulate their function during infections, we hypothesized that S1P could activate LCN2 production in MCs. Using an in vitro assay, we demonstrated that S1P enhances MCs antimicrobial peptide production and increases the capacity of MCs to directly kill S. aureus and E. coli via an LCN2 release. In conclusion, we showed that LCN2 is expressed by MCs and plays a role in their capacity to inhibit bacterial growth.

Published

2019

7. Plasticity in Gene Expression Patterns and CYPSF Gene Possibly Involved in the Etofenprox-Resistant Population of White-Backed Planthopper, Sogatella furcifera.

Author

Khan, Murtaza, Han, Changhee, Choi, Minyoung, Hong, Hoki, Choi, Nakjung, and Kim, Juil

Subjects

INSECTICIDE analysis, GENE expression, BIOLOGICAL assay, SODIUM channels, INSECTICIDE resistance, INSECTICIDES

Abstract

The white-backed planthopper (WBPH) poses a significant threat to rice crops globally. A bioassay was conducted on three WBPH populations collected from Korean rice fields to assess the effectiveness of five insecticides, including etofenprox and fenobucarb. The results showed a mortality rate of over 97% at the recommended concentration for carbamate and organophosphate insecticides. However, etofenprox exhibited a mortality rate of less than 40% in all tested populations with the Jindo population showing the highest resistance. No mutations were identified in the voltage-sensitive sodium channel, the target site of etofenprox, suggesting an alternative resistance mechanism. To explore this, RNA-seq analysis was performed on the Jindo population to identify genes potentially associated with etofenprox resistance. Gene expression was assessed after treatment with two sublethal doses of etofenprox using the Jindo population. The analysis revealed that the CYPSF gene, part of the CYP6 family, was consistently overexpressed in both treated and untreated samples. This observation aligns with the bioassay results, where mortality increased significantly after treatment with the cytochrome P450 inhibitor PBO, indicating that CYPSF may play a key role in etofenprox resistance. Additionally, distinct gene expression patterns at different etofenprox concentrations suggest that metabolic resistance mechanisms may be involved. [ABSTRACT FROM AUTHOR]

Published

2024

8. Enhancing Clinical Applications by Evaluation of Sensitivity and Specificity in Whole Exome Sequencing.

Author

Moon, Youngbeen, Hong, Chung Hwan, Kim, Young-Ho, Kim, Jong-Kwang, Ye, Seo-Hyeon, Kang, Eun-Kyung, Choi, Hye Won, Cho, Hyeri, Choi, Hana, Lee, Dong-eun, Choi, Yongdoo, Kim, Tae-Min, Heo, Seong Gu, Han, Namshik, and Hong, Kyeong-Man

Subjects

FALSE positive error, QUALITY control standards, MOLAR pregnancy, SENSITIVITY & specificity (Statistics), ALLELES

Abstract

The cost-effectiveness of whole exome sequencing (WES) remains controversial due to variant call variability, necessitating sensitivity and specificity evaluation. WES was performed by three companies (AA, BB, and CC) using reference standards composed of DNA from hydatidiform mole and individual blood at various ratios. Sensitivity was assessed by the detection rate of null–homozygote (N–H) alleles at expected variant allelic fractions, while false positive (FP) errors were counted for unexpected alleles. Sensitivity was approximately 20% for in-house results from BB and CC and around 5% for AA. Dynamic Read Analysis for GENomics (DRAGEN) analyses identified 1.34 to 1.71 times more variants, detecting over 96% of in-house variants, with sensitivity for common variants increasing to 5%. In-house FP errors varied significantly among companies (up to 13.97 times), while DRAGEN minimized this variation. Despite DRAGEN showing higher FP errors for BB and CC, the increased sensitivity highlights the importance of effective bioinformatic conditions. We also assessed the potential effects of target enrichment and proposed optimal cutoff values for the read depth and variant allele fraction in WES. Optimizing bioinformatic analysis based on sensitivity and specificity from reference standards can enhance variant detection and improve the clinical utility of WES. [ABSTRACT FROM AUTHOR]

Published

2024

9. Antiviral Effect of Amentoflavone Against Influenza Viruses.

Author

Cho, Won-Kyung, Choi, Hee-Jeong, Ahmad, Syed Sayeed, Choi, Inho, and Ma, Jin Yeul

Subjects

*INFLUENZA B virus, *INFLUENZA A virus, *VIRUS diseases, *INFLUENZA viruses, *INFLUENZA A virus, H3N2 subtype

Abstract

Amentoflavone (AF) is a biflavonoid compound found in many plants. In this study, we first demonstrate that AF has a potent antiviral effect against the influenza virus via the inhibition of viral attachment and virucidal effects. The anti-influenza-viral effect of AF was evaluated using green fluorescent protein-tagged Influenza A virus (IAV) with fluorescent microscopy and flow cytometry analysis. AF decreased the GFP expression by viral infection, dose-dependently. Fifty micromoles of AF suppressed the GFP expression by virus infection of up to 70% of untreated infected control cells. Consistently, immunofluorescence results showed the inhibitory effect of AF on viral protein expression. Time-of-addition and hemagglutination assays revealed that AF inhibits viral binding to cells by interfering with the hemagglutinin (HA) of IAV. Furthermore, AF has a virucidal effect and blocks cytopathic effects caused by the Influenza B virus and H3N2 IAV. Additionally, AF represses the neuraminidase (NA) activity of IAV. In silico analysis confirmed the potential interaction of AF with both HA and NA. Our findings indicate that AF has antiviral effects by modulating HA and NA during the attachment and release stages of influenza viral infection. [ABSTRACT FROM AUTHOR]

Published

2024

10. Antimicrobial Peptide Pro10-1D Exhibits Anti-Allergic Activity: A Promising Therapeutic Candidate.

Author

Choi, Min Yeong, Jo, Min Geun, Min, Keun Young, Kim, Byeongkwon, Kim, Yangmee, and Choi, Wahn Soo

Subjects

*MITOGEN-activated protein kinases, *ANTIMICROBIAL peptides, *TREATMENT effectiveness, *MAST cells, *CELLULAR signal transduction

Abstract

Although antimicrobial peptides (AMPs) exhibit a range of biological functions, reports on AMPs with therapeutic effects in allergic disorders are limited. In this study, we investigated the anti-allergic effects of Pro10-1D, a 10-meric AMP derived from insect defensin protaetiamycine. Our findings demonstrate that Pro10-1D effectively inhibits antigen-induced degranulation of mast cells (MCs) with IC50 values of approximately 11.6 μM for RBL-2H3 cells and 2.7 μM for bone marrow-derived MCs. Furthermore, Pro10-1D suppressed the secretion of cytokines with IC50 values of approximately 2.8 μM for IL-4 and approximately 8.6 μM for TNF-α. Mechanistically, Pro10-1D inhibited the Syk-LAT-PLCγ1 signaling pathway in MCs and decreased the activation of mitogen-activated protein kinases (MAPKs). Pro10-1D demonstrated a dose-dependent reduction in IgE-mediated passive cutaneous anaphylaxis in mice with an ED50 value of approximately 7.6 mg/kg. Further investigation revealed that Pro10-1D significantly reduced the activity of key kinases Fyn and Lyn, which are critical in the initial phase of the FcεRI-mediated signaling pathway, with IC50 values of approximately 22.6 μM for Fyn and approximately 1.5 μM for Lyn. Collectively, these findings suggest that Pro10-1D represents a novel therapeutic candidate for the treatment of IgE-mediated allergic disorders by targeting the Lyn/Fyn Src family kinases in MCs. [ABSTRACT FROM AUTHOR]

Published

2024

11. Neuropeptide FF Promotes Neuronal Survival and Enhances Synaptic Protein Expression Following Ischemic Injury.

Author

Choi, In-Ae, Yun, Ji Hee, Lee, Jongmin, and Choi, Dong-Hee

Subjects

*NEUROPLASTICITY, *RECOMBINANT proteins, *ISCHEMIC stroke, *SIRTUINS, *LACTATE dehydrogenase, *PEROXISOME proliferator-activated receptors

Abstract

This study explores the neuroprotective effects of neuropeptide FF (NPFF, FLFQPQRFamide) in the context of ischemic injury. Based on transcriptomic analysis in stroke models treated with 5-Aza-dC and task-specific training, we identified significant gene expression changes, particularly involving NPFF. To further explore NPFF's role in promoting neuronal recovery, recombinant NPFF protein (rNPFF) was used in primary mixed cortical cultures subjected to oxygen-glucose deprivation and reoxygenation. Our results demonstrated that rNPFF significantly reduced lactate dehydrogenase release, indicating decreased cellular damage. It also significantly increased the expression of TUJ1 and MAP2, markers of neuronal survival and dendritic integrity. Additionally, rNPFF significantly upregulated key synaptic proteins, including GAP43, PSD95, and synaptophysin, which are essential for synaptic repair and plasticity. Post-injury rNPFF treatment led to a significant upregulation of pro-brain-derived neurotrophic factor (BDNF) and mature BDNF, which play critical roles in neuronal survival, growth, and synaptic plasticity. Moreover, rNPFF activated the protein kinase Cε isoform, Sirtuin 1, and peroxisome proliferator-activated receptor gamma pathways, which are crucial for regulating cellular stress responses, synaptic plasticity, and energy homeostasis, further promoting neuronal survival and recovery. These findings suggest that rNPFF may play a pivotal role in enhancing neuronal survival and synaptic plasticity after ischemic injury, highlighting its potential as a therapeutic target for stroke recovery. [ABSTRACT FROM AUTHOR]

Published

2024

12. Role of Peroxisome Proliferator-Activated Receptor α-Dependent Mitochondrial Metabolism in Ovarian Cancer Stem Cells.

Author

Lee, Seo Yul, Shin, Min Joo, Choi, Seong Min, Kim, Dae Kyoung, Choi, Mee Gyeon, Kim, Jun Se, Suh, Dong Soo, Kim, Jae Ho, and Kim, Seong Jang

Subjects

CELL metabolism, CANCER stem cells, ENERGY metabolism, ENERGY consumption, OVARIAN cancer

Abstract

Peroxisome proliferator-activated receptors (PPARs), including PPAR-α, PPAR-β/δ, and PPAR-γ, are involved in various cellular responses, including metabolism and cell proliferation. Increasing evidence suggests that PPARs are closely associated with tumorigenesis and metastasis. However, the exact role of PPARs in energy metabolism and cancer stem cell (CSC) proliferation remains unclear. This study investigated the role of PPARs in energy metabolism and tumorigenesis in ovarian CSCs. The expression of PPARs and fatty acid consumption as an energy source increased in spheroids derived from A2780 ovarian cancer cells (A2780-SP) compared with their parental cells. GW6471, a PPARα inhibitor, induced apoptosis in A2780-SP. PPARα silencing mediated by small hairpin RNA reduced A2780-SP cell proliferation. Treatment with GW6471 significantly inhibited the respiratory oxygen consumption of A2780-SP cells, with reduced dependency on fatty acids, glucose, and glutamine. In a xenograft tumor transplantation mouse model, intraperitoneal injection of GW6471 inhibited in vivo tumor growth of A2780-SP cells. These results suggest that PPARα plays a vital role in regulating the proliferation and energy metabolism of CSCs by altering mitochondrial activity and that it offers a promising therapeutic target to eradicate CSCs. [ABSTRACT FROM AUTHOR]

Published

2024

13. A Narrative Review of the Evolution of Diagnostic Techniques and Treatment Strategies for Acral Lentiginous Melanoma.

Author

Choi, Myoung Eun, Choi, Eun Ji, Jung, Joon Min, Lee, Woo Jin, Jo, Yoon-Seo, and Won, Chong Hyun

Subjects

*REGULATORY T cells, *MOHS surgery, *SURGICAL excision, *MELANOMA, *IMMUNOSTAINING

Abstract

Acral melanoma (AM) is a subtype of cutaneous melanoma located on the palms, soles, and nails. The pathogenesis of AM involves mechanical stimulation and characteristic tumor-promoting mutations, such as those in the KIT proto-oncogene. Dermoscopy is useful for diagnosing AM, which is characterized by parallel ridge patterns and irregular diffuse pigmentation. Although histopathological confirmation is the gold standard for diagnosing AM, lesions showing minimal histopathological changes should be considered early-stage AM if they clinically resemble it. Recently, immunohistochemical staining of preferentially expressed antigen in melanoma has been recognized as a useful method to distinguish benign from malignant melanocytic tumors. Research reveals that AM is associated with an immunosuppressive microenvironment characterized by increased numbers of M2 macrophages and regulatory T cells, alongside a decreased number of tumor-infiltrating lymphocytes. Mohs micrographic surgery or digit-sparing wide local excision has been explored to improve quality of life and replace wide local excision or proximal amputation. AM has a worse prognosis than other subtypes, even in the early stages, indicating its inherent aggressiveness. [ABSTRACT FROM AUTHOR]

Published

2024

14. The Implication of Substance P in the Development of Tendinopathy: A Case Control Study.

Author

Han, Soo-Hong, Choi, Wonchul, Song, Jiye, Kim, Jaehee, Lee, Seungyong, Choi, Youngrak, Byun, Seong-Eun, Ahn, Taekeun, Ahn, Heejung, Ding, Catherine, Baik, Lloyd, Ward, Spencer, Ting, Kang, and Lee, Soonchul

Subjects

Tendons, Cells, Cultured, Humans, Substance P, RNA, Messenger, Gene Expression Profiling, Cell Proliferation, Cell Survival, Gene Expression Regulation, Tendinopathy, Biomarkers, pathogenesis, substance P, tendinopathy, type 3 collagen, Chemical Physics, Other Chemical Sciences, Genetics, Other Biological Sciences

Abstract

It was reported that substance P had beneficial effects in the healing of acute tendon injury. However, the relationship between substance P and degenerative tendinopathy development remains unclear. The purpose of this study was to determine the role of substance P in the pathogenesis of tendinopathy. Healthy and tendinopathy tendon were harvested from human and tenocytes were cultured individually. The expression levels of genes associated with tendinopathy were compared. Next, substance P was exogenously administered to the healthy tenocyte and the effect was evaluated. The results showed that tendinopathy tenocytes had higher levels of COL3A1, MMP1, COX2, SCX, ACTA2, and substance P gene expression compared to healthy tenocytes. Next, substance P treatment on the healthy tenocyte displayed similar changes to that of the tendinopathy tenocytes. These differences between the two groups were also determined by Western blot. Additionally, cells with substance P had the tendinopathy change morphologically although cellular proliferation was significantly higher compared to that of the control group. In conclusion, substance P enhanced cellular proliferation, but concomitantly increased immature collagen (type 3 collagen). Substance P plays a crucial role in tendinopathy development and could be a future therapeutic target for treatment.

Published

2017

15. Immunophenotypic Implications of Reverse-Circadian Glucocorticoid Treatment in Congenital Adrenal Hyperplasia.

Author

Nowotny, Hanna F., Choi, Hannah, Ziegler, Selina, Doll, Natalie, Bäuerle, Ariane, Welp, Ann-Christin, Dubinski, Ilja, Schiergens, Katharina, Neumann, Uta, Tschaidse, Lea, Auer, Matthias K., Rothenfusser, Simon, Schmidt, Heinrich, and Reisch, Nicole

Abstract

Classic congenital adrenal hyperplasia due to 21-hydroxylase deficiency (CAH) requires lifelong glucocorticoid replacement to manage cortisol deficiency and excessive androgen production. Conventional circadian treatment (CT) tries to mimic natural cortisol rhythms, whereas reverse-circadian treatment (RC) prioritizes the suppression of adrenal androgen excess overnight through evening dosing. Limited data exist on the immunological impact of these regimens. A bi-centric study was conducted, including 41 pediatric and adolescent CAH patients. Peripheral blood samples were collected from patients on conventional treatment (n = 38) or RC (n = 16), with 11 RC patients switching to conventional treatment. Immune cell phenotypes, cytokine profiles, and natural killer (NK) cell cytotoxicity were assessed. Patients receiving RC showed lower percentages of CD4+CD25+ T cells (p = 0.0139). After the switch, patients with RC presented with a higher percentage of non-classical monocytes (p = 0.0255) and a lower percentage of Th17 cells (p = 0.0195). A lower expression of CD107 was observed with RC (p < 0.0001), as well as a higher percentage of NKp30 (p = 0.0189). Comparing patients after the switch from RC to HC, patients with RC presented with a lower NKG2D expression (p = 0.0420). Both conventional treatment and RC exhibited distinct immunological impacts, with CT showing modest advantages in normalizing immune phenotypes. These findings suggest that CT may offer immunological benefits for managing young patients with congenital adrenal hyperplasia. [ABSTRACT FROM AUTHOR]

Published

2025

16. Epigenetics-Based Age Acceleration Associated with 2,3,7,8 TCDD Exposure in Older Americans.

Author

Choi, Baek-Yong, Ryoo, Seung-Woo, Son, Seok-Yoon, Lee, Ji-Hyeon, Min, Kyoung-Bok, and Min, Jin-Young

Abstract

2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) is highly toxic with potential impacts on aging. While previous studies have linked TCDD exposure to reduced telomere length and altered sperm DNA methylation (DNAm) age, its relationship with epigenetic aging remains unclear. This study investigated the association between serum TCDD levels and epigenetic clocks derived from DNAm in whole blood in older adults. Using data from the 1999–2002 National Health and Nutrition Examination Survey, we analyzed 589 participants aged 50 to 79 years with available blood TCDD and DNA methylation measures. Blood TCDD levels were measured by high-resolution gas chromatography/isotope-dilution high-resolution mass spectrometry. The six DNAm-based epigenetic clocks included Horvath Age, Hannum Age, SkinBlood Age, Pheno Age, Grim Age, and Grim Age2. Multivariable regression analysis showed significant associations between TCDD levels and Horvath Age, Hannum Age, Pheno Age, Grim Age, and Grim Age2. However, when using lipid-adjusted TCDD levels, significant associations remained only for PhenoAge (β = 0.73; SE, 0.31; p = 0.0258) and Grim Age2 (β = 0.44; SE, 0.21; p = 0.0472). The strongest non-linear trends were observed for PhenoAge, Grim Age, and Grim Age2, suggesting a threshold-dependent impact of TCDD on DNAm aging processes. Our findings suggest that TCDD exposure is associated with accelerated epigenetic aging, particularly in mortality-related clocks, with a dose-dependent and non-linear pattern. [ABSTRACT FROM AUTHOR]

Published

2025

17. Unveiling the Multitarget Potential of a Rare Caffeoyl Ester from Artemisia capillaris for Diabetes Mellitus: An Integrated In Vitro and In Silico Study.

Author

Islam, Md. Nurul, Ha, Manh Tuan, Min, Byung-Sun, Choi, Jae Sue, and Jung, Hyun Ah

Subjects

PROTEIN-tyrosine phosphatase, ALDOSE reductase, PHOSPHOPROTEIN phosphatases, MOLECULAR dynamics, ACID derivatives

Abstract

As a part of our ongoing search for bioactive constituents of Artemisia capillaris, we isolated 4-O-caffeoyl-2-C-methyl-d-threonic acid (PPT-14). This is a rare caffeic acid ester derivative that is reported here for the first time in the Artemisia species, which is the third occurrence in any plant species worldwide. In this study, we evaluated the anti-diabetic potential of PPT-14 using in vitro and in silico approaches. PPT-14 demonstrated significant inhibitory activity against two crucial enzymes linked to diabetes progression and complications: protein tyrosine phosphatase 1B (PTP1B) and aldose reductase (AR). These had IC50 values of 64.92 and 19.50 µM, respectively. Additionally, PPT-14 exhibited free radical scavenging activity with 2,2-diphenyl-2-picrylhydrazyl (IC50 14.46 µM). Molecular docking and 200 ns molecular dynamics simulations confirmed that there were stable binding interactions with the key residues of PTP1B and AR, highlighting strong affinity and dynamic stability. Pharmacokinetic analyses revealed favorable water solubility, adherence to Lipinski's Rule of Five, and minimal interactions with cytochrome P450 enzymes, indicating the drug-like potential of PPT-14. Toxicity studies confirmed its safety profile, showing no genotoxicity, hepatotoxicity, or significant toxicity risks, with an acceptable oral LD50 value of 2.984 mol/kg. These findings suggest that PPT-14 could be a promising multitarget lead compound for ameliorating diabetes and its associated complications. [ABSTRACT FROM AUTHOR]

Published

2025

18. Comparative Assessment of Acute Pulmonary Effects Induced by Heat-Not-Burn Tobacco Aerosol Inhalation in a Murine Model.

Author

Kim, Beong Ki, Yang, Won Jin, Seong, Ye Seul, Choi, Yong Jun, Park, Hye Jung, Byun, Min Kwang, Chang, Yoon Soo, Cho, Jae Hwa, and Kim, Chi Young

Subjects

ELECTRONIC cigarettes, TOBACCO products, SMOKING, BLOOD proteins, BLOOD plasma, LUNGS

Abstract

Tobacco smoking remains a major global health concern, causing preventable deaths and economic strain. Although new tobacco products such as heat-not-burn (HnB) are safer alternatives to traditional cigarettes, research on their associated risks remains limited. This study aimed to investigate the effects of HnB smoke exposure on the lungs compared to those of traditional cigarettes and the combined use of HnB and cigarettes using experiments with a mouse model. We quantitatively analyzed changes in the levels of 92 blood plasma proteins using the proximity extension assay method and observed significant changes in their levels in mice exposed to different smoke conditions; specifically, the levels of certain proteins, including Ccl20, Cxcl1, and Pdgfb, increased in the HnB smoke-exposed group, suggesting activation of nicotine pathways. Comparative analysis with traditional cigarette smoke-exposed mice further highlighted similarities and differences in their protein expression profiles. This study contributes to an improved understanding of the biological mechanisms underlying the harmful effects of alternative nicotine delivery systems and identifies potential biomarkers associated with the harmful effects of HnB smoke exposure. However, the precise impact of nicotine on the immune system may be influenced by various factors, necessitating further research. [ABSTRACT FROM AUTHOR]

Published

2025

19. Phenotypic and Gene Expression Alterations in Aquatic Organisms Exposed to Microplastics.

Author

Lee, Yun Ju, Kim, Woo Ryung, Park, Eun Gyung, Lee, Du Hyeong, Kim, Jung-min, Jeong, Hyeon-su, Roh, Hyun-Young, Choi, Yung Hyun, Srivastava, Vaibhav, Mishra, Anshuman, and Kim, Heui-Soo

Subjects

GENE expression, MICROPLASTICS, AQUATIC organisms, PHENOTYPIC plasticity, ORGANIC compounds

Abstract

The use of plastics, valued for its affordability, durability, and convenience, has grown significantly with the advancement of industry. Paradoxically, these very properties of plastics have also led to significant environmental challenges. Plastics are highly resistant to decomposition, resulting in their accumulation on land, where they eventually enter aquatic environments, due to natural processes or human activities. Among these plastics, microplastics, which are tiny plastic particles, are particularly concerning when they enter aquatic ecosystems, including rivers and seas. Their small size makes them easily ingestible by aquatic organisms, either by mistake or through natural feeding behaviors, which poses serious risks. Moreover, microplastics readily adsorb other pollutants present in aquatic environments, creating pollutant complexes that can have a synergistic impact, magnifying their harmful effects compared to microplastics or pollutants acting alone. As a result, extensive research has focused on understanding the effects of microplastics on aquatic organisms. Numerous studies have demonstrated that aquatic organisms exposed to microplastics, either alone or in combination with other pollutants, exhibit abnormal hatching, development, and growth. Additionally, many genes, particularly those associated with the antioxidant system, display abnormal expression patterns in these conditions. In this review, we examine these impacts, by discussing specific studies that explore changes in phenotype and gene expression in aquatic organisms exposed to microplastics, both independently and in combination with adsorbed pollutants. [ABSTRACT FROM AUTHOR]

Published

2025

20. Changes in Gut Microbiota According to Disease Severity in a Lupus Mouse Model.

Author

Han, Eui-Jeong, Ahn, Ji-Seon, Choi, Yu-Jin, Kim, Da-Hye, and Chung, Hea-Jong

Subjects

GUT microbiome, SYSTEMIC lupus erythematosus, AUTOIMMUNE diseases, PATHOGENIC bacteria, LABORATORY mice

Abstract

Systemic lupus erythematosus (SLE) is a multifaceted autoimmune disease driven by immune dysregulation. This study investigated the relationship between gut microbiota and lupus severity using the MRL/lpr lupus mouse model. Mice were grouped based on total immunoglobulin (Ig)G, IgG2a levels, and urine albumin-to-creatinine ratio (ACR), allowing for the comparison of gut microbiota profiles across different disease severities. Interestingly, severe lupus mice exhibited significant reductions in Ruminiclostridium cellulolyticum, Lactobacillus johnsonii, and Kineothrix alysoides, while Clostridium saudiense, Pseudoflavonifractor phocaeensis, and Intestinimonas butyriciproducens were enriched. These microbial shifts correlated with elevated IgG, IgG2a, and ACR levels, indicating that changes in the gut microbiome may directly influence key immunological markers associated with lupus severity. The depletion of beneficial species and the enrichment of potentially pathogenic bacteria appear to contribute to immune activation and disease progression. This study suggests that gut microbiota dysbiosis plays a critical role in exacerbating lupus by modulating immune responses, reinforcing the link between microbial composition and lupus pathogenesis. Our findings provide the first evidence identifying these distinct gut microbial species as potential contributors to lupus severity, highlighting their role as key factors in disease progression. [ABSTRACT FROM AUTHOR]

Published

2025

21. Expression Patterns of Escape Genes in Turner Syndrome Fibroblasts and Induced Pluripotent Stem Cells.

Author

Byun, Seki, Yoon, Sang-Hoon, Hong, Yean-Ju, Jang, Hyun-Sik, Seo, Bong-Jong, Choi, Gyu-Tae, La, Hyeonwoo, Lee, Je-Woo, Hong, Kwonho, and Do, Jeong-Tae

Subjects

INDUCED pluripotent stem cells, PLURIPOTENT stem cells, X chromosome, GENE silencing, EPIBLAST

Abstract

Turner syndrome (TS) is an X monosomy-related disorder caused by X chromosome nondisjunction during embryonic development. Patients with TS have only one intact X chromosome, with the other either completely or partially lost. TS affects various tissues, including the liver, kidneys, brain, cardiovascular system, and ovaries. These abnormalities are suggested to involve an altered dosage of escape genes that evade X chromosome inactivation. However, the mechanisms and roles of these escape genes in the TS phenotype remain unclear. We hypothesized that the expression levels of escape genes differ between wild-type (WT) and TS cell lines. In this study, we generated induced pluripotent stem cell (iPSC) lines from WT and TS fibroblasts and examined the expression levels of escape genes in both undifferentiated fibroblasts and reprogrammed iPSCs from WT and TS samples. The reprogrammed WT and TS iPSCs exhibited general characteristics of pluripotency, including the expression of pluripotency markers and the potential to differentiate into all three germ layers. Forty-five escape genes were differentially expressed between the WT and TS cell lines. Among these, five genes (ATP7A, PHKA1, EBP, ZFX, and SMC1A) were suggested to be implicated in the TS phenotype. However, further studies using additional cell lines are necessary to clarify the correlation between TS and escape genes. [ABSTRACT FROM AUTHOR]

Published

2025

22. Functional and Structural Changes in the Inner Ear and Cochlear Hair Cell Loss Induced by Hypergravity.

Author

Choi, Jin Sil, Kim, Kyu-Sung, and Kim, Hyun Ji

Subjects

*HAIR cells, *VESTIBULAR apparatus, *MUSCULOSKELETAL system, *NEURONS, *ACOUSTIC nerve, *INNER ear

Abstract

Gravitational changes have been shown to cause significant abnormalities in various body systems, including the cardiovascular, immune, vestibular, and musculoskeletal systems. While numerous studies have examined the response of the vestibular system to gravitational stimulation, research on functional changes in the peripheral inner ear remains limited. The inner ear comprises two closely related structures: the vestibule and cochlea. These components share similar structures and neural functions, highlighting the importance of investigating changes in auditory nerve cells in response to gravitational alterations. To address this gap, we studied the functional and structural changes in the inner ear following exposure to hypergravity stimuli. Our findings demonstrate changes in auditory brainstem responses (ABRs) in the cochlea. ABR recordings were used to analyze click thresholds, as well as the amplitude and latency of tone bursts. The click thresholds at all frequencies increased in the group exposed to hypergravity in the long term. Additionally, tone burst results revealed significantly reduced amplitudes at high frequencies and delayed latencies in the hypergravity models. Notably, greater hair cell loss was observed in the middle and basal turns of the cochlea, indicating that mid and high-frequency regions are more vulnerable to hypergravity stimulation. Furthermore, nerve damage on the cochlear surface was evident in subjects exposed to 4G stimulation for 4 weeks. These findings suggest that the inner ear and its neural activity can be functionally and structurally affected by prolonged exposure to hypergravity. [ABSTRACT FROM AUTHOR]

Published

2025

23. Assessing the Efficacy of Mitochondria-Accumulating Self-Assembly Peptides in Pancreatic Cancer: An Animal Study.

Author

Choi, Ho Joong, Jin, Seongeon, Park, Junghyun, Lee, Dosang, Jeong, Hee Jeong, Kim, Ok-Hee, Ryu, Ja-Hyoung, and Kim, Say-June

Subjects

*WESTERN immunoblotting, *PANCREATIC cancer, *IMMUNOSTAINING, *INTRAVENOUS therapy, *IMMUNOHISTOCHEMISTRY

Abstract

Although pancreatic cancer presents with one of the most unfavorable prognoses, its treatment options are very limited. Mitochondria-targeting moieties, considered a new and prominent treatment modality, are expected to demonstrate synergistic anticancer effects due to their distinct mechanism compared to conventional chemotherapeutic approaches. This study evaluated the therapeutic potential of mitochondria-accumulating self-assembly peptides, referred to as Mito-FFs, utilizing both in vitro and in vivo pancreatic cancer models. Cellular viability assays revealed a concentration-dependent decrease in the survival of MIA-PACA2 pancreatic cancer cells upon exposure to Mito-FF treatment (p < 0.05). Subsequent in vitro Mito-FF treatments prompted the use of several molecular analyses, including Real-time PCR, Western blot analysis, and MitoSOX staining, which collectively indicated an upsurge in apoptosis, a concurrent reduction in the antioxidant enzyme expression, and an elevation in mitochondrial ROS levels (p < 0.05). In a murine xenograft model of pancreatic cancer, the intravenous administration of Mito-FF yielded a notable reduction in the tumor volume. Moreover, it upregulated the expression of pro-apoptotic markers, such as cleaved PARP and c-caspase 3, while concurrently downregulating the expression of an anti-apoptotic marker, MCL-1, as evidenced by both Western blot analysis and immunohistochemical staining (p < 0.05). It also resulted in the reduced expression of antioxidant enzymes like HO-1, catalase, and SOD2 within excised tumor tissues, as confirmed using Western blot analysis (p < 0.05). Cumulatively, the findings underscore the significant anticancer efficacy of Mito-FF against pancreatic cancer cells, predominantly mediated through the induction of apoptosis, suppression of antioxidant enzyme expression, and enhancement of mitochondrial ROS levels within the tumor microenvironment. [ABSTRACT FROM AUTHOR]

Published

2025

24. Effects of the Interactions Between Food Additive Titanium Dioxide and Matrices on Genotoxicity.

Author

Jeong, Su-Min, Nam, Han-Na, and Choi, Soo-Jin

Subjects

FOOD additives, TITANIUM dioxide, INTESTINAL absorption, DNA damage, CYTOTOXINS

Abstract

Titanium dioxide (TiO2), a white color food additive, is widely used in bakery products, candies, chewing gums, soups, and creamers. Concerns about its potential genotoxicity have recently emerged, particularly following the European Union's ban on its usage as a food additive due to its genotoxicity potential. Conflicting in vitro and in vivo results regarding its genotoxicity highlight the need for further in-depth investigation. Moreover, food additives can interact with food components or biological matrices, potentially altering their biological responses and genotoxicity. In this study, we evaluated the interactions between two different sizes of additive TiO2 particles and food or biological matrices, including albumin, fetal bovine serum (FBS), and glucose. The results showed that the hydrodynamic diameters of TiO2 increased upon interaction with albumin or FBS, but not with glucose. The presence of albumin or FBS reduced TiO2-induced cytotoxicity, oxidative stress, in vitro intestinal transport, and ex vivo intestinal absorption to untreated control levels, regardless of particle size. While TiO2 caused DNA damage in intestinal Caco-2 cells, the interactions with albumin or FBS significantly reduced the DNA damage to levels comparable to untreated controls. The DNA damage was closely related to oxidative stress caused by TiO2. These findings suggest that the interaction of TiO2 with albumin or FBS, resulting in increased hydrodynamic diameters, mitigates its cytotoxicity, oxidative stress, intestinal transport, and genotoxicity. Further investigation is required to fully understand the potential genotoxicity of TiO2 in food contexts. [ABSTRACT FROM AUTHOR]

Published

2025

25. Protocadherin-7 Regulates Monocyte Migration Through Regulation of Small GTPase RhoA and Rac1.

Author

Kim, Hyunsoo, Takegahara, Noriko, and Choi, Yongwon

Subjects

PHOSPHOPROTEIN phosphatases, CELL migration, CADHERINS, CELL culture, GUANOSINE triphosphatase

Abstract

Protocadherin-7 (Pcdh7) is a member of the non-clustered protocadherin δ1 subgroup within the cadherin superfamily. Pcdh7 has been shown to control osteoclast differentiation via the protein phosphatase 2A (PP2A)–glycogen synthase kinase-3β (GSK3β)–small GTPase signaling axis. As protocadherins serve multiple biological functions, a deeper understanding of Pcdh7's biological features is valuable. Using an in vitro mouse monocyte cell culture system, we demonstrate that Pcdh7 plays a role in regulating monocyte migration by modulating the small GTPases RhoA and Rac1. Pcdh7-deficient (Pcdh7−/−) bone marrow-derived monocytes exhibited impaired migration along with the reduced activation of RhoA and Rac1. This impaired migration was rescued by transduction with constitutively active forms of RhoA and Rac1. Treatment with the PP2A-specific activator DT-061 enhanced cell migration, whereas treatment with the GSK3β-specific inhibitor AR-A014418 inhibited migration in wild-type monocytes. In contrast, treatment with DT-061 failed to restore the impaired migration in Pcdh7−/− monocytes. These findings suggest the involvement of PP2A and GSK3β in monocyte migration, although the forced activation of PP2A alone is insufficient to restore impaired migration in Pcdh7−/− monocytes. Taken together, these results indicate that Pcdh7 regulates monocyte migration through the activation of RhoA and Rac1. Given the pivotal role of cell migration in both physiological and pathological processes, our findings provide a foundation for future research into therapeutic strategies targeting Pcdh7-regulated migration. [ABSTRACT FROM AUTHOR]

Published

2025

26. Administration of AICAR, an AMPK Activator, Prevents and Reverses Diabetic Polyneuropathy (DPN) by Regulating Mitophagy.

Author

Chandrasekaran, Krish, Choi, Joungil, Salimian, Mohammad, Hedayat, Ahmad F., and Russell, James W.

Subjects

*MITOCHONDRIAL dynamics, *AMP-activated protein kinases, *GLYCEMIC control, *DIABETIC neuropathies, *INSULIN sensitivity

Abstract

Diabetic peripheral neuropathy (DPN) is a common complication of diabetes in both Type 1 (T1D) and Type 2 (T2D). While there are no specific medications to prevent or treat DPN, certain strategies can help halt its progression. In T1D, maintaining tight glycemic control through insulin therapy can effectively prevent or delay the onset of DPN. However, in T2D, overall glucose control may only have a moderate impact on DPN, although exercise is clearly beneficial. Unfortunately, optimal exercise may not be feasible for many patients with DPN because of neuropathic foot pain and poor balance. Exercise has several favorable effects on health parameters, including body weight, glycemic control, lipid profile, and blood pressure. We investigated the impact of an exercise mimetic, 5-aminoimidazole-4-carboxamide ribonucleotide (AICAR), on DPN. AICAR treatment prevented or reversed experimental DPN in mouse models of both T2D and T1D. AICAR in high-fat diet (HFD-fed) mice increased the phosphorylation of AMPK in DRG neuronal extracts, and the ratio of phosphorylated AMPK to total AMPK increased by 3-fold (HFD vs. HFD+AICAR; p < 0.001). Phospho AMP increased the levels of dynamin-related protein 1 (DRP1, a mitochondrial fission marker), increased phosphorylated autophagy activating kinase 1 (ULK1) at Serine-555, and increased microtubule-associated protein light chain 3-II (LC3-II, a marker for autophagosome assembly) by 2-fold. Mitochondria isolated from DRG neurons of HFD-fed had a decrease in ADP-stimulated state 3 respiration (120 ± 20 nmol O2/min in HFD vs. 220 ± 20 nmol O2/min in control diet (CD); p < 0.001. Mitochondria isolated from HFD+AICAR-treated mice had increased state 3 respiration (240 ± 30 nmol O2/min in HFD+AICAR). However, AICAR's protection in DPN in T2D mice was also mediated by its effects on insulin sensitivity, glucose metabolism, and lipid metabolism. Drugs that enhance AMPK phosphorylation may be beneficial in the treatment of DPN. [ABSTRACT FROM AUTHOR]

Published

2025

27. Identification of Endometriosis Pathophysiologic-Related Genes Based on Meta-Analysis and Bayesian Approach.

Author

Kang, Jieun, Ahn, Kwangjin, Oh, Jiyeon, Lee, Taesic, Hwang, Sangwon, Uh, Young, and Choi, Seong Jin

Subjects

TRANSCRIPTION factors, GENE expression, SINGLE nucleotide polymorphisms, BAYESIAN analysis, PEARSON correlation (Statistics)

Abstract

Endometriosis is a complex disease with diverse etiologies, including hormonal, immunological, and environmental factors; however, its exact pathogenesis remains unknown. While surgical approaches are the diagnostic and therapeutic gold standard, identifying endometriosis-associated genes is a crucial first step. Five endometriosis-related gene expression studies were selected from the available datasets. Approximately, 14,167 genes common to these 5 datasets were analyzed for differential expression. Meta-analyses utilized fold-change values and standard errors obtained from each analysis, with the binomial and continuous datasets contributing to endometriosis presence and endometriosis severity meta-analysis, respectively. Approximately 160 genes showed significant results in both meta-analyses. For Bayesian analysis, endometriosis-related single nucleotide polymorphisms (SNPs), the human transcription factor catalog, uterine SNP-related gene expression, disease–gene databases, and interactome databases were utilized. Twenty-four genes, present in at least three or more databases, were identified. Network analysis based on Pearson's correlation coefficients revealed the HLA-DQB1 gene with both a high score in the Bayesian analysis and a central position in the network. Although ZNF24 had a lower score, it occupied a central position in the network, followed by other ZNF family members. Bayesian analysis identified genes with high confidence that could support discovering key diagnostic biomarkers and therapeutic targets for endometriosis. [ABSTRACT FROM AUTHOR]

Published

2025

28. Light Quality Plays a Crucial Role in Regulating Germination, Photosynthetic Efficiency, Plant Development, Reactive Oxygen Species Production, Antioxidant Enzyme Activity, and Nutrient Acquisition in Alfalfa.

Author

Rahman, Md Atikur, Lee, Sang-Hoon, Park, Hyung Soo, Min, Chang-Woo, Woo, Jae Hoon, Choi, Bo Ram, Rahman, Md. Mezanur, and Lee, Ki-Won

Subjects

RED light, BLUE light, PLANT biomass, REACTIVE oxygen species, GLUTATHIONE reductase, ALFALFA

Abstract

Light is a vital regulator of photosynthesis, energy production, plant growth, and morphogenesis. Although these key physiological processes are well understood, the effects of light quality on the pigment content, oxidative stress, reactive oxygen species (ROS) production, antioxidant defense systems, and biomass yield of plants remain largely unexplored. In this study, we applied different light-emitting diode (LED) treatments, including white light, red light, blue light, and a red+blue (1:1) light combination, to evaluate the traits mentioned above in alfalfa (Medicago sativa L.). Fluorescence staining showed that red light significantly triggered the oxidative stress indicators compared to blue and white light, while the combined red and blue light treatment significantly reduced the ROS (O2•−, H2O2) intensity in alfalfa seedlings. Interestingly, the combined light treatment significantly boosted the seed germination rate (%), maximum photochemical quantum yield of PSII (Fv/Fm), leaf greenness (SPAD score), photosynthetic pigment levels (chlorophyll a, chlorophyll b, and carotenoids), and plant biomass yield in alfalfa seedlings. The red and/or combined (red+blue) light treatments significantly regulated antioxidant enzymes (SOD, CAT, APX, and GR) and the expression of genes related to the ascorbate–glutathione (AsA-GSH) pathway, including monodehydroascorbate reductase (MsMDHAR), dehydroascorbate reductase (MsDHAR), ascorbate peroxidase (MsAPX), and glutathione reductase (MsGR). These results indicate that light quality is crucial for regulating the morphological, physiological, and molecular traits linked to alfalfa improvement. These findings suggest a new approach to enhancing the adaptation, as well as the morphological and agronomic yield, of alfalfa and forage legumes through light-quality-mediated improvement. [ABSTRACT FROM AUTHOR]

Published

2025

29. The Effects of Laxogenin and 5-Alpha-hydroxy-laxogenin on Myotube Formation and Maturation During Cultured Meat Production.

Author

Lim, Jeong Ho, Ahmad, Syed Sayeed, Hwang, Ye Chan, Baral, Ananda, Hur, Sun Jin, Lee, Eun Ju, and Choi, Inho

Subjects

IN vitro meat, MUSCLE mass, NUTRITIONAL value, EVIDENCE gaps, MYOGENESIS

Abstract

Cultured meat (CM) is derived from the in vitro myogenesis of muscle satellite (stem) cells (MSCs) and offers a promising alternative protein source. However, the development of a cost-effective media formulation that promotes cell growth has yet to be achieved. In this study, laxogenin (LAX) and 5-alpha-hydroxy-laxogenin (5HLAX) were computationally screened against myostatin (MSTN), a negative regulator of muscle mass, because of their antioxidant properties and dual roles as MSTN inhibitors and enhancers of myogenesis regulatory factors. In silico analysis showed LXG and 5HLXG bound to MSTN with binding free energies of −7.90 and −8.50 kcal/mol, respectively. At a concentration of 10 nM, LAX and 5HLAX effectively inhibited the mRNA and protein expressions of MSTN, promoted myogenesis, and enhanced myotube formation and maturation. In addition, by acting as agonists of ROS downregulating factors, they exhibited antioxidative effects. This study shows that supplementation with LAX or 5HLAX at 10 nM in CM production improves texture, quality, and nutritional value. We believe this study fills a research gap on media development for myotube formation and maturation, which are important factors for large-scale in vitro CM production that improve product quality, nutritional value, and efficacy. [ABSTRACT FROM AUTHOR]

Published

2025

30. Novel Lipid Nanocomplex Co-Carrying Bcl2 siRNA and Quantum Dots for EGF Receptor-Targeted Anti-Cancer Theranosis

Author

Choi, Moon Jung, primary, Kang, Seong Jae, additional, Lee, Yeon Kyung, additional, Choi, Kang Chan, additional, Lee, Do Hyun, additional, Jeong, Hwa Yeon, additional, Kim, Min Woo, additional, Kim, Keun Sik, additional, and Park, Yong Serk, additional

Published

2024

31. Cloning, Expression, Purification, and Characterization of Lactate Dehydrogenase from Plasmodium knowlesi: A Zoonotic Malaria Parasite

Author

Choi, Jae-Won, primary, Choi, Min-Ji, additional, Kim, Yeon-Jun, additional, and Kim, So Yeon, additional

Published

2024

32. Characterization of 3D Organotypic Culture of Mouse Adipose-Derived Stem Cells

Author

Son, Tae Gen, primary, Seo, Yoojin, additional, Kim, Won-Tae, additional, Kim, Meesun, additional, Choi, Seon Jeong, additional, Choi, Si Ho, additional, Sung, Byung-Jun, additional, Min, Jae-Seok, additional, Han, Eon Chul, additional, and Kim, Hyung-Sik, additional

Published

2024

33. Gastric Cancer and Intestinal Metaplasia: Differential Metabolic Landscapes and New Pathways to Diagnosis.

Author

Choi, Seong Ji, Choi, Hyuk Soon, Kim, Hyunil, Lee, Jae Min, Kim, Seung Han, Yoon, Jai Hoon, Keum, Bora, Kim, Hyo Jung, Chun, Hoon Jai, and Park, Youngja H.

Subjects

*LIQUID chromatography-mass spectrometry, *INTESTINAL cancer, *FALSE discovery rate, *PROLINE metabolism, *STOMACH cancer

Abstract

Gastric cancer (GC) is the fifth most common cause of cancer-related death worldwide. Early detection is crucial for improving survival rates and treatment outcomes. However, accurate GC-specific biomarkers remain unknown. This study aimed to identify the metabolic differences between intestinal metaplasia (IM) and GC to determine the pathways involved in GC. A metabolic analysis of IM and tissue samples from 37 patients with GC was conducted using ultra-performance liquid chromatography with tandem mass spectrometry. Overall, 665 and 278 significant features were identified in the aqueous and 278 organic phases, respectively, using false discovery rate analysis, which controls the expected proportion of false positives among the significant results. sPLS-DA revealed a clear separation between IM and GC samples. Steroid hormone biosynthesis, tryptophan metabolism, purine metabolism, and arginine and proline metabolism were the most significantly altered pathways. The intensity of 11 metabolites, including N1, N2-diacetylspermine, creatine riboside, and N-formylkynurenine, showed significant elevation in more advanced GC. Based on pathway enrichment analysis and cancer stage-specific alterations, we identified six potential candidates as diagnostic biomarkers: aldosterone, N-formylkynurenine, guanosine triphosphate, arginine, S-adenosylmethioninamine, and creatine riboside. These metabolic differences between IM and GC provide valuable insights into gastric carcinogenesis. Further validation is needed to develop noninvasive diagnostic tools and targeted therapies to improve the outcomes of patients with GC. [ABSTRACT FROM AUTHOR]

Published

2024

34. Innovative Therapeutic Delivery of Metastasis-Associated in Colon Cancer 1-Suppressing miRNA Using High Transmembrane 4 L6 Family Member 5-Targeting Exosomes in Colorectal Cancer Mouse Models.

Author

Choi, Byung-Jo, Lee, Dosang, Park, Jung Hyun, Hong, Tae Ho, Kim, Ok-Hee, Lee, Sang Chul, Kim, Kee-Hwan, Choi, Ho Joong, and Kim, Say-June

Subjects

*COLON cancer, *CELL migration inhibition, *COLORECTAL cancer, *TUMOR proteins, *TUMOR growth

Abstract

Elevated metastasis-associated in colon cancer 1 (MACC1) expression in colorectal cancer patients, and high transmembrane 4 L6 family member 5 (TM4SF5) protein expressed on various solid tumors' surface, are linked to aggressive cancer behavior and progression. In this study, adipose-derived stem cells (ASCs) were engineered to produce exosomes (Ex) that target the TM4SF5 protein on tumors. Moreover, MACC1-targeting microRNA was encapsulated within the Ex, resulting in TM4SF5-targeting Ex (MACC1-suppressing miRNA; miR-143). The anticancer effects of these Ex were investigated in vitro using the human colorectal cell line HCT116 and in vivo using colorectal cancer mouse xenograft models. In the in vivo assessment, administration of TM4SF5-targeting Ex[miR-143], referred to as tEx[miR-143] herein, resulted in the smallest tumor size, the lowest tumor growth rate, and the lightest excised tumors compared to other treatments (p < 0.05). It also led to the decreased expression of MACC-1 and anti-apoptotic markers MCL-1 and Bcl-xL while inducing the highest expression of pro-apoptotic markers BAX and BIM. These results were consistent with in vitro findings, where t Ex[miR-143] demonstrated the highest inhibition of HCT116 cell migration and invasion. These findings highlight the potential of tEx[miR-143] as an effective therapeutic strategy for colorectal cancer, demonstrating promising results in both targetability and anti-tumor effects in vitro and in vivo, warranting further investigation in clinical settings. [ABSTRACT FROM AUTHOR]

Published

2024

35. A Fungicide, Fludioxonil, Formed the Polyploid Giant Cancer Cells and Induced Metastasis and Stemness in MDA-MB-231 Triple-Negative Breast Cancer Cells.

Author

Go, Ryeo-Eun, Seong, Su-Min, Choi, Youngdong, and Choi, Kyung-Chul

Subjects

METASTATIC breast cancer, NF-kappa B, TRIPLE-negative breast cancer, CELL cycle, ANTIFUNGAL agents

Abstract

Fludioxonil, an antifungal agent used as a pesticide, leaves a measurable residue in fruits and vegetables. It has been identified to cause endocrine disruption, interrupt normal development, and cause various diseases such as cancers. In this study, fludioxonil was examined for its effects on the development and metastasis of breast cancer cells. On fludioxonil exposure (10−5 M) for 72 h, mutant p53 (mutp53) MDA-MB-231 triple-negative breast cancer (TNBC) cells significantly inhibited cell viability and developed into polyploid giant cancer cells (PGCCs), with an increase in the number of nuclei and expansion in the cell body size. Fludioxonil exposure disrupted the normal cell cycle phase ratio, resulting in a new peak. In addition, PGCCs showed greater motility than the control and were resistant to anticancer drugs, i.e., doxorubicin, cisplatin, and 5-fluorouracil. Cyclin E1, nuclear factor kappa B (NF-κB), and p53 expressions were remarkably increased, and the expression of cell cycle-, epithelial–mesenchymal-transition (EMT)-, and cancer stemness-related proteins were increased in the PGCCs. The daughter cells obtained from PGCCs had the single nucleus but maintained their enlarged cell size and showed greater cell migration ability and resistance to the anticancer agents. Consequently, fludioxonil accumulated Cyclin E1 and promoted the inflammatory cytokine-enriched microenvironment through the up-regulation of TNF and NF-κB which led to the transformation to PGCCs via abnormal cell cycles such as mitotic delay and mitotic slippage in mutp53 TNBC MDA-MB-231 cells. PGCCs and their daughter cells exhibited significant migration ability, chemo-resistance, and cancer stemness. These results strongly suggest that fludioxonil, as an inducer of potential genotoxicity, may induce the formation of PGCCs, leading to the formation of metastatic and stem cell-like breast cancer cells. [ABSTRACT FROM AUTHOR]

Published

2024

36. Advancing Cardiovascular Drug Screening Using Human Pluripotent Stem Cell-Derived Cardiomyocytes.

Author

Oh, Jisun, Kwon, Oh-Bin, Park, Sang-Wook, Kim, Jun-Woo, Lee, Heejin, Kim, Young-Kyu, Choi, Eun Ji, Jung, Haiyoung, Choi, Dong Kyu, Oh, Bae Jun, and Min, Sang-Hyun

Subjects

DRUG use testing, DRUG side effects, CARDIOVASCULAR agents, HIGH throughput screening (Drug development), DRUG discovery, CALCIUM channels

Abstract

Human pluripotent stem cell-derived cardiomyocytes (hPSC-CMs) have emerged as a promising tool for studying cardiac physiology and drug responses. However, their use is largely limited by an immature phenotype and lack of high-throughput analytical methodology. In this study, we developed a high-throughput testing platform utilizing hPSC-CMs to assess the cardiotoxicity and effectiveness of drugs. Following an optimized differentiation and maturation protocol, hPSC-CMs exhibited mature CM morphology, phenotype, and functionality, making them suitable for drug testing applications. We monitored intracellular calcium dynamics using calcium imaging techniques to measure spontaneous calcium oscillations in hPSC-CMs in the presence or absence of test compounds. For the cardiotoxicity test, hPSC-CMs were treated with various compounds, and calcium flux was measured to evaluate their effects on calcium dynamics. We found that cardiotoxic drugs withdrawn due to adverse drug reactions, including encainide, mibefradil, and cetirizine, exhibited toxicity in hPSC-CMs but not in HEK293-hERG cells. Additionally, in the effectiveness test, hPSC-CMs were exposed to ATX-II, a sodium current inducer for mimicking long QT syndrome type 3, followed by exposure to test compounds. The observed changes in calcium dynamics following drug exposure demonstrated the utility of hPSC-CMs as a versatile model system for assessing both cardiotoxicity and drug efficacy. Overall, our findings highlight the potential of hPSC-CMs in advancing drug discovery and development, which offer a physiologically relevant platform for the preclinical screening of novel therapeutics. [ABSTRACT FROM AUTHOR]

Published

2024

37. Understanding Autoimmunity: Mechanisms, Predisposing Factors, and Cytokine Therapies.

Author

Yasmeen, Farzana, Pirzada, Rameez Hassan, Ahmad, Bilal, Choi, Bogeum, and Choi, Sangdun

Subjects

IMMUNOLOGICAL tolerance, AUTOIMMUNITY, B cells, T cells, CYTOKINES, IMMUNE response, THERAPEUTICS, B cell receptors

Abstract

Autoimmunity refers to an organism's immune response against its own healthy cells, tissues, or components, potentially leading to irreversible damage to vital organs. Central and peripheral tolerance mechanisms play crucial roles in preventing autoimmunity by eliminating self-reactive T and B cells. The disruption of immunological tolerance, characterized by the failure of these mechanisms, results in the aberrant activation of autoreactive lymphocytes that target self-tissues, culminating in the pathogenesis of autoimmune disorders. Genetic predispositions, environmental exposures, and immunoregulatory disturbances synergistically contribute to the susceptibility and initiation of autoimmune pathologies. Within the realm of immune therapies for autoimmune diseases, cytokine therapies have emerged as a specialized strategy, targeting cytokine-mediated regulatory pathways to rectify immunological imbalances. Proinflammatory cytokines are key players in inducing and propagating autoimmune inflammation, highlighting the potential of cytokine therapies in managing autoimmune conditions. This review discusses the etiology of autoimmune diseases, current therapeutic approaches, and prospects for future drug design. [ABSTRACT FROM AUTHOR]

Published

2024

38. Synergistic Enhancement of Antitumor Effects by Combining Abemaciclib with Desipramine.

Author

Li, Yan, Sung, Yeojin, Choi, Young Eun, Choi, Yongdoo, and Goh, Sung-Ho

Subjects

CYCLIN-dependent kinase inhibitors, TREATMENT effectiveness, EPIDERMAL growth factor receptors, METASTATIC breast cancer, INTERSTITIAL lung diseases, TRICYCLIC antidepressants, RECEPTOR for advanced glycation end products (RAGE)

Abstract

Cyclin-dependent kinase 4 and 6 (CDK4/6) inhibitors, including abemaciclib, have been approved for the treatment of hormone receptor-positive, human epidermal growth factor receptor 2 (HER2)-negative advanced, and metastatic breast cancer. Despite the high therapeutic efficacy of CDK4/6 inhibitors, they are associated with various adverse effects, including potentially fatal interstitial lung disease. Therefore, a combination of CDK4/6 inhibitors with letrozole or fulvestrant has been attempted but has demonstrated limitations in reducing adverse effects, highlighting the need to develop new combination therapies. This study proposes a combination strategy using CDK4/6 inhibitors and tricyclic antidepressants to enhance the therapeutic outcomes of these inhibitors while reducing their side effects. The therapeutic efficacies of abemaciclib and desipramine were tested in different cancer cell lines (H460, MCF7, and HCT-116). The antitumor effects of the combined abemaciclib and desipramine treatment were evaluated in a xenograft colon tumor model. In vitro cell studies have shown the synergistic anticancer effects of combination therapy in the HCT-116 cell line. The combination treatment significantly reduced tumor size compared with control or single treatment without causing apparent toxicity to normal tissues. Although additional in vivo studies are necessary, this study suggests that the combination therapy of abemaciclib and desipramine may represent a novel therapeutic approach for treating solid tumors. [ABSTRACT FROM AUTHOR]

Published

2024

39. High Correlation Between Li + Solvation Energy and Li + Ionic Conductivity in Lithium Metal Battery Electrolytes.

Author

Choi, Jihoon and Han, Young-Kyu

Subjects

*IONIC conductivity, *BINDING energy, *SOLVENTS, *ELECTROLYTES, *ANIONS

Abstract

In lithium metal batteries, accurately estimating the Li+ solvation ability of solvents is essential for effectively modulating the Li+ solvation sheath to form a stable interphase and achieve high ionic conductivity. However, previous studies have shown that the theoretically calculated Li+ binding energy, commonly used to evaluate solvation ability, exhibits only a moderate correlation with experimentally measured ionic conductivity (R2 = 0.68). In this study, to determine the effective theoretical descriptor for evaluating the solvation ability, Li+ solvation energy was adopted instead of Li+ binding energy, and its correlation with ionic conductivity was compared. Using a sophisticated calculation model that considers the Li+ counter anion and solvent, it was demonstrated that the tendency between the calculated Li+ solvation energies and experimentally measured ionic conductivities is highly consistent (R2 = 0.97). Therefore, Li+ solvation energy is suggested as the theoretical descriptor for evaluating solvation ability. All these findings encourage the development of effective molecular design of solvents for lithium metal batteries. [ABSTRACT FROM AUTHOR]

Published

2024

40. Characterization of Site-Specific N- and O-Glycopeptides from Recombinant Spike and ACE2 Glycoproteins Using LC-MS/MS Analysis.

Author

Song, Ju Hwan, Jang, Sangeun, Choi, Jin-Woong, Hwang, Seoyoung, Kim, Kyoung Heon, Kim, Hye-Yeon, Park, Sun Cheol, Lee, Wonbin, and Lee, Ju Yeon

Subjects

SARS-CoV-2, RECOMBINANT proteins, PLANT proteins, ANGIOTENSIN converting enzyme, PROTEIN structure

Abstract

The COVID-19 pandemic, caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), has resulted in hundreds of millions of infections and millions of deaths globally. Although vaccination campaigns are mitigating the pandemic, emerging viral variants continue to pose challenges. The spike (S) protein of SARS-CoV-2 plays a critical role in viral entry by binding to the angiotensin-converting enzyme 2 (ACE2) receptor, making both proteins essential targets for therapeutic and vaccine development. The glycosylation of these proteins influences their structure and function. This underscores the need for detailed site-specific glycoproteomic analysis. In this study, we characterized the N- or O-glycosylation profiles of the recombinant receptor-binding domain (RBD) of spike protein and ACE2 proteins expressed from Expi293F cells, as well as the S2 subunit of spike protein expressed in plant (N. benthamiana) cells. Using a high-resolution Orbitrap Eclipse Tribrid mass spectrometer equipped with the Ultimate 3000 RSLCnano and I-GPA (Integrated GlycoProteome Analyzer) developed in a previous study, 148 N- and 28 O-glycopeptides from RBD, 71 N-glycopeptides from the S2 subunit, and 139 N-glycopeptides from ACE2 were characterized. In addition, we report post-translational modifications (PTMs) of glycan, including mannose-6-phosphate (M6P) and GlcNAc-1-phosphate-6-O-mannose in N-glycan of RBD and ACE2, and O-acetylation in O-glycan of RBD, identified for the first time in these recombinant proteins. The relative abundance distribution according to glycosites and glycan types were analyzed by quantified site-specific N- and O (only from RBD)-glycopeptides from RBD, S2, and ACE2 using I-GPA. Asn331 for RBD, Asn1098 for S2, and Asn103 for ACE2 were majorly N-glycosylated, and dominant glycan-type was complex from RBD and ACE2 and high-mannose from S2. These findings will provide valuable insights into the glycosylation patterns that influence protein function and immunogenicity and offer new perspectives for the development of vaccines and antibody-based therapies against COVID-19. [ABSTRACT FROM AUTHOR]

Published

2024

41. Indocyanine Blue (ICB) as a Functional Alternative to Indocyanine Green (ICG) for Enhanced 700 nm NIR Imaging.

Author

Yamashita, Atsushi, Jang, Paul, Bao, Kai, Kashiwagi, Satoshi, Frangioni, John V., and Choi, Hak Soo

Subjects

INDOCYANINE green, TREATMENT effectiveness, LYMPH nodes, MOLECULAR weights, OPTICAL properties

Abstract

Despite significant advancements in bioimaging technology, only a limited number of fluorophores are currently approved for clinical applications. Indocyanine green (ICG) is the first FDA-approved near-infrared (NIR) fluorophore and has significantly advanced clinical interventions over the past three decades. However, its single-channel imaging at 800 nm emission is often insufficient for capturing comprehensive diagnostic information during surgery. In this study, we evaluate indocyanine blue (ICB), an ICG analog with a shorter polymethine bridge, as a promising candidate for multi-channel NIR imaging. ICB demonstrated peak absorption and emission approximately 100 nm shorter than ICG in aqueous solutions, placing it within the 700 nm range of the NIR window. Furthermore, ICB exhibited favorable solubility and optical properties in aqueous environments, supporting its potential for in vivo imaging applications. Notably, ICB shows rapid systemic clearance, likely due to its lower molecular weight, which facilitates clear visualization in angiography, cholangiography, and lymph node mapping with minimal background interference. Additionally, dual-channel imaging of tumors and lymph nodes was achieved using a tumor-targeting fluorophore in conjunction with ICB, illustrating the potential for enhanced intraoperative guidance. ICB emitting at 700 nm, therefore, can be useful in NIR imaging, broadening the possibilities for improved diagnostic accuracy and therapeutic outcomes in clinical settings. [ABSTRACT FROM AUTHOR]

Published

2024

42. Protective Effects of Fasudil Against Cisplatin-Induced Ototoxicity in Zebrafish: An In Vivo Study.

Author

Lim, Kang Hyeon, Park, Saemi, Han, Eunjung, Baek, Hyun woo, Hyun, Kyungtae, Hong, Sumin, Kim, Hwee-Jin, Lee, Yunkyoung, Rah, Yoon Chan, and Choi, June

Subjects

HAIR cells, APOPTOSIS, REACTIVE oxygen species, CISPLATIN, MEMBRANE potential

Abstract

While cisplatin is an effective anti-tumor treatment, it induces ototoxicity through mechanisms involving DNA damage, oxidative stress, and programmed cell death. Rho-associated coiled-coil-containing protein kinase (ROCK) is essential for numerous cellular processes, including apoptosis regulation. Studies have suggested that ROCK inhibitors could prevent apoptosis and promote regeneration. We aimed to investigate the protective effects of the ROCK inhibitor fasudil against cisplatin-induced ototoxicity in a zebrafish model. The zebrafish larvae were exposed to 1 mM cisplatin alone or 1 mM cisplatin co-administered with varying concentrations of fasudil for 4 h. The surviving hair cell counts, apoptosis, reactive oxygen species (ROS) levels, mitochondrial membrane potential (ΔΨm), caspase 3 activity, and autophagy activation were assessed. Rheotaxis behavior was also examined. Cisplatin reduced hair cell counts; increased apoptosis, ROS production, and ΔΨm loss; and activated caspase 3 and autophagy. Fasudil (100 and 500 µM) mitigated cisplatin-induced hair cell loss, reduced apoptosis, and inhibited caspase 3 and autophagy activation. Rheotaxis in zebrafish was preserved by the co-administration of fasudil with cisplatin. Cisplatin induces hair cell apoptosis in zebrafish, whereas fasudil is a promising protective agent against cisplatin-induced ototoxicity. [ABSTRACT FROM AUTHOR]

Published

2024

43. The Genetic Variants Influencing Hypertension Prevalence Based on the Risk of Insulin Resistance as Assessed Using the Metabolic Score for Insulin Resistance (METS-IR).

Author

Shine, Bo-Kyung, Choi, Ja-Eun, Park, Young-Jin, and Hong, Kyung-Won

Subjects

*HDL cholesterol, *GENOME-wide association studies, *INSULIN resistance, *GENETIC variation, *BODY mass index

Abstract

Insulin resistance is a major indicator of cardiovascular diseases, including hypertension. The Metabolic Score for Insulin Resistance (METS-IR) offers a simplified and cost-effective way to evaluate insulin resistance. This study aimed to identify genetic variants associated with the prevalence of hypertension stratified by METS-IR score levels. Data from the Korean Genome and Epidemiology Study (KoGES) were analyzed. The METS-IR was calculated using the following formula: ln [(2 × fasting blood glucose (FBG) + triglycerides (TG)) × body mass index (BMI)]/ ln [high-density lipoprotein cholesterol (HDL-C)]. The participants were divided into tertiles 1 (T1) and 3 (T3) based on their METS-IR scores. Genome-wide association studies (GWAS) were performed for hypertensive cases and non-hypertensive controls within these tertile groups using logistic regression adjusted for age, sex, and lifestyle factors. Among the METS-IR tertile groups, 3517 of the 19,774 participants (17.8%) at T1 had hypertension, whereas 8653 of the 20,374 participants (42.5%) at T3 had hypertension. A total of 113 single-nucleotide polymorphisms (SNPs) reached the GWAS significance threshold (p < 5 × 10−8) in at least one tertile group, mapping to six distinct genetic loci. Notably, four loci, rs11899121 (chr2p24), rs7556898 (chr2q24.3), rs17249754 (ATP2B1), and rs1980854 (chr20p12.2), were significantly associated with hypertension in the high-METS-score group (T3). rs10857147 (FGF5) was significant in both the T1 and T3 groups, whereas rs671 (ALDH2) was significant only in the T1 group. The GWASs identified six genetic loci significantly associated with hypertension, with distinct patterns across METS-IR tertiles, highlighting the role of metabolic context in genetic susceptibility. These findings underscore critical genetic factors influencing hypertension prevalence and provide insights into the metabolic–genetic interplay underlying this condition. [ABSTRACT FROM AUTHOR]

Published

2024

44. Neurotrophic Effects of Foeniculum vulgare Ethanol Extracts on Hippocampal Neurons: Role of Anethole in Neurite Outgrowth and Synaptic Development.

Author

Habiba, Sarmin Ummey, Choi, Ho Jin, Munni, Yeasmin Akter, Yang, In-Jun, Haque, Md. Nazmul, and Moon, Il Soo

Subjects

*GLYCOGEN synthase kinase, *PHOSPHATIDYLINOSITOL 3-kinases, *ALZHEIMER'S disease, *FENNEL, *TREATMENT effectiveness

Abstract

Foeniculum vulgare Mill, commonly known as fennel, is an aromatic herb traditionally used for culinary and medicinal purposes, with potential therapeutic effects on neurological disorders. However, limited research has focused on its neurotrophic impact, particularly on neuronal maturation and synaptic development. This study investigates the neurotrophic effects of F. vulgare ethanol extracts (FVSE) on the maturation of rat primary hippocampal neurons. Results show that FVSE and its prominent component, anethole, significantly promote neurite outgrowth in a dose-dependent manner. Optimal axonal and dendritic growth occurred at concentrations of 40 µg/mL FVSE and 20 µM anethole, respectively, without causing cytotoxicity, underscoring the safety of FVSE for neuronal health. Additionally, FVSE enhances the formation of synapses, essential for neuronal communication. Network pharmacology analysis revealed that FVSE components influence critical neurotrophic pathways, including PI3K-AKT and Alzheimer's disease pathways. Specifically, FVSE modulates key proteins, including tropomyosin receptor kinase (Trk), glycogen synthase kinase 3 (GSK3βser9), phosphatidylinositol 3-kinase (PI3K), and extracellular signal-regulated protein kinase (Erk1/2). Anethole was found to play a key role in regulating these pathways, which was confirmed by immunocytochemistry experiments demonstrating its effect on promoting neuronal growth and synaptic development. In conclusion, this study highlights the neurotrophic properties of FVSE, with anethole emerging as a critical bioactive compound. These findings provide valuable insights into the therapeutic potential of fennel in treating neurological disorders, offering a basis for future research into interventions promoting neuronal growth and survival. [ABSTRACT FROM AUTHOR]

Published

2024

45. Chronological Dynamics of Neuroinflammatory Responses in a High-Fat Diet Mouse Model.

Author

Bae, Heekyong R., Shin, Su-Kyung, Lee, Ji-Yoon, Choi, Seong-Su, and Kwon, Eun-Young

Subjects

ALZHEIMER'S patients, HIGH-fat diet, INFLAMMATION, GENE expression, LABORATORY mice

Abstract

Obesity is known to affect various tissues and contribute to conditions such as neuroinflammation. However, the specific mechanisms and time-dependent progression of these effects across different tissues remain unclear. In this study, we monitored gene expression at intervals to examine the effects of a high-fat diet (HFD) on brain, liver, adipose, and muscle tissues in male C57/BJ mice, with a particular focus on neuroinflammation. Early inflammatory responses exhibit a progression that starts in the liver, extends to adipose tissue, and subsequently involves muscle and brain tissues. Although the brain did not show significant gene expression of inflammatory responses, mechanisms leading to neuroinflammation increased after 24 weeks, possibly through systemic chronic inflammation (SCI). Notably, mitochondrial complex I activity serves as a biomarker to indicate the inflammatory transition from the liver to adipose and other tissues caused by SCI. These similar gene expression dynamics were also observed in the hippocampus of Alzheimer's patients and in an Alzheimer's mouse model treated with a HFD. These results suggest that initially, the brain suppresses inflammatory responses, including interferon-gamma (IFN-γ), more than other tissues in response to a HFD. However, at the onset of SCI, the brain eventually exhibits inflammatory dynamics similar to those of other tissues. This underscores the significance of our findings, indicating that the early kinetics of chronic IFN-γ response and mitochondrial complex I activity inhibition serve as crucial biomarkers, emerging early in various conditions, including obesity and aging. [ABSTRACT FROM AUTHOR]

Published

2024

46. Role of Platelet-Activating Factor in the Pathogenesis of Chronic Spontaneous Urticaria.

Author

Choi, Bo Youn and Ye, Young-Min

Subjects

*MAST cells, *HEAT shock proteins, *MOLECULAR structure, *INFLAMMATORY mediators, *PEPTIDES

Abstract

Chronic spontaneous urticaria (CSU) is a debilitating condition characterized by mast cell activation. Platelet-activating factor (PAF) is produced by various immune cells, including mast cells, basophils, lymphocytes, and eosinophils, which play crucial roles in CSU pathogenesis. It induces mast cell degranulation, increases vascular permeability, and promotes the chemotaxis of inflammatory cells. These effects result in the release of inflammatory mediators, the development of edema, and the persistence of inflammation, which are key features of CSU. Notably, elevated PAF levels have been linked to heightened disease activity and resistance to antihistamine treatment in CSU patients. Despite these findings, the precise role of PAF in CSU pathogenesis remains unclear. Rupatadine, an antihistamine, and heat shock protein 10, a natural anti-inflammatory peptide that selectively inhibits PAF-induced mast cell degranulation, have demonstrated anti-PAF activity. Furthermore, with the molecular structure of the PAF receptor now identified, several experimental PAF receptor antagonists have been synthesized. However, there remains a significant need for the development of therapeutic options targeting PAF in CSU management. [ABSTRACT FROM AUTHOR]

Published

2024

47. Vine Tea Extract (VTE) Inhibits High-Fat Diet-Induced Adiposity: Evidence of VTE's Anti-Obesity Effects In Vitro and In Vivo.

Author

Lim, Wonchul, Choi, Seongmin, Kim, Jinhak, Baek, Kwang-Soo, Park, Minkuk, Lee, Gakyung, and Lim, Tae-Gyu

Subjects

*ORAL drug administration, *WEIGHT gain, *HIGH-fat diet, *TEA extracts, *BODY weight, *LIPOLYSIS

Abstract

This study focused on evaluating the anti-obesity effects of an extract from Ampelopsis grossedentata (Hand.-Mazz.) W. T. Wang, also known as vine tea, in mature adipocytes and high-fat diet-induced obese mice. Vine tea extract (VTE) effectively decreased lipid accumulation in mature adipocytes without cytotoxicity, as confirmed by the regulation of several factors associated with adipogenesis, lipogenesis, or lipolysis. Subsequently, in a 12-week experiment with obese mice, oral VTE administration significantly reduced body weight gain induced with high-fat diet intake. Au-topsy findings showed reduced fat accumulation in various areas without liver damage. The VTE-administered group showed lower serum LDL levels, while increasing HDL, than the high-fat diet-administered group. Analysis of adipose tissue biomarkers indicated VTE's ability to inhibit adipogenesis and lipogenesis, promote lipolysis, and regulate energy metabolism, contributing to reduced adiposity induced by the consumption of a high-fat diet. [ABSTRACT FROM AUTHOR]

Published

2024

48. Exposure to Radiofrequency Electromagnetic Fields Enhances Melanin Synthesis by Activating the P53 Signaling Pathway in Mel-Ab Melanocytes.

Author

Kim, Ju Hwan, Kang, Dong-Jun, Seok, Jun Young, Kim, Mi-Hye, Kim, Dong-Seok, Jeon, Sang-Bong, Choi, Hyung-Do, Moon, Jung Ick, Kim, Nam, and Kim, Hak Rim

Subjects

MELANOCORTIN receptors, CARRIER proteins, ELECTROMAGNETIC fields, RADIATION absorption, PHENOL oxidase, MELANOGENESIS, MICROPHTHALMIA-associated transcription factor

Abstract

The skin is the largest body organ that can be physiologically affected by exposure to radiofrequency electromagnetic fields (RF-EMFs). We investigated the effect of RF-EMFs on melanogenesis; Mel-Ab melanocytes were exposed to 1760 MHz radiation with a specific absorption rate of 4.0 W/kg for 4 h/day over 4 days. Exposure to the RF-EMF led to skin pigmentation, with a significant increase in melanin production in Mel-Ab melanocytes. The phosphorylation level of cAMP response element binding protein (CREB) and the expression of microphthalmia-associated transcription factor (MITF), which regulate the expression of tyrosinase, were significantly increased in Mel-Ab after RF-EMF exposure. Interestingly, the expression of tyrosinase was significantly increased, but tyrosinase activity was unchanged in the RF-EMF-exposed Mel-Ab cells. Additionally, the expression of p53 and melanocortin 1 receptor (MC1R), which regulate MITF expression, was significantly increased. These results suggest that the RF-EMF induces melanogenesis by increasing phospho-CREB and MITF activity. Importantly, when Mel-Ab cells were incubated at 38 °C, the melanin production and the levels of tyrosinase significantly decreased, indicating that the increase in melanin synthesis by RF-EMF exposure is not due to a thermal effect. In conclusion, RF-EMF exposure induces melanogenesis in Mel-Ab cells through the increased expression of tyrosinase via the activation of MITF or the phosphorylation of CREB, which are initiated by the activation of p53 and MC1R. [ABSTRACT FROM AUTHOR]

Published

2024

49. 4-Hexylresorcinol Enhances Glut4 Expression and Glucose Homeostasis via AMPK Activation and Histone H3 Acetylation.

Author

Che, Xiangguo, Oh, Ji-Hyeon, Kang, Yei-Jin, Kim, Dae-Won, Kim, Seong-Gon, Choi, Je-Yong, and Garagiola, Umberto

Subjects

BLOOD sugar, AMP-activated protein kinases, HISTONE acetylation, HISTONE deacetylase inhibitors, WEIGHT loss

Abstract

This study investigates the potential of 4-hexylresorcinol (4HR) as a novel antidiabetic agent by assessing its effects on blood glucose levels, Glut4 expression, AMPK phosphorylation, and Histone H3 acetylation (Ac-H3) in the liver. In vitro experiments utilized Huh7 and HepG2 cells treated with varying concentrations of 4HR. Glut4, p-AMPK, and Ac-H3 expression levels were quantified via Western blotting. Additionally, GAPDH activity and glucose uptake were evaluated. In vivo experiments employed streptozotocin (STZ)-induced diabetic rats, with or without 4HR treatment, monitoring blood glucose, body weight, and hepatic levels of Glut4, p-AMPK, and Ac-H3. In vitro, 4HR treatment increased GAPDH activity and glucose uptake. Elevated Glut4, p-AMPK, and Ac-H3 levels were observed 8 h after 4HR administration. Inhibition of p-AMPK using compound C reduced 4HR-mediated Glut4 expression. In STZ-induced diabetic rats, 4HR significantly upregulated Glut4, p-AMPK, and Ac-H3 expression in the liver. Periodic 4HR injections mitigated weight loss and lowered blood glucose levels in STZ-injected animals. Histological analysis revealed increased glycogen storage in hepatocytes of the 4HR-treated group. Overall, 4HR enhanced Glut4 expression through upregulation of AMPK activity and histone H3 acetylation in vitro and in vivo, improving hepatic glucose homeostasis and suggesting potential as a candidate for diabetes treatment. [ABSTRACT FROM AUTHOR]

Published

2024

50. Hair Growth Effect and the Mechanisms of Rosa rugosa Extract in DHT-Induced Alopecia Mice Model.

Author

Kim, Ha-Rim, Park, Jung Up, Lee, Seung-Hyeon, Park, Jae Young, Lee, Wonwoo, Choi, Kyung-Min, Kim, Seon-Young, and Park, Mi Hee

Subjects

VASCULAR endothelial growth factors, EPIDERMAL growth factor, HAIR growth, HAIR removal, WNT signal transduction

Abstract

Rosa rugosa is a medicinal plant known for its potential anti-inflammatory, antioxidant, anti-cancer, and antimicrobial benefits. The pharmacological effects of Rosa rugosa extract on hair loss have not yet been documented. This research sought to assess the inhibitory effects and mechanisms of action of Rosa rugosa water extract (RWE) in a mouse model of dihydrotestosterone (DHT)-induced alopecia. The study was conducted using C57BL/6 mice, which were assigned to five groups: control, DHT-treated, Rosa rugosa water extract (RWE) at doses of 25 mg/kg and 100 mg/kg body weight, and bicalutamide-treated. To induce hair loss, dihydrotestosterone (1 mg/day per body weight) was administered via intraperitoneal injections, and dorsal hair removal was timed to align with the telogen phase. Each group received oral treatments for a period of 23 days. In this study, we assessed hair growth activity, examined histological changes, and performed immunoblot analysis. We noted improvements in hair length and thickness. Additionally, the protein expression of growth factors associated with hair growth, including vascular endothelial growth factor (VEGF), epidermal growth factor (EGF), and insulin-like growth factor-1 (IGF-1), showed significant increases in the group treated with RWE. Additionally, treatment with RWE suppressed the protein expression of hair growth inhibitory factors, including dickkopf WNT signaling pathway inhibitor 1 (DKK1) and interleukin (IL)-6. Moreover, hair growth regulatory pathway related factors, including ERK, AKT, and GSK-3β, were activated. These findings indicate that RWE could serve as a promising natural therapy for preventing hair loss by enhancing the production of factors that promote hair growth while inhibiting those that suppress it. [ABSTRACT FROM AUTHOR]

Published

2024