Your search keyword '"Eunho Chun"' showing total 4 results

1. Highly secreted tryptophanyl tRNA synthetase 1 as a potential theranostic target for hypercytokinemic severe sepsis

Author

Yoon Tae Kim, Jin Won Huh, Yun Hui Choi, Hee Kyeong Yoon, Tram TT Nguyen, Eunho Chun, Geunyeol Jeong, Sunyoung Park, Sungwoo Ahn, Won-Kyu Lee, Young-Woock Noh, Kyoung Sun Lee, Hee-Sung Ahn, Cheolju Lee, Sang Min Lee, Kyung Su Kim, Gil Joon Suh, Kyeongman Jeon, Sunghoon Kim, and Mirim Jin

Subjects

Sepsis, Theranostics, Tryptophanyl-tRNA Synthetase (WARS1), Hypercytokinemia, Anti-WARS1 Antibody, Medicine (General), R5-920, Genetics, QH426-470

Abstract

Abstract Despite intensive clinical and scientific efforts, the mortality rate of sepsis remains high due to the lack of precise biomarkers for patient stratification and therapeutic guidance. Secreted human tryptophanyl-tRNA synthetase 1 (WARS1), an endogenous ligand for Toll-like receptor (TLR) 2 and TLR4 against infection, activates the genes that signify the hyperinflammatory sepsis phenotype. High plasma WARS1 levels stratified the early death of critically ill patients with sepsis, along with elevated levels of cytokines, chemokines, and lactate, as well as increased numbers of absolute neutrophils and monocytes, and higher Sequential Organ Failure Assessment (SOFA) scores. These symptoms were recapitulated in severely ill septic mice with hypercytokinemia. Further, injection of WARS1 into mildly septic mice worsened morbidity and mortality. We created an anti-human WARS1-neutralizing antibody that suppresses proinflammatory cytokine expression in marmosets with endotoxemia. Administration of this antibody into severe septic mice attenuated cytokine storm, organ failure, and early mortality. With antibiotics, the antibody almost completely prevented fatalities. These data imply that blood-circulating WARS1-guided anti-WARS1 therapy may provide a novel theranostic strategy for life-threatening systemic hyperinflammatory sepsis.

Published

2023

2. Author Correction: Highly secreted tryptophanyl tRNA synthetase 1 as a potential theranostic target for hypercytokinemic severe sepsis

Author

Yoon Tae Kim, Jin Won Huh, Yun Hui Choi, Hee Kyeong Yoon, Tram TT Nguyen, Eunho Chun, Geunyeol Jeong, Sunyoung Park, Sungwoo Ahn, Won-Kyu Lee, Young-Woock Noh, Kyoung Sun Lee, Hee-Sung Ahn, Cheolju Lee, Sang Min Lee, Kyung Su Kim, Gil Joon Suh, Kyeongman Jeon, Sunghoon Kim, and Mirim Jin

Subjects

Medicine (General), R5-920, Genetics, QH426-470

Published

2024

3. Tryptophan-dependent and -independent secretions of tryptophanyl- tRNA synthetase mediate innate inflammatory responses

Author

Tram Thuy Thuy Nguyen, Yun Hui Choi, Won-Kyu Lee, Yeounjung Ji, Eunho Chun, Yi Hyo Kim, Joo-Eun Lee, Hyun Suk Jung, Ji Hun Suh, Sunghoon Kim, and Mirim Jin

Subjects

CP: Molecular biology, CP: Immunology, Biology (General), QH301-705.5

Abstract

Summary: While cytoplasmic tryptophanyl-tRNA synthetase (WARS1) ligates tryptophan (Trp) to its cognate tRNAs for protein synthesis, it also plays a role as an innate immune activator in extracellular space. However, its secretion mechanism remains elusive. Here, we report that in response to stimuli, WARS1 can be secreted via two distinct pathways: via Trp-dependent secretion of naked protein and via Trp-independent plasma-membrane-derived vesicles (PMVs). In the direct pathway, Trp binding to WARS1 induces a “closed” conformation, generating a hydrophobic surface and basic pocket. The Trp-bound WARS1 then binds stable phosphatidylinositol (4,5)-biphosphate and inner plasma membrane leaflet, passing across the membrane. In the PMV-mediated secretion, WARS1 recruits calpain 2, which is activated by calcium. WARS1 released from PMVs induces inflammatory responses in vivo. These results provide insights into the secretion mechanisms of WARS1 and improve our understanding of how WARS1 is involved in the control of local and systemic inflammation upon infection.

Published

2023

4. Effects of red ginseng on gut, microbiota, and brain in a mouse model of post-infectious irritable bowel syndrome

Author

Seonhye Yu, Eunho Chun, Yeounjung Ji, Young Joo Lee, and Mirim Jin

Subjects

Irritable bowel syndrome, Gut–brain axis, Microbiota, Red ginseng, Botany, QK1-989

Abstract

Background: Irritable bowel syndrome (IBS), the most common functional gastrointestinal disorder, is characterized by chronic abdominal pain and bowel habit changes. Although diverse complicated etiologies are involved in its pathogenesis, a dysregulated gut–brain axis may be an important factor. Red ginseng (RG), a traditional herbal medicine, is proven to have anti-inflammatory effects and improve brain function; however, these effects have not been investigated in IBS. Methods: Three-day intracolonic zymosan injections were used to induce post-infectious human IBS-like symptoms in mice. The animals were randomized to receive either phosphate-buffered saline (CG) or RG (30/100/300 mg/kg) for 10 days. Amitriptyline and sulfasalazine were used as positive controls. Macroscopic scoring was performed on day 4. Visceral pain and anxiety-like behaviors were assessed by colorectal distension and elevated plus maze and open field tests, respectively, on day 10. Next-generation sequencing of gut microbiota was performed, and biomarkers involved in gut–brain axis responses were analyzed. Results: Compared to CG, RG significantly decreased the macroscopic score, frequency of visceral pain, and anxiety-like behavior in the IBS mice. These effects were comparable to those after sulfasalazine and amitriptyline treatments. Moreover, RG significantly increased the proliferation of beneficial microbes, including Lactobacillus johnsonii, Lactobacillus reuteri, and Parabacteroides goldsteinii. RG significantly suppressed expression of IL-1β and c-fos in the gut and prefrontal cortex, respectively. Further, it restored the plasma levels of corticosterone to within the normal range, accompanied by an increase in adrenocorticotropic hormone. Conclusion: RG may be a potential therapeutic option for the management of human IBS.

Published

2021