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3. Simultaneous attenuation of hyperglycemic memory-induced retinal, pulmonary, and glomerular dysfunctions by proinsulin C-peptide in diabetes

Author

Hye-Yoon Jeon, Chan-Hee Moon, Eun-Bin Kim, Nilofar Danishmalik Sayyed, Ah-Jun Lee, and Kwon-Soo Ha

Subjects
Hyperglycemic memory, C-peptide, Diabetic complications, Vascular leakage, Neurodegeneration, Fibrosis, Medicine
Abstract

Abstract Background Hyperglycemic memory (HGM) is a pivotal phenomenon in the development of diabetic complications. Although coincident diabetic complications are reported, research on their development and treatment is limited. Thus, we investigated whether C-peptide can simultaneously inhibit HGM-induced retinal, pulmonary, and glomerular dysfunctions in diabetic mice supplemented with insulin. Methods Insulin-treated diabetic mice were supplemented with human C-peptide by subcutaneous implantation of K9-C-peptide depots for 4 weeks, and reactive oxygen species (ROS) generation, transglutaminase (TGase) activity, and vascular leakage were examined in the retina, lung, and kidney. Results We found hyperglycemia-induced persistent ROS generation and TGase activation after blood glucose normalization in the retina, lung, and kidney of insulin-supplemented diabetic mice. These pathological events were inhibited by systemic supplementation of human C-peptide via subcutaneous implantation of a thermosensitive biopolymer-conjugated C-peptide depot. ROS generation and TGase activation were in a vicious cycle after glucose normalization, and C-peptide suppressed the vicious cycle and subsequent endothelial permeability in human retinal endothelial cells. Moreover, C-peptide supplementation ameliorated HGM-induced retinal vascular leakage and neurodegeneration, pulmonary vascular leakage and fibrosis, and glomerular adherens junction disruption and vascular leakage. Conclusions Overall, our findings demonstrate that C-peptide supplementation simultaneously attenuates vascular and neuronal dysfunctions in the retina, lung, and glomerulus of insulin-supplemented diabetic mice.

Published
2023
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5. In-depth biological analysis of alteration in Plasmodium knowlesi-infected red blood cells using a noninvasive optical imaging technique

Author

Moh Egy Rahman Firdaus, Fauzi Muh, Ji-Hoon Park, Seong-Kyun Lee, Sung-Hun Na, Won-Sun Park, Kwon-Soo Ha, Jin-Hee Han, and Eun-Taek Han

Subjects
Imaging technique, Holotomography, Plasmodium knowlesi, Hemoglobin, Diffraction optical tomography (DOT), 3D refractive index, Infectious and parasitic diseases, RC109-216
Abstract

Abstract Background Imaging techniques are commonly used to understand disease mechanisms and their biological features in the microenvironment of the cell. Many studies have added to our understanding of the biology of the malaria parasite Plasmodium knowlesi from functional in vitro and imaging analysis using serial block-face scanning electron microscopy (SEM). However, sample fixation and metal coating during SEM analysis can alter the parasite membrane. Methods In this study, we used noninvasive diffraction optical tomography (DOT), also known as holotomography, to explore the morphological, biochemical, and mechanical alterations of each stage of P. knowlesi-infected red blood cells (RBCs). Each stage of the parasite was synchronized using Nycodenz and magnetic-activated cell sorting (MACS) for P. knowlesi and P. falciparum, respectively. Holotomography was applied to measure individual three-dimensional refractive index tomograms without metal coating, fixation, or additional dye agent. Results Distinct profiles were found on the surface area and hemoglobin content of the two parasites. The surface area of P. knowlesi-infected RBCs showed significant expansion, while P. falciparum-infected RBCs did not show any changes compared to uninfected RBCs. In terms of hemoglobin consumption, P. falciparum tended to consume hemoglobin more than P. knowlesi. The observed profile of P. knowlesi-infected RBCs generally showed similar results to other studies, proving that this technique is unbiased. Conclusions The observed profile of the surface area and hemoglobin content of malaria infected-RBCs can potentially be used as a diagnostic parameter to distinguish P. knowlesi and P. falciparum infection. In addition, we showed that holotomography could be used to study each Plasmodium species in greater depth, supporting strategies for the development of diagnostic and treatment strategies for malaria. Graphical Abstract

Published
2022
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6. Korean Red ginseng prevents endothelial senescence by downregulating the HO-1/NF-κB/miRNA-155-5p/eNOS pathway

Author

Tae-Hoon Kim, Ji-Yoon Kim, Jieun Bae, Young-Mi Kim, Moo-Ho Won, Kwon-Soo Ha, Young-Guen Kwon, and Young-Myeong Kim

Subjects
Endothelial cells, Endothelial nitric oxide synthase, miR-155-5p, Panax ginseng, Senescence, Botany, QK1-989
Abstract

Background: Korean Red ginseng extract (KRGE) has beneficial effects on the cardiovascular system by improving endothelial cell function. However, its pharmacological effect on endothelial cell senescence has not been clearly elucidated. Therefore, we examined the effect and molecular mechanism of KRGE on the senescence of human umbilical vein endothelial cells (HUVECs). Methods: HUVECs were grown in normal or KRGE-supplemented medium. Furthermore, they were transfected with heme oxygenase-1 (HO-1) gene or treated with its inhibitor, a NF-κB inhibitor, and a miR-155-5p mimic or inhibitor. Senescence-associated characteristics of endothelial cells were determined by biochemical and immunohistochemical analyses. Results: Treatment of HUVECs with KRGE resulted in delayed onset and progression of senescence-associated characteristics, such as increased lysosomal acidic β-galactosidase and decreased telomerase activity, angiogenic dysfunction, and abnormal cell morphology. KRGE preserved the levels of anti-senescent factors, such as eNOS-derived NO, MnSOD, and cyclins D and A: however, it decreased the levels of senescence-promoting factors, such as ROS, activated NF-κB, endothelial cell inflammation, and p21 expression. The beneficial effects of KRGE were due to the induction of HO-1 and the inhibition of NF-κB-dependent biogenesis of miR-155-5p that led to the downregulation of eNOS. Moreover, treatment with inhibitors of HO-1, NF-κB, and miR-155-5p abolished the anti-senescence effects of KRGE. Conclusion: KRGE delayed or prevented HUVEC senescence through a signaling cascade involving the induction of HO-1, the inhibition of NF-κB-dependent miR-155-5p biogenesis, and the maintenance of the eNOS/NO axis activity, suggesting that it may protect against vascular diseases associated with endothelial senescence.

Published
2021
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7. NF-κB-dependent miR-31/155 biogenesis is essential for TNF-α-induced impairment of endothelial progenitor cell function

Author

Ji-Hee Kim, Ji-Yoon Kim, Minsik Park, Suji Kim, Taesam Kim, Joohwan Kim, Seunghwan Choi, Wonjin Park, Jong Yun Hwang, Jongseon Choe, Kwon-Soo Ha, Moo-Ho Won, Sungwoo Ryoo, Young-Guen Kwon, and Young-Myeong Kim

Subjects
Medicine, Biochemistry, QD415-436
Abstract

Inflammatory vascular disease: miRNAs in blood vessel damage miRNA molecules that inhibit the activity of specific genes are implicated in a cellular control network involved in some of the damaging effects of inflammation on blood vessels. Researchers in South Korea led by Young-Myeong Kim at Kangwon National University School of Medicine, Chuncheon, identified the link by studying cells from patients with the inflammatory condition pre-eclampsia, characterized by hypertension. They found that two miRNAs, miR-31 and miR-155, are involved in molecular signaling processes that impair the production of endothelial progenitor cells lining blood vessels, which is essential for maintenance and repair. The research also identified the key protein eNOS involved in the miRNA molecules’ mechanism of action. Understanding these miRNAs and the protein involved in their production and action may help researchers develop new treatments for blood vessel diseases associated with inflammation.

Published
2020
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8. BMP4 and perivascular cells promote hematopoietic differentiation of human pluripotent stem cells in a differentiation stage-specific manner

Author

Suji Jeong, Borim An, Jung-Hyun Kim, Hyo-Won Han, Hye-Ryeon Heo, Kwon-Soo Ha, Eun-Taek Han, Won Sun Park, and Seok-Ho Hong

Subjects
Medicine, Biochemistry, QD415-436
Abstract

Stem cells: A better way to grow blood cells in the laboratory Adding a vital regulatory molecule and support cells to the culture medium can help in the derivation of blood products from stem cells. A team led by Seok-Ho Hong from Kangwon National University in Chuncheon, South Korea, followed a clinical-grade protocol for converting embryonic stem cells or induced pluripotent stem cells from adults into blood cell precursors. The researchers showed that incorporating high doses of a growth factor called bone morphogenetic protein 4 into the standard culture medium for a short period promoted early differentiation toward blood cells. Incorporating so-called perivascular cells taken from umbilical cord blood also enhanced the process through the secretion of signaling molecules that further pushed the stem cells toward differentiating into blood cells. The findings could help improve protocols for making blood products from stem cells for therapeutic purposes.

Published
2020
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9. Evaluation of antibody responses to the early transcribed membrane protein family in Plasmodium vivax

Author

Seong-Kyun Lee, Jin-Hee Han, Ji-Hoon Park, Kwon-Soo Ha, Won Sun Park, Seok-Ho Hong, Sunghun Na, Yang Cheng, and Eun-Taek Han

Subjects
Malaria, Plasmodium vivax, ETRAMP, IgG antibody response, P. vivax patients, Infectious and parasitic diseases, RC109-216
Abstract

Abstract Background Malaria parasites form intracellular membranes that separate the parasite from the internal space of erythrocytes, and membrane proteins from the parasites are exported to the host via the membrane. In our previous study, Plasmodium vivax early transcribed membrane protein (PvETRAMP) 11.2, an intracellular membrane protein that is highly expressed in blood-stage parasites, was characterized as a highly immunogenic protein in P. vivax malaria patients. However, the other PvETRAMP family proteins have not yet been investigated. In this study, PvETRAMPs were expressed and evaluated to determine their immunological profiles. Methods The protein structure and amino acid alignment were carried out using bioinformatics analysis software. A total of six PvETRAMP family proteins were successfully expressed and purified using a wheat germ cell free protein expression system and the purified proteins were used for protein microarray and immunization of mice. The localization of the protein was determined with serum against PvETRAMP4. IgG subclasses were assessed from the immunized mice. Results In silico analysis showed that P. vivax exhibits nine genes encoding the ETRAMP family. The ETRAMP family proteins are relatively small molecules with conserved structural features. A total of 6 recombinant ETRAMP proteins were successfully expressed and purified. The serum positivity of P. vivax malaria patients and healthy individuals was evaluated using a protein microarray method. Among the PvETRAMPs, ETRAMP4 showed the highest positivity rate of 62%, comparable to that of PvETRAMP11.2, which served as the positive control, and a typical export pattern of PvETRAMP4 was observed in the P. vivax parasite. The assessment of IgG subclasses in mice immunized with PvETRAMP4 showed high levels of IgG1 and IgG2b. PvETRAMP family proteins were identified and characterized as serological markers. Conclusions The relatively high antibody responses to PvETRAMP4 as well as the specific IgG subclasses observed in immunized mice suggest that the ETRAMP family is immunogenic in pathogens and can be used as a protein marker and for vaccine development.

Published
2019
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10. Identification and characterization of Pv50, a novel Plasmodium vivax merozoite surface protein

Author

Yang Cheng, Bo Wang, Feng Lu, Md Atique Ahmed, Jin-Hee Han, Sung Hun Na, Kwon-Soo Ha, Won Sun Park, Seok-Ho Hong, and Eun-Taek Han

Subjects
Plasmodium vivax, Merozoite surface protein, Pv50, Protein interaction, Antigenicity, Immunogenicity, Infectious and parasitic diseases, RC109-216
Abstract

Abstract Background Plasmodium vivax contains approximately 5400 coding genes, more than 40% of which code for hypothetical proteins that have not been functionally characterized. In a previous preliminary screening using pooled serum samples, numerous hypothetical proteins were selected from among those that were highly transcribed in the schizont-stage of parasites, and highly antigenic P. vivax candidates including hypothetical proteins were identified. However, their immunological and functional activities in P. vivax remain unclear. From these candidates, we investigated a P. vivax 50-kDa protein (Pv50, PVX_087140) containing a highly conserved signal peptide that shows high transcription levels in blood-stage parasites. Results Recombinant Pv50 was expressed in a cell-free expression system and used for IgG prevalence analysis of patients with vivax malaria and healthy individuals. Immune responses were analyzed in immunized mice and mouse antibodies were used to detect the subcellular localization of the protein in blood-stage parasites by immunofluorescence assay. A protein array method was used to evaluate protein-protein interactions to predict protein functional activities during the invasion of parasites into erythrocytes. Recombinant Pv50 showed IgG prevalence in patient samples with a sensitivity of 42.9% and specificity of 93.8% compared to that in healthy individuals. The non-cytophilic antibodies IgG1 and IgG3 were the major components involved in the antibody response in Pv50-immunized mice. Pv50 localized on the surface of merozoites and a specific interaction between Pv50 and PvMSP1 was detected, suggesting that Pv50-PvMSP1 forms a heterodimeric complex in P. vivax. Conclusions Increased immune responses caused by native P. vivax parasites were detected, confirming its immunogenic effects. This study provides a method for detecting new malaria antigens, and Pv50 may be a vivax malaria vaccine candidate with PvMSP1.

Published
2019
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11. Bleomycin Inhibits Proliferation via Schlafen-Mediated Cell Cycle Arrest in Mouse Alveolar Epithelial Cells

Author

Soojin Jang, M.S., Se Min Ryu, M.D., Ph.D., Jooyeon Lee, M.S., Hanbyeol Lee, M.S., Seok-Ho Hong, Ph.D., Kwon-Soo Ha, Ph.D., Won Sun Park, Ph.D., Eun-Taek Han, Ph.D., and Se-Ran Yang, D.V.M., Ph.D.

Subjects
idiopathic pulmonary fibrosis, alveolar epithelial cells, cell cycle arrest, schlafen, bleomycin, Diseases of the respiratory system, RC705-779
Abstract

Background Idiopathic pulmonary fibrosis involves irreversible alveolar destruction. Although alveolar epithelial type II cells are key functional participants within the lung parenchyma, how epithelial cells are affected upon bleomycin (BLM) exposure remains unknown. In this study, we determined whether BLM could induce cell cycle arrest via regulation of Schlafen (SLFN) family genes, a group of cell cycle regulators known to mediate growth-inhibitory responses and apoptosis in alveolar epithelial type II cells. Methods Mouse AE II cell line MLE-12 were exposed to 1–10 µg/mL BLM and 0.01–100 µM baicalein (Bai), a G1/G2 cell cycle inhibitor, for 24 hours. Cell viability and levels of pro-inflammatory cytokines were analyzed by MTT and enzyme-linked immunosorbent assay, respectively. Apoptosis-related gene expression was evaluated by quantitative real-time reverse transcription-polymerase chain reaction (qRT-PCR). Cellular morphology was determined after DAPI and Hoechst 33258 staining. To verify cell cycle arrest, propidium iodide (PI) staining was performed for MLE-12 after exposure to BLM. Results BLM decreased the proliferation of MLE-12 cells. However, it significantly increased expression levels of interleukin 6, tumor necrosis factor α, and transforming growth factor β1. Based on Hoechst 33258 staining, BLM induced condensation of nuclear and fragmentation. Based on DAPI and PI staining, BLM significantly increased the size of nuclei and induced G2/M phase cell cycle arrest. Results of qRT-PCR analysis revealed that BLM increased mRNA levels of BAX but decreased those of Bcl2. In addition, BLM/Bai increased mRNA levels of p53, p21, SLFN1, 2, 4 of Schlafen family. Conclusion BLM exposure affects pulmonary epithelial type II cells, resulting in decreased proliferation possibly through apoptotic and cell cycle arrest associated signaling.

Published
2019
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12. Serodiagnostic antigens of Clonorchis sinensis identified and evaluated by high-throughput proteogenomics.

Author

Pyo Yun Cho, Ji-Yun Lee, Tae Im Kim, Jin-Ho Song, Sung-Jong Hong, Won Gi Yoo, Takafumi Tsuboi, Kwon-Soo Ha, Jae-Wan Jung, Satoru Takeo, Eun-Taek Han, Banchob Sripa, Sung-Tae Hong, Jong-Yil Chai, Ho-Woo Nam, Jhang Ho Pak, and Tong-Soo Kim

Subjects
Arctic medicine. Tropical medicine, RC955-962, Public aspects of medicine, RA1-1270
Abstract

Clonorchiasis caused by Clonorchis sinensis is endemic in East Asia; approximately 15 million people have been infected thus far. To diagnose the infection, serodiagnostic tests with excellent functionality should be performed. First, 607 expressed sequence tags encoding polypeptides with a secretory signal were expressed into recombinant proteins using an in vitro translation system. By protein array-based screening using C. sinensis-infected sera, 18 antigen candidate proteins were selected and assayed for cross-reactivity against Opisthorchis viverrini-infected sera. Of the six antigenic proteins selected, four were synthesized on large scale in vitro and evaluated for antigenicity against the flukes-infected human sera using ELISA. CsAg17 antigen showed the highest sensitivity (77.1%) and specificity (71.2%). The sensitivity and specificity of the bacterially produced CsAg17-28GST fusion antigen was similar to those of CsAg17 antigen. CsAg17 antigen can be used to develop point-of-care serodiagnostic tests for clonorchiasis.

Published
2020
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13. NF-κB-responsive miR-155 induces functional impairment of vascular smooth muscle cells by downregulating soluble guanylyl cyclase

Author

Minsik Park, Seunghwan Choi, Suji Kim, Joohwan Kim, Dong-Keon Lee, Wonjin Park, Taesam Kim, Jiwon Jung, Jong Yun Hwang, Moo-Ho Won, Sungwoo Ryoo, Seung Goo Kang, Kwon-Soo Ha, Young-Guen Kwon, and Young-Myeong Kim

Subjects
Medicine, Biochemistry, QD415-436
Abstract

Vascular disease: Small RNA as a possible culprit The overexpression of a microRNA molecule adversely affects the functioning of vascular smooth muscle cells (VSMCs) and may contribute to the development of artherosclerosis and preeclampsia. The interactions between VSMCs and the cells lining blood vessels (endothelium) are crucial for maintaining the healthy phenotype and relaxation of blood vessels. Disruption to these interactions via inflammation, for example, can trigger serious vascular diseases. Young-Myeong Kim at Kangwon National University, Chungcheon, South Korea, and co-workers demonstrated that expression levels of a microRNA-155 are elevated in patients with artherosclerosis and preeclampsia, while an enzyme found in VSMCs called soluble guanylyl cyclase is considerably reduced. Using human and mice tissues, the team showed that miR-155 impairs the contractile phenotype and relaxation of VSMCs by reducing guanylyl cyclase expression. Their findings may inform new therapies for vascular diseases.

Published
2019
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14. Blockade of voltage-dependent K+ current in rabbit coronary arterial smooth muscle cells by the tricyclic antidepressant clomipramine

Author

Hongliang Li, Sung Eun Shin, Jin Ryeol An, Mi Seon Seo, Kwon-Soo Ha, Eun-Taek Han, Seok-Ho Hong, Amy L. Firth, Dae-Sung Lee, Mi-Jin Yim, Jeong Min Lee, Grace Choi, Il-Whan Choi, and Won Sun Park

Subjects
Therapeutics. Pharmacology, RM1-950
Abstract

We investigated the effect of the tricyclic antidepressant clomipramine on voltage-dependent K+ (Kv) channels in native rabbit coronary arterial smooth muscle cells. Our results showed that clomipramine inhibited vascular Kv channels in a concentration-dependent manner, with an IC50 value of 8.61 ± 4.86 μM and a Hill coefficient (n) of 0.58 ± 0.07. The application of 10 μM clomipramine did not affect the activation curves of the Kv channels; however, the inactivation curves of the Kv channels were shifted toward a more negative potential. The clomipramine-induced inhibition of Kv currents was not changed by the application of train pulses (1 or 2 Hz), which demonstrated that clomipramine inhibited Kv current in a state (use)-independent manner. Pretreatment with the Kv1.5 and Kv2.1 inhibitors, DPO-1 and guangxitoxin, respectively, partially reduced the clomipramine-induced inhibition of Kv currents. Therefore, we concluded that clomipramine inhibited vascular Kv channels in a concentration-dependent, but state (use)-independent manner, regardless of its own function. Keywords: Clomipramine, Voltage-dependent K+ channel, Coronary artery

Published
2018
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16. Estimation on local transmission of malaria by serological approach under low transmission setting in Myanmar

Author

Myat Htut Nyunt, Than Naing Soe, Thinzar Shein, Ni Ni Zaw, Soe Soe Han, Fauzi Muh, Seong-Kyun Lee, Jin-Hee Han, Ji-Hoon Park, Kwon-Soo Ha, Won Sun Park, Seok-Ho Hong, Myat Phone Kyaw, and Eun-Taek Han

Subjects
Malaria, Serological surveillance, Asymptomatic cases, Myanmar, Arctic medicine. Tropical medicine, RC955-962, Infectious and parasitic diseases, RC109-216
Abstract

Abstract Background As the prevalence of the malaria has been decreasing in many endemic countries including Myanmar, malaria elimination in Greater Mekong Region was targeted not later than 2030. The relevance of molecular and serological tools to identify residual transmission remains to be established in this setting. Methods One-year cohort study was conducted and sera samples were collected in every 3 months with active and passive case detection for clinical malaria episodes by RDT, microscopy and molecular method. The sera were used to detect the malaria antibody against PfMSP1-19, PvAMA1, PvDBPII and PvMSP1-19 by protein microarray. Results Among the recruited 1182 participants, there was no RDT positive case for malaria infection although two vivax infections were detected by microscopy in initial collection. Molecular methods detected the asymptomatic cases of 28/1182 (2.37%) in first, 5/894 (0.42%) in second, 12/944 (1.02%) in third, 6/889 (0.51%) in fourth collection, respectively. Seropositivity rates against the PfMSP1-19, PvMSP1-19, PvAMA1 and PvDBPII were 73/270 (27.0%), 85/270 (31.5%), 65/270 (24.1%) and 160/270 (59.3%), respectively. PfMSP1-19 and PvMSP1-19 showed high and stable antigenicity in acute and subacute samples but declining in 1-year history samples. No cross reactivity of PfMSP1-19 and PvMSP1-19 between the two species and higher seropositivity among the asymptomatic carriers were observed. Mapping data indicated serological surveillance can detect the geographical pattern of malaria infection under low transmission setting. Conclusions These findings support that PfMSP1-19 and PvMSP1-19 are suggested for serosurveillance of the malaria especially in low transmission setting for further necessary actions have to be carried out to eliminate the malaria.

Published
2018
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17. Naturally acquired humoral and cellular immune responses to Plasmodium vivax merozoite surface protein 8 in patients with P. vivax infection

Author

Yang Cheng, Bo Wang, Siriruk Changrob, Jin-Hee Han, Jetsumon Sattabongkot, Kwon-Soo Ha, Patchanee Chootong, Feng Lu, Jun Cao, Myat Htut Nyunt, Won Sun Park, Seok-Ho Hong, Chae Seung Lim, Takafumi Tsuboi, and Eun-Taek Han

Subjects
Plasmodium vivax, Merozoite surface protein 8, Immunogenicity, Food vacuole, Arctic medicine. Tropical medicine, RC955-962, Infectious and parasitic diseases, RC109-216
Abstract

Abstract Background Thirty-one glycosylphosphatidylinositol (GPI)-anchored proteins of Plasmodium vivax, merozoite surface protein 1 (MSP1), MSP1 paralogue, MSP4, MSP5, MSP8, and MSP10 have been reported from homologs of Plasmodium falciparum by gene annotation with bioinformatics tools. These GPI-anchored proteins contain two epidermal growth factor (EGF)-like domains at its C-terminus. Here, P. vivax merozoite surface protein 8 (PvMSP8) are considered as potential targets of protective immunity. Methods Recombinant PvMSP8 (rPvMSP8) was expressed, purified, and used for the assessment of humoral and cellular immune responses in P. vivax-infected patients and immune mice. Moreover, the target epitope of ant-PvMSP8 antibodies and subcellular localization of PvMSP8 was also determined. Results The rPvMSP8 was successfully expressed and purified as soluble form as ~55 kDa. PvMSP8 was localized to the outer circle of pigments associated with the food vacuole. The rPvMSP8 protein had a high antigenicity (73.2% in sensitivity and 96.2% in specificity) in patients infected with P. vivax. IgG2 antibody subtype was the predominantly responses to this antigen. Antibody response to PvMSP8 increased up to day 7 and after that slightly decreased within a month. The longevity of anti-PvMSP8 antibody was stably sustained up to 12-year recovery patient samples. Most anti-PvMSP8 antibodies recognized two epitopes that were located outside the C-terminal EGF-like domain. The cellular immune response in P. vivax-exposed individuals produced high levels of IFN-γ and IL-10 upon PvMSP8 antigen stimulation in vitro. Conclusions All data in this study suggest that PvMSP8 antigen has a potential to induce both humoral and cellular immune responses in patients with P. vivax infection. The subcellular localization of PvMSP8 confirmed that it was associated with the parasite food vacuole in blood-stage parasites. A further characterization of this protein will be useful for blood stage P. vivax vaccine development.

Published
2017
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20. Identification of a novel merozoite surface antigen of Plasmodium vivax, PvMSA180

Author

Fauzi Muh, Jin-Hee Han, Myat Htut Nyunt, Seong-Kyun Lee, Hye-Yoon Jeon, Kwon-Soo Ha, Won Sun Park, Seok-Ho Hong, Md Atique Ahmed, Sunghun Na, Eizo Takashima, Takafumi Tsuboi, and Eun-Taek Han

Subjects
Plasmodium vivax, MSA180, Humoral immune response, Merozoite surface protein, Haplotype, Arctic medicine. Tropical medicine, RC955-962, Infectious and parasitic diseases, RC109-216
Abstract

Abstract Background Although a number of Plasmodium vivax proteins have been identified, few have been investigated as potential vaccine candidates. This study characterized the Plasmodium vivax merozoite surface antigen 180 (PvMSA180, PVX_094920), a novel P. vivax antigenic protein. Methods The target gene was amplified as four overlapping domains (D1, D2, D3 and D4) to enable expression of the recombinant protein using cell-free and bacterial expression systems. The recombinant PvMSA180 proteins were used in protein microarrays to evaluate the humoral immune response of 72 vivax-infected patients and 24 vivax-naïve individuals. Antibodies produced in mice against the PvMSA180-D1 and -D4 domains were used to assess the subcellular localization of schizont-stage parasites with immunofluorescence assays. A total of 51 pvmsa180 sequences from 12 countries (41 sequences from PlasmoDB and 6 generated in this study) were used to determine the genetic diversity and genealogical relationships with DNAsp and NETWORK software packages, respectively. Results PvMSA180 consists of 1603 amino acids with a predicted molecular mass of 182 kDa, and has a signal peptide at the amino-terminus. A total of 70.8% of patients (51/72) showed a specific antibody response to at least one of the PvMSA180 domains, and 20.8% (15/72) exhibited a robust antibody response to at least three of the domains. These findings suggest that PvMSA180 is targeted by the humoral immune response during natural infection with P. vivax. Immunofluorescence analysis demonstrated that PvMSA180 is localized on the merozoite surface of schizont-stage parasites, and pvmsa180 sequences originating from various geographic regions worldwide showed low genetic diversity. Twenty-two haplotypes were found, and haplotype 6 (Hap_6, 77%) of pvmsa180 was detected in isolates from six countries. Conclusions A novel P. vivax surface protein, PvMSA180, was characterized in this study. Most of P. vivax-infected patients had specific antibodies against particular antigenic domains, indicating that this protein is immunogenic in naturally exposed populations. Genetic analysis of worldwide isolates showed that pvmsa180 is less polymorphic than other well-known candidates and that some haplotypes are common to several countries. However, additional studies with a larger sample size are necessary to evaluate the antibody responses in geographically separated populations, and to identify the function of PvMSA180 during parasite invasion.

Published
2017
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23. C-peptide attenuates hyperglycemia-induced pulmonary fibrosis by inhibiting transglutaminase 2

Author

Hye-Yoon Jeon, Ah-Jun Lee, Eun-Bin Kim, Minsoo Kim, Won Sun Park, and Kwon-Soo Ha

Subjects
Inflammation, Vascular Endothelial Growth Factor A, Transglutaminases, C-Peptide, Pulmonary Fibrosis, Endothelial Cells, Diabetes Mellitus, Experimental, Mice, Inbred C57BL, Mice, Endocrinology, Hyperglycemia, Animals, Protein Glutamine gamma Glutamyltransferase 2, Reactive Oxygen Species, Molecular Biology
Abstract

Proinsulin C-peptide has a protective effect against diabetic complications; however, its role in hyperglycemia-induced pulmonary fibrosis is unknown. In this study, we investigated the inhibitory effect of C-peptide on hyperglycemia-induced pulmonary fibrosis and the molecular mechanism of C-peptide action in the lungs of diabetic mice and in human pulmonary microvascular endothelial cells (HPMVECs). We found that, in the lungs of diabetic mice, C-peptide supplementation using osmotic pumps attenuated hyperglycemia-induced pulmonary fibrosis and expression of fibrosis-related proteins. In HPMVECs, C-peptide inhibited vascular endothelial growth factor-induced adherens junction disruption and endothelial cell permeability by inhibiting reactive oxygen species generation and transglutaminase (TGase) activation. In the lungs, C-peptide supplementation suppressed hyperglycemia-induced reactive oxygen species generation, TGase activation, and microvascular leakage. C-peptide inhibited hyperglycemia-induced inflammation and apoptosis, which are involved in the pathological process of pulmonary fibrosis. We also demonstrated the role of TGase2 in hyperglycemia-induced vascular leakage, inflammation, apoptosis, and pulmonary fibrosis in the lungs of diabetic TGase2-null (Tgm2−/−) mice. Furthermore, we demonstrated a long-term inhibitory effect of systemic delivery of C-peptide using K9-C-peptide hydrogels on hyperglycemia-induced fibrosis in diabetic lungs. Overall, our findings suggest that C-peptide alleviates hyperglycemia-induced pulmonary fibrosis by inhibiting TGase2-mediated microvascular leakage, inflammation, and apoptosis in diabetes.

Published
2022
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24. Circulating miRNAs Associated with Dysregulated Vascular and Trophoblast Function as Target-Based Diagnostic Biomarkers for Preeclampsia

Author

Suji Kim, Minsik Park, Ji-Yoon Kim, Taesam Kim, Jong Yun Hwang, Kwon-Soo Ha, Moo-Ho Won, Sungwoo Ryoo, Young-Guen Kwon, and Young-Myeong Kim

Subjects
preeclampsia, miRNA, diagnostic biomarker, vascular dysfunction, Cytology, QH573-671
Abstract

Preeclampsia (PE) is a pregnancy-specific disorder associated with hypertension and proteinuria. Since there is no proven method to treat PE, early prediction and accurate diagnosis are essential for appropriate management of the disease. Thus, reliable biomarkers for diagnosing PE need to be identified and evaluated. We analyzed serum-soluble factors and miRNAs in 92 patients with PE and an equal number of healthy controls to identify new useful biomarkers for PE. Serum miR-31-5p, miR-155-5p, and miR-214-3p levels were significantly elevated in these patients and highly correlated with clinical symptoms of hypertension and proteinuria, whereas the miR-1290-3p level was decreased. The increased miRNAs were upregulated in an NF-κB-dependent manner and suppressed endothelial nitric oxide synthase (eNOS) and placental growth factor (PlGF) expression. The level of each miRNA had greater than 90% diagnostic accuracy, which was further increased by analyzing its ratio relative to that of miR-1290-3p. Taken together, the ratios of miR-31-5p, miR-155-5p, or miR-214-3p to miR-1290-3p may serve as reliable diagnostic or prognostic tools for PE, thereby providing evidence that these miRNAs are promising mechanism-based targets for designing therapeutic and preventive strategies for the clinical management of PE.

Published
2020
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26. REDD1 is a determinant of low-dose metronomic doxorubicin-elicited endothelial cell dysfunction through downregulation of VEGFR-2/3 expression

Author

Suji Kim, Young-Guen Kwon, Kwon-Soo Ha, Taesam Kim, Minsik Park, Young-Myeong Kim, Jeong-Hyung Lee, Sung Hwan Cho, Wonjin Park, Moo Ho Won, and Joohwan Kim

Subjects
Vascular Endothelial Growth Factor A, Cell biology, Angiogenesis, government.form_of_government, Clinical Biochemistry, Melanoma, Experimental, Down-Regulation, Vascular permeability, mTORC1, Biochemistry, Article, Mice, Downregulation and upregulation, Animals, Lymphangiogenesis, Molecular Biology, Mammals, Chemistry, Endothelial Cells, Metronomic Chemotherapy, Vascular Endothelial Growth Factor Receptor-2, Endothelial stem cell, Lymphatic Endothelium, Doxorubicin, Cancer research, government, Molecular Medicine
Abstract

Low-dose metronomic chemotherapy (LDMC) inhibits tumor angiogenesis and growth by targeting tumor-associated endothelial cells, but the molecular mechanism has not been fully elucidated. Here, we examined the functional role of regulated in development and DNA damage responses 1 (REDD1), an inhibitor of mammalian target of rapamycin complex 1 (mTORC1), in LDMC-mediated endothelial cell dysfunction. Low-dose doxorubicin (DOX) treatment induced REDD1 expression in cultured vascular and lymphatic endothelial cells and subsequently repressed the mRNA expression of mTORC1-dependent translation of vascular endothelial growth factor receptor (Vegfr)-2/3, resulting in the inhibition of VEGF-mediated angiogenesis and lymphangiogenesis. These regulatory effects of DOX-induced REDD1 expression were additionally confirmed by loss- and gain-of-function studies. Furthermore, LDMC with DOX significantly suppressed tumor angiogenesis, lymphangiogenesis, vascular permeability, growth, and metastasis in B16 melanoma-bearing wild-type but not Redd1-deficient mice. Altogether, our findings indicate that REDD1 is a crucial determinant of LDMC-mediated functional dysregulation of tumor vascular and lymphatic endothelial cells by translational repression of Vegfr-2/3 transcripts, supporting the potential therapeutic properties of REDD1 in highly progressive or metastatic tumors., Cancer: Stress protein implicated in effects of low-dose metronomic chemotherapy Sustained low-dose metronomic chemotherapy impairs the function of tumor-associated blood vessels and lymphatic tissues due to the action of a stress response protein called REDD1. A research team from South Korea led by Young-Myeong Kim of Kangwon National University School of Medicine in Chuncheon showed that low doses of doxorubicin, a widely used anti-cancer drug, induces the expression of REDD1. This in turn inhibits the activity of vascular endothelial growth factor receptors-2/-3 that are needed for the formation of blood and lymphatic vessels, both of which can promote tumor growth. Cancer-bearing mice that lacked a working version of REDD1 did not respond to continuous low-dose treatment with doxorubicin, demonstrating the critical nature of this protein in mediating the drug regimen’s effects. The authors propose that pharmacologically enhancing REDD1 activity could help combat highly aggressive or metastatic tumors.

Published
2021

27. Heme oxygenase metabolites improve astrocytic mitochondrial function via a Ca2+-dependent HIF-1α/ERRα circuit.

Author

Yoon Kyung Choi, Joon Ha Park, Jung-A Yun, Jong-Ho Cha, Yonghee Kim, Moo-Ho Won, Kyu-Won Kim, Kwon-Soo Ha, Young-Guen Kwon, and Young-Myeong Kim

Subjects
Medicine, Science
Abstract

Heme oxygenase-1 (HO-1) exerts beneficial effects, including angiogenesis and energy metabolism via the hypoxia-inducible factor-1α (HIF-1α) and peroxisome-proliferator-activating receptor-γ coactivator-1α (PGC-1α)/estrogen-related receptor α (ERRα) pathways, respectively, in astrocytes. However, evidence of cross-talk between both pathways in HO metabolite-mediated mitochondrial biogenesis has not been well elucidated. Here, we found that HIF-1α was upregulated in astrocytes after ischemic brain injury following exposure to the carbon monoxide (CO)-releasing compound CORM-2. Experiments with pharmacological inhibitors and target-specific siRNAs revealed that HIF-1α levels were highly correlated with increased PGC-1α and ERRα levels, which were linked to the HO metabolites CO- and bilirubin-induced activation of apical L-type Ca2+ channel and sequential Ca2+-dependent signal transduction. Moreover, HIF-1α was stabilized in a proline hydroxylase-dependent manner by transient induction of intracellular hypoxia via the PGC-1α/ERRα-induced increases in mitochondrial biogenesis and oxygen consumption. HIF-1α knockdown blocked HO-1 system-mediated transcriptional expression of ERRα, but not of PGC-1α, suggesting a possible involvement of HIF-1α in ERRα-mediated mitochondrial biogenesis. These data suggest that the HO-1-derived metabolites, CO and bilirubin, elevate astrocytic mitochondrial function via a HIF-1α/ERRα circuit coupled with L-type Ca2+ channel activation and PGC-1α-mediated oxygen consumption. This circuit may play an important role in repairing neurovascular function after focal ischemic brain injury by stimulating mitochondrial biogenesis.

Published
2018
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28. Dopamine ameliorates hyperglycemic memory-induced microvascular dysfunction in diabetic retinopathy

Author

Yeon‐Ju Lee, Hye‐Yoon Jeon, Ah‐Jun Lee, Minsoo Kim, and Kwon‐Soo Ha

Subjects
Diabetic Retinopathy, Dopamine, Retinal Vessels, Endothelial Cells, Biochemistry, Retina, Levodopa, Mice, Genetics, Diabetes Mellitus, Animals, Humans, Molecular Biology, Biotechnology
Abstract

Dopamine is a neurotransmitter that mediates visual function in the retina and diabetic retinopathy (DR) is the most common microvascular complication of diabetes and the leading cause of blindness; however, the role of dopamine in retinal vascular dysfunction in DR remains unclear. Here, we report a mechanism of hyperglycemic memory (HGM)-induced retinal microvascular dysfunction and the protective effect of dopamine against the HGM-induced retinal microvascular leakage and abnormalities. We found that HGM induced persistent oxidative stress, mitochondrial membrane potential collapse and fission, and adherens junction disassembly and subsequent vascular leakage after blood glucose normalization in the mouse retinas. These persistent hyperglycemic stresses were inhibited by dopamine treatment in human retinal endothelial cells and by intravitreal injection of levodopa in the retinas of HGM mice. Moreover, levodopa supplementation ameliorated HGM-induced pericyte degeneration, acellular capillary and pericyte ghost generation, and endothelial apoptosis in the mouse retinas. Our findings suggest that dopamine alleviates HGM-induced retinal microvascular leakage and abnormalities by inhibiting persistent oxidative stress and mitochondrial dysfunction.

Published
2022

30. The Preferred Reconstructive Choice for a Lower Third Tibial Exposure Defect: An Online Survey of 356 Microsurgeons.

Author

Čebron, Urška, AbdelRahman, Mohamed, Kwon, Soo-Ha, Lee, Che-Hsiung, Hsu, Angela Ting-Wei, Huang, Jung-Ju, Chen, Lisa Wen-Yu, Sung, Cheyenne Wei-Hsuan, and Chang, Tommy Nai-Jen

Subjects
SOCIAL media, FREE flaps, PLASTIC surgery, INTERNET surveys, TIBIAL fractures
Abstract

Background One of the most challenging yet common areas in reconstructive surgery is the closure of defects in the lower leg. Surgeons can choose from several reconstructive options including local and free flaps. The aim of this study was to understand the reconstructive strategy for lower leg defects of different microsurgeons around the world by harnessing the power of social media and online questionnaires. Methods A case of a patient with an exposed plate over distal tibial fracture was presented via an online questionnaire distributed on various social media platforms. A total of 369 international microsurgeons replied with their preferred treatment choice. The data were analyzed according to geographic area, microsurgical training, seniority, and subspecialty. Results Among all the respondents (n = 369), 64% would have opted for a free flap reconstruction, while the remaining 36% would have opted for a local/pedicle flap. In the group that would have opted for a free flap, 63% would reconstruct the defect using a free fasciocutaneous flap, while the remaining 37% would have used a free muscle flap. In the local flap group, 60% would have used a local perforator while 30% would have chosen a conventional local flap. While North American and European microsurgeons had a clear preference toward free flaps, Asian, Middle Eastern, African, and South American surgeons were evenly divided between local and free flaps. Conclusion In this study, we provide a current global overview of the reconstructive strategies for a lower limb with skin defect and bone or prosthesis exposure. We hope that this will be able to help global microsurgeons and patients worldwide. [ABSTRACT FROM AUTHOR]

Published
2023
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31. Korean Red ginseng prevents endothelial senescence by downregulating the HO-1/NF-κB/miRNA-155-5p/eNOS pathway

Author

Moo Ho Won, Young Myeong Kim, Young Guen Kwon, Jieun Bae, Kwon-Soo Ha, Young Mi Kim, Tae Hoon Kim, and Ji Yoon Kim

Subjects
0301 basic medicine, Senescence, Endothelial cells, Inflammation, Biochemistry, Genetics and Molecular Biology (miscellaneous), Umbilical vein, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Downregulation and upregulation, Enos, lcsh:Botany, medicine, miR-155-5p, biology, Chemistry, Panax ginseng, NF-κB, Transfection, biology.organism_classification, Cell biology, lcsh:QK1-989, Endothelial stem cell, 030104 developmental biology, Complementary and alternative medicine, 030220 oncology & carcinogenesis, Endothelial nitric oxide synthase, medicine.symptom, Research Article, Biotechnology
Abstract

Background Korean Red ginseng extract (KRGE) has beneficial effects on the cardiovascular system by improving endothelial cell function. However, its pharmacological effect on endothelial cell senescence has not been clearly elucidated. Therefore, we examined the effect and molecular mechanism of KRGE on the senescence of human umbilical vein endothelial cells (HUVECs). Methods HUVECs were grown in normal or KRGE-supplemented medium. Furthermore, they were transfected with heme oxygenase-1 (HO-1) gene or treated with its inhibitor, a NF-κB inhibitor, and a miR-155-5p mimic or inhibitor. Senescence-associated characteristics of endothelial cells were determined by biochemical and immunohistochemical analyses. Results Treatment of HUVECs with KRGE resulted in delayed onset and progression of senescence-associated characteristics, such as increased lysosomal acidic β-galactosidase and decreased telomerase activity, angiogenic dysfunction, and abnormal cell morphology. KRGE preserved the levels of anti-senescent factors, such as eNOS-derived NO, MnSOD, and cyclins D and A: however, it decreased the levels of senescence-promoting factors, such as ROS, activated NF-κB, endothelial cell inflammation, and p21 expression. The beneficial effects of KRGE were due to the induction of HO-1 and the inhibition of NF-κB-dependent biogenesis of miR-155-5p that led to the downregulation of eNOS. Moreover, treatment with inhibitors of HO-1, NF-κB, and miR-155-5p abolished the anti-senescence effects of KRGE. Conclusion KRGE delayed or prevented HUVEC senescence through a signaling cascade involving the induction of HO-1, the inhibition of NF-κB-dependent miR-155-5p biogenesis, and the maintenance of the eNOS/NO axis activity, suggesting that it may protect against vascular diseases associated with endothelial senescence.

Published
2021

32. The inhibitory effect of ziprasidone on voltage-dependent K+ channels in coronary arterial smooth muscle cells

Author

Hee Seok Jung, Mi Seon Seo, Kwon-Soo Ha, Hongzoo Park, Jin Ryeol An, Ryeon Heo, Minji Kang, and Won Sun Park

Subjects
0301 basic medicine, Chemistry, Biophysics, Time constant, Cell Biology, Gating, Biochemistry, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, 030220 oncology & carcinogenesis, medicine, Ziprasidone, Molecular Biology, Inhibitory effect, IC50, Arterial smooth muscle cells, medicine.drug, K channels, Voltage
Abstract

We investigated the effect of ziprasidone, a widely used treatment for schizophrenia, on voltage-dependent K+ (Kv) channels of coronary arterial smooth muscle cells using the patch-clamp technique. Ziprasidone dose-dependently inhibited Kv channels with an IC50 value of 0.39 ± 0.06 μM and a Hill coefficient of 0.62 ± 0.03. Although ziprasidone had no effect on the steady-state inactivation kinetics of the Kv channels, the steady-state activation curve shifted towards a more positive potential. These results suggest that ziprasidone inhibits Kv channels by targeting their voltage sensors. The recovery time constant of Kv channel inactivation was increased in the presence of ziprasidone. Furthermore, application of train steps (of 1 and 2 Hz) in the presence of ziprasidone led to a progressive increase in the blockade of Kv currents, suggesting that ziprasidone-induced inhibition of Kv channels is use (state)-dependent. Pretreatment with Kv1.5, Kv2.1, and Kv7 subtype inhibitors partially suppressed the ziprasidone-induced inhibition of Kv currents. These results suggest that ziprasidone inhibits vascular Kv channels through its effect on gating properties. The Kv channel-inhibiting action of ziprasidone is concentration- and use (state)-depedent.

Published
2020
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33. Dopamine ameliorates hyperglycemic memory-induced vascular dysfunction in diabetic retinopathy

Author

Yeon-Ju Lee, Hye-Yoon Jeon, Ah-Jun Lee, Minsoo Kim, and Kwon-Soo Ha

Abstract

Dopamine is a neurotransmitter that mediates visual function in the retina, and hyperglycemic memory (HGM) is a pivotal phenomenon in the development of diabetic retinopathy (DR); however, the role of dopamine in HGM-induced retinal vascular dysfunction remains unclear. Here, we report a mechanism of HGM-induced retinal vascular dysfunction and the protective effect of dopamine against the HGM-induced DR. HGM induces retinal vascular lesions through persistent oxidative stress, mitochondrial dysfunction, and microvascular abnormalities after blood glucose normalization, and dopamine ameliorates this HGM-induced retinopathy. HGM induced persistent oxidative stress, mitochondrial membrane potential collapse and fission, and adherens junction disassembly and subsequent vascular leakage in the mouse retinas. These persistent hyperglycemic stresses were inhibited by dopamine treatment in human retinal endothelial cells and by intravitreal injection of levodopa in the retinas of HGM mice. Our findings suggest that dopamine alleviates HGM-induced retinal vascular dysfunction by inhibiting persistent mitochondrial dysfunction and microvascular abnormalities.

Published
2022
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35. Characterization of Plasmodium vivax Early Transcribed Membrane Protein 11.2 and Exported Protein 1.

Author

Yang Cheng, Feng Lu, Seong-Kyun Lee, Deok-Hoon Kong, Kwon-Soo Ha, Bo Wang, Jetsumon Sattabongkot, Takafumi Tsuboi, and Eun-Taek Han

Subjects
Medicine, Science
Abstract

In Plasmodium, the membrane of intracellular parasites is initially formed during invasion as an invagination of the red blood cell surface, which forms a barrier between the parasite and infected red blood cells in asexual blood stage parasites. The membrane proteins of intracellular parasites of Plasmodium species have been identified such as early-transcribed membrane proteins (ETRAMPs) and exported proteins (EXPs). However, there is little or no information regarding the intracellular parasite membrane in Plasmodium vivax. In the present study, recombinant PvETRAMP11.2 (PVX_003565) and PvEXP1 (PVX_091700) were expressed and evaluated antigenicity tests using sera from P. vivax-infected patients. A large proportion of infected individuals presented with IgG antibody responses against PvETRAMP11.2 (76.8%) and PvEXP1 (69.6%). Both of the recombinant proteins elicited high antibody titers capable of recognizing parasites of vivax malaria patients. PvETRAMP11.2 partially co-localized with PvEXP1 on the intracellular membranes of immature schizont. Moreover, they were also detected at the apical organelles of newly formed merozoites of mature schizont. We first proposed that these proteins might be synthesized in the preceding schizont stage, localized on the parasite membranes and apical organelles of infected erythrocytes, and induced high IgG antibody responses in patients.

Published
2015
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36. Evaluation of antibody responses to the early transcribed membrane protein family in Plasmodium vivax

Author

Sunghun Na, Yang Cheng, Eun-Taek Han, Seong-Kyun Lee, Kwon-Soo Ha, Won Sun Park, Seok-Ho Hong, Ji-Hoon Park, and Jin-Hee Han

Subjects
Plasmodium vivax, Protozoan Proteins, Antibodies, Protozoan, Microbiology, law.invention, lcsh:Infectious and parasitic diseases, IgG antibody response, Mice, ETRAMP, Protein structure, Antigen, law, Malaria, Vivax, Animals, Humans, lcsh:RC109-216, Gene, Mice, Inbred BALB C, biology, P. vivax patients, Research, Membrane Proteins, biology.organism_classification, Malaria, Infectious Diseases, Membrane protein, Immunoglobulin G, Antibody Formation, Protein microarray, biology.protein, Recombinant DNA, Female, Immunization, Parasitology, Antibody
Abstract

Background Malaria parasites form intracellular membranes that separate the parasite from the internal space of erythrocytes, and membrane proteins from the parasites are exported to the host via the membrane. In our previous study, Plasmodium vivax early transcribed membrane protein (PvETRAMP) 11.2, an intracellular membrane protein that is highly expressed in blood-stage parasites, was characterized as a highly immunogenic protein in P. vivax malaria patients. However, the other PvETRAMP family proteins have not yet been investigated. In this study, PvETRAMPs were expressed and evaluated to determine their immunological profiles. Methods The protein structure and amino acid alignment were carried out using bioinformatics analysis software. A total of six PvETRAMP family proteins were successfully expressed and purified using a wheat germ cell free protein expression system and the purified proteins were used for protein microarray and immunization of mice. The localization of the protein was determined with serum against PvETRAMP4. IgG subclasses were assessed from the immunized mice. Results In silico analysis showed that P. vivax exhibits nine genes encoding the ETRAMP family. The ETRAMP family proteins are relatively small molecules with conserved structural features. A total of 6 recombinant ETRAMP proteins were successfully expressed and purified. The serum positivity of P. vivax malaria patients and healthy individuals was evaluated using a protein microarray method. Among the PvETRAMPs, ETRAMP4 showed the highest positivity rate of 62%, comparable to that of PvETRAMP11.2, which served as the positive control, and a typical export pattern of PvETRAMP4 was observed in the P. vivax parasite. The assessment of IgG subclasses in mice immunized with PvETRAMP4 showed high levels of IgG1 and IgG2b. PvETRAMP family proteins were identified and characterized as serological markers. Conclusions The relatively high antibody responses to PvETRAMP4 as well as the specific IgG subclasses observed in immunized mice suggest that the ETRAMP family is immunogenic in pathogens and can be used as a protein marker and for vaccine development.

Published
2019

37. N-Terminal Modification of the Tetrapeptide Arg-Leu-Tyr-Glu, a Vascular Endothelial Growth Factor Receptor-2 (VEGFR-2) Antagonist, Improves Antitumor Activity by Increasing its Stability against Serum Peptidases

Author

Jung A. Yun, Seunghwan Choi, Kwon-Soo Ha, Dooil Jeoung, Yi Yong Baek, Minsik Park, Joohwan Kim, Taesam Kim, Ji Yoon Kim, Young Myeong Kim, Moo Ho Won, Young Guen Kwon, Hansoo Lee, Wonjin Park, and Suji Kim

Subjects
Male, 0301 basic medicine, Mice, Nude, Antineoplastic Agents, Neovascularization, Mice, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Human Umbilical Vein Endothelial Cells, medicine, Animals, Humans, IC50, Pharmacology, Neovascularization, Pathologic, Tetrapeptide, Protein Stability, Kinase insert domain receptor, HCT116 Cells, Vascular Endothelial Growth Factor Receptor-2, Xenograft Model Antitumor Assays, Vascular endothelial growth factor, Endothelial stem cell, 030104 developmental biology, chemistry, Acetylation, Cancer research, Molecular Medicine, Growth inhibition, medicine.symptom, Oligopeptides, 030217 neurology & neurosurgery, Peptide Hydrolases
Abstract

The tetrapeptide Arg-Leu-Tyr-Glu (RLYE), a vascular endothelial growth factor (VEGF) receptor-2 antagonist, has been used previously either alone or in combination with chemotherapeutic drugs for treating colorectal cancer in a mouse model. We analyzed the half-life of the peptide and found that because of degradation by aminopeptidases B and N, it had a short half-life of 1.2 hours in the serum. Therefore, to increase the stability and potency of the peptide, we designed the modified peptide, N-terminally acetylated RLYE (Ac-RLYE), which had a strongly stabilized half-life of 8.8 hours in serum compared with the original parent peptide. The IC50 value of Ac-RLYE for VEGF-A-induced endothelial cell migration decreased to approximately 37.1 pM from 89.1 pM for the parent peptide. Using a mouse xenograft tumor model, we demonstrated that Ac-RLYE was more potent than RLYE in inhibiting tumor angiogenesis and growth, improving vascular integrity and normalization through enhanced endothelial cell junctions and pericyte coverage of the tumor vasculature, and impeding the infiltration of macrophages into tumor and their polarization to the M2 phenotype. Furthermore, combined treatment of Ac-RLYE and irinotecan exhibited synergistic effects on M1-like macrophage activation and apoptosis and growth inhibition of tumor cells. These findings provide evidence that the N-terminal acetylation augments the therapeutic effect of RLYE in solid tumors via inhibition of tumor angiogenesis, improvement of tumor vessel integrity and normalization, and enhancement of the livery and efficacy of the coadministered chemotherapeutic drugs. SIGNIFICANCE STATEMENT: The results of this study demonstrate that the N-terminal acetylation of the tetrapeptide RLYE (Ac-RLYE), a novel vascular endothelial growth factor receptor-2 (VEGFR-2) inhibitor, significantly improves its serum stability, antiangiogenic activity, and vascular normalizing potency, resulting in enhanced therapeutic effect on solid tumors. Furthermore, the combined treatment of Ac-RLYE with the chemotherapeutic drug, irinotecan, synergistically enhanced its antitumor efficacy by improving the perfusion and delivery of the drug into the tumors and stimulating the conversion of the tumor-associated macrophages to an immunostimulatory M1-like antitumor phenotype.

Published
2019
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38. The vicious cycle between transglutaminase 2 and reactive oxygen species in hyperglycemic memory–induced endothelial dysfunction

Author

Yeon-Ju Lee, Jee-Yeon Lee, Won Sun Park, Kwon-Soo Ha, Young-Myeong Kim, Seok-Ho Hong, Hye-Yoon Jeon, and Eun-Taek Han

Subjects
0301 basic medicine, medicine.medical_specialty, Tissue transglutaminase, medicine.medical_treatment, Inflammation, Type 2 diabetes, medicine.disease_cause, Biochemistry, Cell Line, Mice, 03 medical and health sciences, 0302 clinical medicine, GTP-Binding Proteins, Internal medicine, Genetics, medicine, Animals, Humans, Protein Glutamine gamma Glutamyltransferase 2, Endothelial dysfunction, Molecular Biology, Aorta, Mice, Knockout, chemistry.chemical_classification, Reactive oxygen species, Transglutaminases, biology, business.industry, Cell adhesion molecule, Research, Insulin, medicine.disease, Oxidative Stress, 030104 developmental biology, Endocrinology, chemistry, Hyperglycemia, biology.protein, Endothelium, Vascular, medicine.symptom, Reactive Oxygen Species, business, 030217 neurology & neurosurgery, Oxidative stress, Biotechnology
Abstract

Clinical trials suggested that the vascular system can remember episodes of poor glycemic control through a phenomenon known as hyperglycemic memory (HGM). HGM is associated with long-term diabetic vascular complications in type 1 and type 2 diabetes, although the molecular mechanism of that association is not clearly understood. We hypothesized that transglutaminase 2 (TGase2) and intracellular reactive oxygen species (ROS) play a key role in HGM-induced vascular dysfunction. We found that hyperglycemia induced persistent oxidative stress, expression of inflammatory adhesion molecules, and apoptosis in the aortic endothelium of HGM mice whose blood glucose levels had been normalized by insulin supplementation. TGase2 activation and ROS generation were in a vicious cycle in the aortic endothelium of HGM mice and also in human aortic endothelial cells after glucose normalization, which played a key role in the sustained expression of inflammatory adhesion molecules and apoptosis. Our findings suggest that the TGase2-ROS vicious cycle plays an important role in HGM-induced endothelial dysfunction.—Lee, J.-Y., Lee, Y.-J., Jeon, H.-Y., Han, E.-T., Park, W. S., Hong, S.-H., Kim, Y.-M., Ha, K.-S. The vicious cycle between transglutaminase 2 and reactive oxygen species in hyperglycemic memory–induced endothelial dysfunction.

Published
2019
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39. The anticholinergic drug oxybutynin inhibits voltage‐dependent K + channels in coronary arterial smooth muscle cells

Author

Dong Ryeol Ryu, Hongliang Li, Young Min Bae, Seok-Ho Hong, Eun-Taek Han, Hee Seok Jung, Jin Ryeol An, Won Sun Park, Mi Seon Seo, and Kwon-Soo Ha

Subjects
0301 basic medicine, Pharmacology, Drug, Physiology, Chemistry, medicine.drug_class, media_common.quotation_subject, Linopirdine, 03 medical and health sciences, Atropine, 030104 developmental biology, 0302 clinical medicine, 030220 oncology & carcinogenesis, Physiology (medical), medicine, Anticholinergic, Oxybutynin, IC50, media_common, medicine.drug, K channels, Arterial smooth muscle cells
Abstract

This study demonstrates the inhibitory effect of anticholinergic drug oxybutynin on voltage-dependent K+ (Kv) channels in rabbit coronary arterial smooth muscle cells. Oxybutynin inhibited vascular Kv channels in a concentration-dependent manner, with an IC50 value of 11.51 ± 0.38 μmol/L and a Hill coefficient (n) of 2.25 ± 0.12. Application of oxybutynin shifted the activation curve to the right and the inactivation curve to the left. Pretreatment with the Kv1.5 subtype inhibitor DPO-1 and the Kv2.1 subtype inhibitor guangxitoxin suppressed the oxybutynin-induced inhibition of the Kv current. However, application of the Kv7 subtype inhibitor linopirdine did not affect the inhibition by oxybutynin of the Kv current. The anticholinergic drug atropine did not inhibit the Kv current nor influence oxybutynin-induced inhibition of the Kv current. From these results, we concluded that oxybutynin inhibited the vascular Kv current in a concentration-dependent manner by influencing the steady-state activation and inactivation curves independent of its anticholinergic effect.

Published
2019
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40. Array-based Investigation of Amino Acids Responsible for Regulation of Transamidase and Kinase Activities of Transglutaminase 2

Author

Seok-Ho Hong, Won Sun Park, Young-Myeong Kim, Se-Hui Jung, Mi-Hye Kwon, Eun-Taek Han, and Kwon-Soo Ha

Subjects
chemistry.chemical_classification, Mutation, biology, Kinase, Tissue transglutaminase, 010401 analytical chemistry, Mutant, Biomedical Engineering, Bioengineering, 02 engineering and technology, 021001 nanoscience & nanotechnology, medicine.disease_cause, 01 natural sciences, 0104 chemical sciences, Amino acid, Divalent, chemistry, Biochemistry, medicine, biology.protein, Nucleotide, Electrical and Electronic Engineering, Kinase activity, 0210 nano-technology, Biotechnology
Abstract

Transglutaminase 2 (TGase2) is involved in a variety of cellular processes and diseases via its transamidase and kinase activities, which are regulated by conformational changes induced by the binding of nucleotides and divalent cations. However, due to the lack of an appropriate assay system, the function of critical amino acid residues in the regulation of both activities is unclear. Thus, we designed site-directed TGase2 mutants that were then used in protein arrays to investigate the effects of the mutations on the regulation of TGase2 transamidase and kinase activities. We found that the Lys444Ala mutation, but not the Arg580Lys and Lys663Ala mutations, completely inhibited the transamidase activity. Additionally, the mutations at Lys444 and Lys663 inhibited the kinase activity by 27% and 48%, respectively, but the mutations at Cys277 and Arg580 had no effect. Furthermore, a kinetic analysis of the transamidation reaction revealed that the Lys663Ala mutation increased the affinity of TGase2 for the substrate fibrinogen. Thus, this array-based approach would be helpful for investigation of amino acids responsible for regulation of the TGase2 transamidase and kinase activities and the pathogenesis of TGase2- mediated diseases.

Published
2019
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41. Arg-Leu-Tyr-Glu Suppresses Retinal Endothelial Permeability and Choroidal Neovascularization by Inhibiting the VEGF Receptor 2 Signaling Pathway

Author

Jeong Hun Kim, Seunghwan Choi, Dong Hyun Jo, Minsik Park, Taesam Kim, Suji Kim, Ji Yoon Kim, Joohwan Kim, Jin Hyoung Kim, Yi Yong Baek, Moo Ho Won, Kwon-Soo Ha, Young Myeong Kim, Young Guen Kwon, and Wonjin Park

Subjects
0301 basic medicine, MAPK/ERK pathway, Choroidal neovascularization, Angiogenesis, Vascular permeability, Biochemistry, Permeability, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Drug Discovery, medicine, Protein kinase B, Pharmacology, Tube formation, Vascular leakage, Macular degeneration, Retinal, VEGF, Vascular endothelial growth factor, 030104 developmental biology, VEGFR2, chemistry, 030220 oncology & carcinogenesis, Cancer research, Molecular Medicine, Original Article, medicine.symptom
Abstract

Vascular endothelial growth factor (VEGF) plays a pivotal role in pathologic ocular neovascularization and vascular leakage via activation of VEGF receptor 2 (VEGFR2). This study was undertaken to evaluate the therapeutic mechanisms and effects of the tetrapeptide Arg-Leu-Tyr-Glu (RLYE), a VEGFR2 inhibitor, in the development of vascular permeability and choroidal neovascularization (CNV). In cultured human retinal microvascular endothelial cells (HRMECs), treatment with RLYE blocked VEGF-A-induced phosphorylation of VEGFR2, Akt, ERK, and endothelial nitric oxide synthase (eNOS), leading to suppression of VEGF-A-mediated hyper-production of NO. Treatment with RLYE also inhibited VEGF-A-stimulated angiogenic processes (migration, proliferation, and tube formation) and the hyperpermeability of HRMECs, in addition to attenuating VEGF-A-induced angiogenesis and vascular permeability in mice. The anti-vascular permeability activity of RLYE was correlated with enhanced stability and positioning of the junction proteins VE-cadherin, β-catenin, claudin-5, and ZO-1, critical components of the cortical actin ring structure and retinal endothelial barrier, at the boundary between HRMECs stimulated with VEGF-A. Furthermore, intravitreally injected RLYE bound to retinal microvascular endothelium and inhibited laser-induced CNV in mice. These findings suggest that RLYE has potential as a therapeutic drug for the treatment of CNV by preventing VEGFR2-mediated vascular leakage and angiogenesis.

Published
2019

42. Inhibitory effect of immunosuppressive drug tacrolimus on voltage-gated K+ current in rabbit coronary arterial smooth muscle cells

Author

Jeong Min Lee, Hongliang Li, Young Min Bae, Grace Choi, Il-Whan Choi, Jin Ryeol An, Kwon-Soo Ha, Mi Seon Seo, Won Sun Park, Dae Sung Lee, Mi-Jin Yim, Eun-Taek Han, Won-Kyo Jung, and Seok-Ho Hong

Subjects
0301 basic medicine, Pharmacology, Voltage-gated ion channel, Chemistry, medicine.medical_treatment, chemical and pharmacologic phenomena, Depolarization, Tacrolimus, Calcineurin, 03 medical and health sciences, surgical procedures, operative, 030104 developmental biology, 0302 clinical medicine, Immunosuppressive drug, medicine, Inhibitory effect, IC50, 030217 neurology & neurosurgery, Arterial smooth muscle cells
Abstract

In the present study, we investigated the inhibitory effect of tacrolimus, a macrolide immunosuppressive drug that acts through calcineurin inhibition, on voltage-gated K+ (Kv) channels expressed in native smooth muscle cells isolated from the coronary arteries of rabbits. Tacrolimus reduced the amplitude of Kv currents in a dose-dependent manner with an IC50 value and Hill coefficient of 7.80 ± 3.01 μM and 1.07 ± 0.25, respectively. Tacrolimus caused a shift in the activation curve toward a more positive potential and in the inactivation curve toward a more negative potential. Tacrolimus-induced inhibition of Kv current was increased by the application of train pulses (1 or 2 Hz). Furthermore, the recovery time constant of inactivation was extended in the presence of tacrolimus, suggesting that tacrolimus inhibited Kv channels in a use-dependent manner. Two kinds of Kv subtype inhibitors, DPO-1 and guangxitoxin did not affect the degree of tacrolimus-induced inhibition of Kv current. Furthermore, pretreatment with another calcineurin inhibitor, cyclosporine A, did not affect the Kv current, and did not alter the inhibitory effect of tacrolimus. Using perforated-patch clamp experiments, inhibition of Kv channels by tacrolimus caused membrane depolarization. From these results, we concluded that tacrolimus inhibited the vascular Kv currents in a dose, state (open and closed)-dependent manner.

Published
2019
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44. In-Depth Biological Alteration Analysis of Plasmodium Knowelsi-Infected Red Blood Cells Using A Non-Invasive Optical Imaging Technique

Author

Won-Sun Park, Fauzi Muh, Ji-Hoon Park, Kwon-Soo Ha, Egy Rahman Firdaus, Eun-Taek Han, Seong-Kyun Lee, Jin-Hee Han, and Sunghun Na

Subjects
Pathology, medicine.medical_specialty, Optical imaging, Plasmodium (life cycle), biology, parasitic diseases, Non invasive, medicine, biology.organism_classification
Abstract

Background Imaging techniques are commonly used for understanding disease mechanisms and their biological features in such a microenvironment of the cell. In recent work, the understanding of parasite biology of malaria Plasmodium knowlesi was compiled from functional in vitro and imaging analysis using serial block-face scanning electron microscopy (SEM). Sample fixation during SEM analysis possibly makes the parasite membrane destruction. Methods In this study, we used a non-invasive optical technique, tomography, to explore the biological changes during the development of infected red blood cells (RBCs) by P. knowlesi. The commercial common-path diffraction optical tomography was used to measure individual infected RBCs' three-dimensional refractive index tomogram without an additional dyeing agent. Results We simultaneously examined structural, chemical, and physical modification by a parasite inside of host RBCs. The results had similar patterns with previous studies using SEM and other parasites such as P. falciparum and Babesia. Interestingly we found that P. knowlesi did not use hemoglobin as much as P. falciparum as a source of nutrition. Conclusions This tomography technique opens new ways to study the pathophysiology of malaria parasites more efficiently and is considered a promising tool for studying each Plasmodium species more in-depth.

Published
2021
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47. Serodiagnostic antigens of Clonorchis sinensis identified and evaluated by high-throughput proteogenomics

Author

Satoru Takeo, Ji-Yun Lee, Sung-Jong Hong, Eun-Taek Han, Sung-Tae Hong, Takafumi Tsuboi, Won Gi Yoo, Banchob Sripa, Pyo Yun Cho, Jae Wan Jung, Tae Im Kim, Jong-Yil Chai, Jhang Ho Pak, Ho Woo Nam, Kwon-Soo Ha, Tong-Soo Kim, and Jin-Ho Song

Subjects
0301 basic medicine, Serum Proteins, Physiology, Flatworms, RC955-962, Artificial Gene Amplification and Extension, Protein Synthesis, Biochemistry, Polymerase Chain Reaction, law.invention, 0302 clinical medicine, Medical Conditions, law, Raw Foods, Immune Physiology, Arctic medicine. Tropical medicine, Medicine and Health Sciences, Polymerase chain reaction, Proteogenomics, Clonorchis sinensis, Immune System Proteins, Clonorchis, biology, Fishes, Eukaryota, Chemical Synthesis, Recombinant Proteins, Infectious Diseases, Helminth Infections, Point-of-Care Testing, Clonorchiasis, Protein microarray, Recombinant DNA, Public aspects of medicine, RA1-1270, Research Article, Neglected Tropical Diseases, Antigenicity, Biosynthetic Techniques, 030231 tropical medicine, Immunology, Antibodies, Helminth, Enzyme-Linked Immunosorbent Assay, Cross Reactions, Research and Analysis Methods, Trematodes, Sensitivity and Specificity, 03 medical and health sciences, Antigen, Helminths, medicine, Parasitic Diseases, Animals, Humans, Serologic Tests, Antigens, Molecular Biology Techniques, Molecular Biology, Opisthorchis, Public Health, Environmental and Occupational Health, Organisms, Biology and Life Sciences, Proteins, medicine.disease, biology.organism_classification, Tropical Diseases, Virology, Invertebrates, 030104 developmental biology, Antigens, Helminth, Immunoglobulin G, Zoology, Foodborne Trematodiases, Cloning
Abstract

Clonorchiasis caused by Clonorchis sinensis is endemic in East Asia; approximately 15 million people have been infected thus far. To diagnose the infection, serodiagnostic tests with excellent functionality should be performed. First, 607 expressed sequence tags encoding polypeptides with a secretory signal were expressed into recombinant proteins using an in vitro translation system. By protein array-based screening using C. sinensis-infected sera, 18 antigen candidate proteins were selected and assayed for cross-reactivity against Opisthorchis viverrini-infected sera. Of the six antigenic proteins selected, four were synthesized on large scale in vitro and evaluated for antigenicity against the flukes-infected human sera using ELISA. CsAg17 antigen showed the highest sensitivity (77.1%) and specificity (71.2%). The sensitivity and specificity of the bacterially produced CsAg17-28GST fusion antigen was similar to those of CsAg17 antigen. CsAg17 antigen can be used to develop point-of-care serodiagnostic tests for clonorchiasis., Author summary Human clonorchiasis is a parasitic disease caused by the Chinese liver fluke, Clonorchis sinensis. Humans are infected through eating raw freshwater fishes carrying C. sinensis metacercariae, the encysted larvae. They excyst in the duodenum, move into the liver via bile duct and grow to adult worms. Excretory-secretory products of the worm damage the liver causing various inflammatory pathological changes and may lead to bile duct cancer. Although there exists an anthelmintic choice praziquantel to kill the fluke, emphasis is placed on early diagnosis and prevention before the infection becomes disease. Microscopic stool examination is the standard diagnostic method but is cumbersome and time consuming. Blood serum antibodies from clonorchiasis patients could provide a simple and fast diagnosis. However, antibody detecting diagnostics developed so far have a low specificity and sensitivity. In the present study we selected 607 antigenic candidate proteins from the genomic database and synthesized them through an integrated high-throughput proteogenomic tools. We identified several antigenic proteins and evaluated their diagnostic potential for clonorchiasis. One of them, CsAg17, showed a high sensitivity and specificity. This antigen deserves development of point-of-care serodiagnostics for C. sinensis infections.

Published
2020

48. Perivascular Cells and NADPH Oxidase Inhibition Partially Restore Hyperglycemia-Induced Alterations in Hematopoietic Stem Cell and Myeloid-Derived Suppressor Cell Populations in the Bone Marrow

Author

Ji Yoon Lee, Chang-Ki Min, Ji Young Kim, Eun-Taek Han, Won Sun Park, Kwon-Soo Ha, and Seok-Ho Hong

Subjects
MDSCs, Flow cytometry, 03 medical and health sciences, 0302 clinical medicine, Downregulation and upregulation, medicine, 030304 developmental biology, 0303 health sciences, NADPH oxidase, medicine.diagnostic_test, biology, Chemistry, Hematopoietic stem cell, NOX, Cell Biology, Hematopoiesis, Haematopoiesis, medicine.anatomical_structure, Hyperglycemia, Perivascular niche, Cancer research, biology.protein, Myeloid-derived Suppressor Cell, Original Article, Bone marrow, Stem cell, 030217 neurology & neurosurgery, Developmental Biology
Abstract

Background and Objectives Patients suffer from long-term diabetes can result in severe complications in multiple organs through induction of vascular dysfunctions. However, the effects of chronic hyperglycemic conditions on hematopoiesis and the microenvironment in the bone marrow (BM) are not yet well understood. Methods BM cells were harvested from femurs of mice and analyzed using flow cytometry. Human PVCs were cultured in serum-free α-MEM. After 24hrs, PVC-CM was collected and filtered through a 0.22 μm filter. Results In this study, we showed that hyperglycemia alters hematopoietic composition in the BM, which can partially be restored via paracrine mechanisms, including perivascular cells (PVCs) and NADPH oxidase (NOX) inhibition in mice with streptozotocin-induced diabetes. Prolonged hyperglycemic conditions resulted in an increase in the frequency and number of long-term hematopoietic stem cells as well as the number of total BM cells. The altered hematopoiesis in the BM was partially recovered by treatment with PVC-derived conditioned medium (CM). Long-term diabetes also increased the number of myeloid-derived suppressor cells in the BM, which was partially restored by the administration of PVC-CM and diphenyleneiodonium (DPI), a NOX inhibitor. We further showed the downregulation of ERK and p38 phosphorylation in BM cells of diabetic mice treated with PVC-CM and DPI. This may be associated with dysfunction of hematopoietic cells and promotion of subsequent diabetic complications. Conclusions Our data suggested that alterations in BM hematopoietic composition due to prolonged hyperglycemic conditions might be restored by improvement of the hematopoietic microenvironment and modulation of NOX activity.

Published
2019
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49. The inhibitory effect of ziprasidone on voltage-dependent K

Author

Jin Ryeol, An, Mi Seon, Seo, Hee Seok, Jung, Ryeon, Heo, Minji, Kang, Kwon-Soo, Ha, Hongzoo, Park, and Won Sun, Park

Subjects
Thiazoles, Patch-Clamp Techniques, Potassium Channels, Voltage-Gated, Myocytes, Smooth Muscle, Potassium Channel Blockers, Animals, Rabbits, Coronary Vessels, Cells, Cultured, Piperazines, Antipsychotic Agents
Abstract

We investigated the effect of ziprasidone, a widely used treatment for schizophrenia, on voltage-dependent K

Published
2020

50. Application of elastin-like biopolymer-conjugated C-peptide hydrogel for systemic long-term delivery against diabetic aortic dysfunction

Author

Kwon-Soo Ha, Yeon-Ju Lee, Seok-Ho Hong, Hye-Yoon Jeon, Ah-Jun Lee, Minsoo Kim, Won Sun Park, Young-Myeong Kim, and Eun-Taek Han

Subjects
0206 medical engineering, Biomedical Engineering, 02 engineering and technology, Pharmacology, medicine.disease_cause, Biochemistry, Diabetes Mellitus, Experimental, Biomaterials, chemistry.chemical_compound, Mice, Biopolymers, Pharmacokinetics, medicine.artery, Diabetes mellitus, medicine, Animals, Humans, Molecular Biology, Aorta, biology, C-Peptide, C-peptide, business.industry, Hydrogels, General Medicine, 021001 nanoscience & nanotechnology, medicine.disease, 020601 biomedical engineering, Elastin, chemistry, Self-healing hydrogels, Drug delivery, biology.protein, Endothelium, Vascular, 0210 nano-technology, business, Oxidative stress, Biotechnology
Abstract

Due to their short half-lives, repeated administration of anti-hyperglycemic drugs can cause pain, discomfort, tissue damage, and infection in diabetic patients. Therefore, there is a need to develop long-term drug delivery systems to treat diabetes and its complications. C-peptide can prevent diabetic complications, including diabetic vasculopathy, but its clinical application is limited by its short half-life. Here, we developed K9-C-peptide (human C-peptide conjugated to an elastin-like biopolymer) and investigated its long-term influence on hyperglycemia-induced vascular dysfunction using an aortic endothelium model in diabetic mice. Using pharmacokinetics and in vivo imaging, we found that subcutaneously injected K9-C-peptide formed a hydrogel depot that slowly released human C-peptide into the blood circulation for 19 days. Administration of K9-C-peptide, human C-peptide, or K8 polypeptide had no effect on body weight or blood glucose levels. The slow release of C-peptide from K9-C-peptide hydrogels provided prolonged prevention of oxidative stress, inflammatory responses, and endothelial apoptosis in a hyperglycemia-induced vascular dysfunction model using the diabetic mouse aorta. Subcutaneous administration of unbound human C-peptide and K8 polypeptide were used as negative controls and had no effects. These results suggest that K9-C-peptide is suitable for the long-term delivery of human C-peptide for treating vascular dysfunction in diabetic patients.

Published
2020

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