Jain Jeong
Kyungpook National University
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Featured researches published by Jain Jeong.
Arteriosclerosis, Thrombosis, and Vascular Biology | 2014
Min Cheol Kang; Seo Jin Park; Hei Jung Kim; Jinhee Lee; Dong Hoon Yu; Ki Beom Bae; Young Rae Ji; Si Jun Park; Jain Jeong; Woo Young Jang; Jung Hak Kim; Myung Sook Choi; Dong Seok Lee; Hyun Shik Lee; Sanggyu Lee; Sung Hyun Kim; Myoung Ok Kim; Gyeongsin Park; Yeon Sik Choo; Je Yoel Cho; Zae Young Ryoo
Objective— Angiogenesis is an important biological process during development, reproduction, and in immune responses. Placental growth factor (PlGF) is a member of vascular endothelial growth factor that is critical for angiogenesis and vasculogenesis. We generated transgenic mice overexpressing PlGF in specifically T cells using the human CD2-promoter to investigate the effects of PlGF overexpression. Approach and Results— Transgenic mice were difficult to obtain owing to high lethality; for this reason, we investigated why gestational loss occurred in these transgenic mice. Here, we report that placenta detachment and inhibition of angiogenesis occurred in PlGF transgenic mice during the gestational period. Moreover, even when transgenic mice were born, their growth was restricted. Conclusions— Conclusively, PlGF overexpression prevents angiogenesis by inhibiting Braf, extracellular signal–regulated kinase activation, and downregulation of HIF-1&agr; in the mouse placenta. Furthermore, it affected regulatory T cells, which are important for maintenance of pregnancy.
Brain Research | 2017
Woo Young Jang; Boram Lee; Jain Jeong; Younghun Sung; Minjee Choi; Park Song; Hyerim Kim; Soyoung Jang; Hyunmin Kim; Kyung-Il Joo; Jeong-Woong Lee; Yeon Sik Choo; Eunjoo Kim; Zae Young Ryoo
Alzheimers disease (AD) is a neurodegenerative disorder characterized by loss of memory and cognitive abilities. In AD, amyloid β (Aβ) protein aggregates in the brain of patients, forming amyloid plaques. Aβ plaques are known to be surrounded by activated microglial cells. Serum amyloid A (SAA) is elevated from several hundred to 1000-fold as part of the immune response against various injuries, including trauma, infection, and inflammation. Additionally, continuous elevation of SAA is related to the development of amyloidosis. This study was designed to identify the relationship between SAA1 and AD using liver specific SAA1 overexpressing mice (TG), because SAA1 is expressed in the liver during the acute phase. We detected exogenous SAA1 expression in the brain of TG mice. This result implies that liver-derived SAA1 migrates to the brain tissues. Thus, we confirmed that the blood brain barrier (BBB) functioned normally using Evans-blue staining and CARS. Furthermore, our results show an increase in the accumulation of the 87kDa form of Aβ in TG mice compared to wild type mice (WT). Additionally, the number of microglial cells and levels of pro-inflammatory cytokines were increased. Next, we investigated the relationship between SAA1 and depression by performing social interaction tests. The results showed that TG mice have a tendency to avoid stranger mice and an impaired social recognition. In conclusion, the SAA1 TG mouse model is a valuable model to study depression.
Biochemical and Biophysical Research Communications | 2016
Hyerim Kim; Woo Young Jang; Mincheol Kang; Jain Jeong; Minjee Choi; Yonghun Sung; Song Park; Wookbong Kwon; Soyoung Jang; Myoung Ok Kim; Sung Hyun Kim; Zae Young Ryoo
Epigenetic mechanisms are relevant to development and contribute to fetal neurogenesis. DNA methylation and demethylation contribute to neural gene expression during mouse brain development. Ten-eleven translocation 1 (TET1) regulates DNA demethylation by converting 5-methylcytosine (5mC) to 5-hydroxymethylcytosine (5hmC). TET1 specifically regulates 5hmC in the central nervous system (CNS), including during neurogenesis in the adult brain. However little is known about its function in fetal neurogenesis. In order to evaluate the role of TET1 in fetal brain development, we generated TET1-overexpressing transgenic (TG) mice. TET1 overexpression was confirmed in the brains of fetal mice, and we detected 5hmC overexpression in the TG brains compared to that in the wild type (WT) brains, using a dot-blot assay. In order to observe the role of TET1 in fetal brain development, we examined fetal brain samples at varied time points by using real-time PCR, Western blotting, and Immunofluorescence (IF). We confirmed that TET1 contributes to neurogenesis by upregulating the protein expressions of neuronal markers in the TG mouse brains, as determined by Western blotting. However the cortex structure or brain mass between WT and TG mice showed no significant difference by IF. In conclusion, TET1 makes the start time of neurogenesis earlier in the TG brains compared to that in the WT brains during fetal brain development.
Biochemical and Biophysical Research Communications | 2014
Young Rae Ji; Hei Jung Kim; Dong Hun Yu; Ki Beom Bae; Seo Jin Park; Si Jun Park; Woo Young Jang; Min Cheol Kang; Jain Jeong; Yong Hun Sung; Minjee Choi; Taejun Park; Taesun Park; Jong Won Yun; Hyun Shik Lee; Sanggyu Lee; Myoung Ok Kim; Zae Young Ryoo
Chronic hepatitis is a major cause of liver cancer, so earlier treatment of hepatitis might be reducing liver cancer incidence. Hepatitis can be induced in mice by treatment with Concanavalin A (Con A); the resulting liver injury causes significant CD4(+) T cell activation and infiltration. In these T cells, Roquin, a ring-type E3 ubiquitin ligase, is activated. To investigate the role of Roquin, we examined Con A-induced liver injury and T cell infiltration in transgenic (Tg) mice overexpressing Roquin specifically in T cells. In Roquin Tg mice, Con A treatment caused greater increases in both the levels of liver injury enzymes and liver tissue apoptosis, as revealed by TUNEL and H&E staining, than wild type (WT) mice. Further, Roquin Tg mice respond to Con A treatment with greater increases in the T cell population, particularly Th17 cells, though Treg cell counts are lower. Roquin overexpression also enhances increases in pro-inflammatory cytokines, including IFN-γ, TNF-α and IL-6, upon liver injury. Furthermore, Roquin regulates the immune response and apoptosis in Con A induced hepatitis via STATs, Bax and Bcl2. These findings suggest that over-expression of Roquin exacerbates T-cell mediated hepatitis.
Applied Physiology, Nutrition, and Metabolism | 2016
Woo Young Jang; Jain Jeong; Seonggon Kim; Mincheol Kang; Yong Hun Sung; Minjee Choi; Si Jun Park; Myoung Ok Kim; Sung Hyun Kim; Zae Young Ryoo
Serum amyloid A (SAA) is an acute-phase response protein in the liver, and SAA1 is the major precursor protein involved in amyloid A amyloidosis. This amyloidosis has been reported as a complication in chronic inflammatory conditions such as arthritis, lupus, and Crohns disease. Obesity is also associated with chronic, low-grade inflammation and sustained, elevated levels of SAA1. However, the contribution of elevated circulating SAA1 to metabolic disturbances and their complications is unclear. Furthermore, in several recent studies of transgenic (TG) mice overexpressing SAA1 that were fed a high-fat diet (HFD) for a relatively short period, no relationship was found between SAA1 up-regulation and metabolic disturbances. Therefore, we generated TG mice overexpressing SAA1 in the liver, challenged these mice with an HFD, and investigated the influence of elevated SAA1 levels. Sustained, elevated levels of SAA1 were correlated with metabolic parameters and local cytokine expression in the liver following 16 weeks on the HFD. Moreover, prolonged consumption (52 weeks) of the HFD was associated with impaired glucose tolerance and elevated SAA1 levels and resulted in systemic SAA1-derived amyloid deposition in the kidney, liver, and spleen of TG mice. Thus, we concluded that elevated SAA1 levels under long-term HFD exposure result in extensive SAA1-derived amyloid deposits, which may contribute to the complications associated with HFD-induced obesity and metabolic disorders.
The FASEB Journal | 2018
Wookbong Kwon; Hyeng-Soo Kim; Jain Jeong; Yonghun Sung; Minjee Choi; Song Park; Jinhee Lee; Soyoung Jang; Sung Hyun Kim; Sanggyu Lee; Myoung Ok Kim; Zae Young Ryoo
Ten‐eleven translocation methylcytosine dioxygenase 1 (Teil) initiates DNA demethylation by converting 5‐methylcytosine (5‐mC) to 5‐hydroxymethylcytosine (5‐hmC) at CpG‐rich regions of genes, which have key roles in adult neurogenesis and memory. In addition, the overexpression of Tet1 with 5‐hmC alteration in patients with psychosis has also been reported, for instance in schizophrenia and bipolar disorders. The mechanism underlying Tet1 overexpression in the brain; however, is still elusive. In the present study, we found that Tet1‐transgenic (Tet1‐TG) mice displayed abnormal behaviors involving elevated anxiety and enhanced fear memories. We confirmed that Tet1 overexpression affected adult neurogenesis with oligodendrocyte differentiation in the hippocampal dentate gyrus of Tet1‐TG mice. In addition, Tet1 overexpression induced the elevated expression of immediate early genes, such as Egrl, c‐fos, Arc, and Bdnf, followed by the activation of intracellular calcium signals (i.e., CamKII, ERK, and CREB) in prefrontal and hippocampal neurons. The expression of GABA receptor subunits (Gabra2 and Gabra4) fluctuated in the prefrontal cortex and hippocampus. We evaluated the effects of Tet1 over‐expression on intracellular calcium‐dependent cascades by activating the Egrl promoter in vitro. Tet1 enhanced Egr1 expression, which may have led to alterations in Gabra2 and Gabra4 expression in neurons. Taken together, we suggest that the Tet1 overexpression in our Tet1‐TG mice can be applied as an effective model for studying various stress‐related diseases that show hyperactivation of intracellular calcium‐dependent cascades in the brain.—Kwon, W., Kim, H.‐S., Jeong J., Sung, Y., Choi, M., Park, S., Lee, J., Jang S., Kim, S. H., Lee, S., Kim, M. O., Ryoo, Z. Y. Tet1 overexpression leads to anxiety‐like behavior and enhanced fear memories via the activation of calcium‐dependent cascade through Egr1 expression in mice. FASEB J. 32, 390‐403 (2018). www.fasebj.org
Oncotarget | 2017
Song Park; Yonghun Sung; Jain Jeong; Minjee Choi; Jinhee Lee; Wookbong Kwon; Soyoung Jang; Si Jun Park; Hyeng Soo Kim; Mee Hyun Lee; Dong Joon Kim; Kangdong Liu; Sung Hyun Kim; Zigang Dong; Zae Young Ryoo; Myoung Ok Kim
Breast cancer is the most abundant cancer worldwide and a severe problem for women. Notably, breast cancer has a high mortality rate, mainly because of tumor progression and metastasis. Triple-negative breast cancer (TNBC) is highly progressive and lacks the expression of estrogen receptor (ER), progesterone receptor (PR), and human epidermal growth factor receptor 2 (HER2). Therefore, there are no established therapeutic targets against TNBC. In this study, we investigated whether the expression of human melanoma-associated antigen A2 (MAGEA2) is associated with TNBC. We found that hMAGEA2 is significantly overexpressed in human TNBC tissues; we also observed oncogenic properties using TNBC cell lines (MDA-MB-231 and MDA-MB-468). The overexpression of hMAGEA2 in MDA-MB-231 cell line showed dramatically increased cellular proliferation, colony formation, invasion, and xenograft tumor formation and growth. Conversely, knockdown of hMAEGA2 in MDA-MB-468 cell line suppressed cellular proliferation, colony formation, and xenograft tumor formation. Additionally, we showed that hMAGEA2 regulated the activation of Akt and Erk1/2 signaling pathways. These data indicate that hMAGEA2 is important for progression of TNBC and may serve as a novel molecular therapeutic target.
Oncotarget | 2018
Yonghun Sung; Song Park; Si Jun Park; Jain Jeong; Minjee Choi; Jinhee Lee; Wookbong Kwon; Soyoung Jang; Mee Hyun Lee; Dong Joon Kim; Kangdong Liu; Sung Hyun Kim; Jae-Ho Lee; Yun Sok Ha; Tae Gyun Kwon; Sanggyu Lee; Zigang Dong; Zae Young Ryoo; Myoung Ok Kim
Juxtaposed with another zinc finger protein 1 (Jazf1) is a zinc finger protein and is known to affect both prostate cancer and type 2 diabetes. Jazf1 inhibits testicular nuclear receptor 4 (TR4) activation through protein-protein interaction, which results in weight loss and alleviates diabetes. However, the role of Jazf1 in prostate cancer is still poorly understood. Hence, we investigated whether the expression of Jazf1 is associated with prostate cancer progression. We confirmed the upregulation of Jazf1 expression in human prostate tissue samples. In addition, using Jazf1 overexpressing prostate cancer cell lines, DU145 and LNCaP, we found Jazf1 promoted cell proliferation and colony formation ability. We also observed that Jazf1 dramatically enhanced cell migration and invasion in transwell assays. Additionally, we checked the upregulation of vimentin and downregulation of E-cadherin expression in Jazf1-overexpressing DU145 and LNCaP cells. Moreover, we found that Slug, which is known to be regulated by JNK/c-Jun phosphorylation, was upregulated in the microarray analysis of two prostate cancer cell lines. Jazf1 promotes the phosphorylation of JNK/c-Jun, likely promoting cell proliferation and invasion through Slug. In a xenograft model, tumors overexpressing Jazf1 were larger than control tumors, and tumors with decreased Jazf1 were smaller. These data indicated that Jazf1 enhances prostate cancer progression and metastasis via regulating JNK/Slug signaling. Taken together, these results suggest that Jazf1 plays an important role in both androgen dependent and independent prostate cancer.
Journal of Cell Science and Therapy | 2017
Sung-Hyun Kim; Hyo Jin Jeong; Yonghun Seong; Song Park; Jain Jeong; Dong Joon Kim; In-Kyu Lee; Zae Young Ryoo; Myoung Ok Kim
S-phase-kinase-associated protein 2 (SKP2) plays a crucial role in the tumorigenesis of various human cancers. Imatinib, an inhibitor of BCR-ABL tyrosine kinase, c-kit, and platelet derived growth factor receptors, has been approved for the treatment and investigation of chronic myeloid leukemia, gastrointestinal stromal tumors, and various other solid tumors. However, its efficacy in the treatment of skin squamous cell carcinoma (SSCC) has not yet been investigated. The aim of this study was to investigate whether imatinib has an antitumor effect in human SSCC cells and evaluate its functional relationship with SKP2. To research the effect of imatinib on the growth of A431 SSCC cells, we conducted a proliferation assay and flow cytometry. A western blot assay was performed to verify the function of imatinib in A431 cells and evaluate the underlying molecular mechanism. Imatinib significantly inhibited cell growth and induced cell cycle arrest at the G0/G1 phase. Furthermore, the depletion of SKP2 triggered cell cycle arrest and inhibited colony formation. Mechanistically, imatinib markedly downregulated SKP2 protein expression and subsequently upregulated P21 expression via increased protein stability. In conclusion, imatinib demonstrated an antitumor activity against SSCC cells via the SKP2-P21 signaling axis and targeting SKP2 using imatinib could be a novel therapeutic approach for SSCC that warrants further study.
Endocrine Journal | 2018
Mincheol Kang; Jain Jeong; Jinhee Lee; Song Park; Yonghun Sung; Minjee Choi; Wookbong Kwon; Soyoung Jang; Kwang Shik Choi; Yeon Sik Choo; Duhak Yoon; Myoung Ok Kim; Zae Young Ryoo