• Title/Summary/Keyword: Molecular pathway

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CpG-DNA induces bacteria-reactive IgM enhancing phagocytic activity against Staphylococcus aureus infection

  • Kim, Te Ha;Kim, Dongbum;Lee, Heesu;Kwak, Min Hyung;Park, Sangkyu;Lee, Younghee;Kwon, Hyung-Joo
    • BMB Reports
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    • v.52 no.11
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    • pp.635-640
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    • 2019
  • CpG-DNA triggers the proliferation and differentiation of B cells which results in the increased production of antibodies. The presence of bacteria-reactive IgM in normal serum was reported; however, the relevance of CpG-DNA with the production of bacteria-reactive IgM has not been investigated. Here, we proved the function of CpG-DNA for the production of bacteria-reactive IgM. CpG-DNA administration led to increased production of bacteria-reactive IgM both in the peritoneal fluid and serum through TLR9 signaling pathway. When we stimulated B cells with CpG-DNA, production of bacteria-reactive IgM was reproduced in vitro. We established a bacteria-reactive monoclonal IgM antibody using CpG-DNA stimulated-peritoneal B cells. The monoclonal IgM antibody enhanced the phagocytic activity of RAW 264.7 cells against S. aureus MW2 infection. Therefore, we suggest that CpG-DNA enhances the antibacterial activity of the immune system by triggering the production of bacteria-reactive IgM. We also suggest the possible application of the antibodies for the treatment of antibiotics-resistant bacterial infections.

Negative Regulation of Erythroid Differentiation via the CBX8-TRIM28 Axis

  • Kim, Hyun Jeong;Park, Jin Woo;Kang, Joo-Young;Seo, Sang-Beom
    • Molecules and Cells
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    • v.44 no.7
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    • pp.444-457
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    • 2021
  • Although the mechanism of chronic myeloid leukemia (CML) initiation through BCR/ABL oncogene has been well characterized, CML cell differentiation into erythroid lineage cells remains poorly understood. Using CRISPR-Cas9 screening, we identify Chromobox 8 (CBX8) as a negative regulator of K562 cell differentiation into erythrocytes. CBX8 is degraded via proteasomal pathway during K562 cell differentiation, which activates the expression of erythroid differentiation-related genes that are repressed by CBX8 in the complex of PRC1. During the differentiation process, the serine/threonine-protein kinase PIM1 phosphorylates serine 196 on CBX8, which contributes to CBX8 reduction. When CD235A expression levels are analyzed, the result reveals that the knockdown of PIM1 inhibits K562 cell differentiation. We also identify TRIM28 as another interaction partner of CBX8 by proteomic analysis. Intriguingly, TRIM28 maintains protein stability of CBX8 and TRIM28 loss significantly induces proteasomal degradation of CBX8, resulting in an acceleration of erythroid differentiation. Here, we demonstrate the involvement of the CBX8-TRIM28 axis during CML cell differentiation, suggesting that CBX8 and TRIM28 are promising novel targets for CML research.

The Protective Effects of Mahaengeuigam-Tang against Monosodium Iodoacetate induced Osteoarthritis in Rats (마행의감탕(麻杏薏甘湯)이 골관절염 유발 흰쥐의 apoptosis 기전에 미치는 영향)

  • Kim, Bum Hoi
    • Herbal Formula Science
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    • v.26 no.4
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    • pp.283-294
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    • 2018
  • Objectives : Mahaengeuigam-Tang (MHEGT) has been used as a traditional medicine for the treatment of rheumatic aerthritis, rheumatisim, eczema and asthma. The aim of this study was to investigate the molecular mechanisms of MHEGT for cartilage protection in monosodium iodoacetate(MIA)-induced osteoarthritis, particularly focusing on apoptosis. Method : Thirty young male Sprague-Dawley rats were used for the study. Rats were intra-articularly injected with 2 mg MIA in a total volume of 50 ㎕ saline. In MHEGT group, MHEGT extract was orally administered once daily to MIA-induced osteoarthritis rats, and rats of control group were given with saline only. At 4 weeks after MIA injection, all animals were sacrificed, and the histological changes and articular thickness were assessed by hematoxylin and eosin staining. Moreover, the immunohistochemical analyses of BAX and Bcl-2 were carried out. Results : The histomorphological examinations revealed that MHEGT reduced MIA-induced cartilage damage. And, MHEGT ameliorated the severity of cartilage surface damages after MIA injection. Furthermore, MHEGT suppressed the MIA-induced increases of pro-apoptotic BAX protein and increased the protein expression of anti-apoptotic Bcl-2 protein. Conclusion : These findings indicate that MHEGT protects against MIA-induced cartilage damage by inhibition of the apoptotic pathway, demonstrating significant protection of cartilage against osteoarthritis. These results suggest that MHEGT may potentially have clinical applications in the treatment of osteoarthritis.

Effect of Differential Thermal Drying Conditions on the Immunomodulatory Function of Ginger

  • Lee, Ji Su;Kim, Bomi;Kim, Jae Hwan;Jeong, Minju;Lim, Seokwon;Byun, Sanguine
    • Journal of Microbiology and Biotechnology
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    • v.29 no.7
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    • pp.1053-1060
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    • 2019
  • Thermal drying is a common process used in the food industry for the modification of agricultural products. However, while various studies have investigated the alteration in physiochemical properties and chemical composition after drying, research focusing on the relationship between different dehydration conditions and bioactivity is scarce. In the current study, we prepared dried ginger under nine different conditions by varying the processing time and temperature and compared their immunomodulatory effects. Interestingly, depending on the drying condition, there were significant differences in the immunestimulating activity of the dried ginger samples. Gingers processed at $50^{\circ}C$ 1h displayed the strongest activation of macrophages measured by $TNF-{\alpha}$ and IL-6 levels, whereas, freezedried or $70^{\circ}C$- and $90^{\circ}C$-dried ginger showed little effect. Similar results were recapitulated in primary bone marrow-derived macrophages, further confirming that different dehydration conditions can cause significant differences in the immune-stimulating activity of ginger. Induction of ERK, p38, and JNK signaling was found to be the major underlying molecular mechanism responsible for the immunomodulatory effect of ginger. These results highlight the potential to improve the bioactivity of functional foods by selectively controlling processing conditions.

The IRF2BP2-KLF2 axis regulates osteoclast and osteoblast differentiation

  • Kim, Inyoung;Kim, Jung Ha;Kim, Kabsun;Seong, Semun;Kim, Nacksung
    • BMB Reports
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    • v.52 no.7
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    • pp.469-474
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    • 2019
  • Kruppel-like factor 2 (KLF2) has been implicated in the regulation of cell proliferation, differentiation, and survival in a variety of cells. Recently, it has been reported that KLF2 regulates the p65-mediated transactivation of $NF-{\kappa}B$. Although the $NF-{\kappa}B$ pathway plays an important role in the differentiation of osteoclasts and osteoblasts, the role of KLF2 in these bone cells has not yet been fully elucidated. In this study, we demonstrated that KLF2 regulates osteoclast and osteoblast differentiation. The overexpression of KLF2 in osteoclast precursor cells inhibited osteoclast differentiation by downregulating c-Fos, NFATc1, and TRAP expression, while KLF2 overexpression in osteoblasts enhanced osteoblast differentiation and function by upregulating Runx2, ALP, and BSP expression. Conversely, the downregulation of KLF2 with KLF2-specific siRNA increased osteoclast differentiation and inhibited osteoblast differentiation. Moreover, the overexpression of interferon regulatory protein 2-binding protein 2 (IRF2BP2), a regulator of KLF2, suppressed osteoclast differentiation and enhanced osteoblast differentiation and function. These effects were reversed by downregulating KLF2. Collectively, our data provide new insights and evidence to suggest that the IRF2BP2/KLF2 axis mediates osteoclast and osteoblast differentiation, thereby affecting bone homeostasis.

Xanthone attenuates mast cell-mediated allergic inflammation

  • AYE, AYE;Jeon, Yong-Deok;Song, Young-Jae;Jin, Jong-Sik
    • Proceedings of the Plant Resources Society of Korea Conference
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    • 2019.04a
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    • pp.123-123
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    • 2019
  • Xanthone is a kind of polyphenolic compounds that contain a distinctive chemical structure with a tricyclic aromatic ring found in a few higher plant families e.g. gentian root. This compound had a variety of biological activity, for instance antioxidant, antibacterial, anti-inflammatory, and anticancer effects. However, the effect of xanthone on mast cell-mediated allergic inflammation and its associated mechanism have not been elucidated. Therefore, the aim of this study was to elucidate the anti-allergic inflammatory effects and the underlying molecular mechanism of xanthone in PMACI-stimulated human mast cells-1 (HMC-1). In this result, xanthone treatment decreased the production of histamine, pro-inflammatory cytokines such as tumor necrosis factor-a (TNF-${\alpha}$), IL-6, and IL-8 and expressions of TSLP in PMACI-stimulated HMC-cells. In addition, xanthone significantly suppressed the phosphorylation of MAPKs and the activation of NF-${\kappa}B$ signal pathway in activated mast cells. Furthermore, xanthone inhibited the activation of caspase-1, an IL-$1{\beta}$ converting enzyme, in PMACI-stimulated HMC-1 cells. These findings provide evidence that xanthone could be a potential therapeutic agent for allergy-related inflammatory disorders.

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Genome Profiling for Health Promoting and Disease Preventing Traits Unraveled Probiotic Potential of Bacillus clausii B106

  • Kapse, N.G.;Engineer, A.S.;Gowdaman, V.;Wagh, S.;Dhakephalkar, P.K.
    • Microbiology and Biotechnology Letters
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    • v.46 no.4
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    • pp.334-345
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    • 2018
  • Spore-forming Bacillus species are commercially available probiotic formulations for application in humans. They have health benefits and help prevent disease in hosts by combating entero-pathogens and ameliorating antibiotic-associated diarrhea. However, the molecular and cellular mechanisms of these benefits remain unclear. Here, we report the draft genome of a potential probiotic strain of Bacillus clausii B106. We mapped and compared the probiotic profile of B106 with other reference genomes. The draft genome analysis of B106 revealed the presence of ADI pathway genes, indicating its ability to tolerate acidic pH and bile salts. Genes encoding fibronectin binding proteins, enolase, as well as a gene cluster involved in the biosynthesis of exopolysaccharides underscored the potential of B106 to adhere to the intestinal epithelium and colonize the human gut. Genes encoding bacteriocins were also detected, indicating the antimicrobial ability of this isolate. The presence of genes encoding vitamins, including Riboflavin, Folate, and Biotin, also indicated the health-promoting ability of B106. Resistance of B106 to multiple antibiotics was evident from the presence of genes encoding resistance to chloramphenicol, ${\beta}$-lactams, Vancomycin, Tetracycline, fluoroquinolones, and aminoglycosides. The findings indicate the significance of B. clausii B106 administration during antibiotic treatment and its potential value as a probiotic strain to replenish the health-promoting and disease-preventing gut flora following antibiotic treatment.

Expression of Sodium-Iodide Symporter Depending on Mutational Status and Lymphocytic Thyroiditis in Papillary Thyroid Carcinoma

  • Song, Young Shin;Park, Young Joo
    • International journal of thyroidology
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    • v.11 no.2
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    • pp.152-159
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    • 2018
  • Background and Objectives: Sodium-iodine symporter (NIS) is a marker for the degree of differentiation in thyroid cancer. The genetic factors or microenvironment surrounding tumors can affect transcription of NIS. In this study, we investigated the NIS mRNA expression according to mutational status and coexistent lymphocytic thyroiditis in papillary thyroid cancer (PTC). Materials and Methods: The RNA expression levels of NIS in the samples from database of The Caner Genome Atlas (TCGA; n=494) and our institute (n=125) were analyzed. Results: The PTCs with the $BRAF^{V600E}$ mutation and the coexistence of $BRAF^{V600E}$ and TERT promoter mutations showed significantly lower expression of NIS (p<0.001, respectively), and those with BRAF-like molecular subtype also had reduced expression of NIS (p<0.001). NIS expression showed a positive correlation with thyroid differentiation score (r=0.593, p<0.001) and negative correlations with expressions of genes involved in ERK signaling (r=-0.164, p<0.001) and GLUT-1 gene (r=-0.204, p<0.001). The PTCs with lymphocytic thyroiditis showed significantly higher NIS expression (p=0.013), regardless of mutational status. Conclusion: The NIS expression was reduced by the $BRAF^{V600E}$ mutation and MAPK/ERK pathway activation, but restored by the presence of lymphocytic thyroiditis.

Noonan syndrome and RASopathies: Clinical features, diagnosis and management

  • Lee, Beom Hee;Yoo, Han-Wook
    • Journal of Genetic Medicine
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    • v.16 no.1
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    • pp.1-9
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    • 2019
  • Noonan syndrome (NS) and NS-related disorders (cardio-facio-cutaneous syndrome, Costello syndrome, NS with multiple lentigines, or LEOPARD [lentigines, ECG conduction abnormalities, ocular hypertelorism, pulmonic stenosis, abnormal genitalia, retardation of growth and sensory neural deafness] syndrome) are collectively named as RASopathies. Clinical presentations are similar, featured with typical facial features, short stature, intellectual disability, ectodermal abnormalities, congenital heart diseases, chest & skeletal deformity and delayed puberty. During past decades, molecular etiologies of RASopathies have been growingly discovered. The functional perturbations of the RAS-mitogen-activated protein kinase pathway are resulted from the mutation of more than 20 genes (PTPN11, SOS1, RAF1, SHOC2, BRAF, KRAS, NRAS, HRAS, MEK1, MEK2, CBL, SOS2, RIT, RRAS, RASA2, SPRY1, LZTR1, MAP3K8, MYST4, A2ML1, RRAS2). The PTPN11 (40-50%), SOS1 (10-20%), RAF1 (3-17%), and RIT1 (5-9%) mutations are common in NS patients. In this review, the constellation of overlapping clinical features of RASopathies will be described based on genotype as well as their differential diagnostic points and management.

Structural Study of Monomethyl Fumarate-Bound Human GAPDH

  • Park, Jun Bae;Park, Hayeong;Son, Jimin;Ha, Sang-Jun;Cho, Hyun-Soo
    • Molecules and Cells
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    • v.42 no.8
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    • pp.597-603
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    • 2019
  • Glyceraldehyde-3-phosphate dehydrogenase (GAPDH) is a core enzyme of the aerobic glycolytic pathway with versatile functions and is associated with cancer development. Recently, Kornberg et al. published the detailed correlation between GAPDH and di- or monomethyl fumarate (DMF or MMF), which are well-known GAPDH antagonists in the immune system. As an extension, herein, we report the crystal structure of MMF-bound human GAPDH at $2.29{\AA}$. The MMF molecule is covalently linked to the catalytic Cys152 of human GAPDH, and inhibits the catalytic activity of the residue and dramatically reduces the enzymatic activity of GAPDH. Structural comparisons between $NAD^+$-bound GAPDH and MMF-bound GAPDH revealed that the covalently linked MMF can block the binding of the $NAD^+$ cosubstrate due to steric hindrance of the nicotinamide portion of the $NAD^+$ molecule, illuminating the specific mechanism by which MMF inhibits GAPDH. Our data provide insights into GAPDH antagonist development for GAPDH-mediated disease treatment.