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ABSTRACT: Aim: Vitamin C insufficiency is considered one of the major risk factors for the development of liver disease. However, its specific effects and related mechanisms in vivo are largely unknown. The objective of this study was to investigate the in vivo protective role of vitamin C and its related mechanisms in liver injury with Gulo(-/-) mice that cannot synthesize vitamin C like a human due to the lack of L-gulonolactone-γ-oxidase (Gulo), an essential enzyme for vitamin C synthesis. Results: When liver injury was induced in Gulo(-/-) mice by injection of concanavalin A (Con A), there was greater extensive liver damage accompanied by an increased number of apoptotic hepatocytes in vitamin C-insufficient Gulo(-/-) mice. Additionally, the plasma and hepatic levels of pro-inflammatory cytokines, such as TNF-α and IFN-γ, were much higher in the vitamin C-insufficient Gulo(-/-) mice than in the control mice. Moreover, increased numbers of liver-infiltrating T cells in the vitamin C-insufficient Gulo(-/-) mice were related to the increased hepatic levels of IFN-inducible factor (IP-10). Although the vitamin C-insufficient Gulo(-/-) mice had higher amounts of interleukin-22 (IL-22), a hepato-protective cytokine, a defect in IL-22Rα expression and its down-stream STAT3 activation in hepatocytes were found. Innovation: We first demonstrate the novel in vivo action mechanisms of vitamin C on the prevention of disease development in the liver, through the regulation of excessive immune activation and maintenance of the IL-22Rα signaling pathways. Conclusion: These results suggest that severe liver damage induced by inflammation could be prevented by sufficient supplementation with vitamin C.
Antioxidants & Redox Signaling 03/2013; · 8.20 Impact Factor
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ABSTRACT: Alloferon is a novel immunomodulatory peptide originally isolated from infected insects. It has anti-viral and anti-tumor effects via the activation of NK cells. However, specific mechanisms leading to NK cell activation and anti-tumor responses yet to be clarified. In this study, we demonstrate that alloferon increases killing activity of NK cells to cancer cells via the up-regulation of the expression of NK-activating receptors, 2B4. In addition, the production of IFN-γ and TNF-α and granule exocytosis from NK cells against cancer cell were increased by alloferon. Lastly, the anti-tumor effect of alloferon was confirmed in vivo to demonstrate effective retardation of tumor growth in the human-to-mouse xenograft model. All taken together, these results suggest that alloferon has anti-tumor effects through up-regulation of NK-activating receptor 2B4 and the enhancement of granule exocytosis from NK cells.
Immunobiology 01/2013; · 3.20 Impact Factor
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ABSTRACT: Objectives The aim was to develop a long-term delivery system for Apo2 ligand/tumour necrosis factor-related apoptosis-inducing ligand (TRAIL) without chemical modification (such as pegylation). Methods A nanocomplex system between the positively charged TRAIL and the negatively charged chondroitin sulfate (CS) (CS/TRAIL) was designed and applied in poly(lactide-co-glycolide) (PLGA) microspheres (MSs). Key findings A nanocomplex of approximately 200 nm was easily formed in a weight ratio of 2 TRAIL to CS (TC2) at pH 5.0. The cytotoxicity of CS/TRAIL against HeLa cells was similar to that of native TRAIL. The complex also had higher loading efficiency (above 95%) in PLGA MSs prepared by the multi-emulsion method than that of native TRAIL. The release behaviour of TRAIL from the PLGA MSs was monitored. Although the release of TRAIL from native TRAIL-loaded PLGA MSs (TMS0) was almost complete after 3 days, TC2-loaded PLGA MSs (TMS2) showed sustained TRAIL release without an initial burst for 10 days. The released TRAIL from TMS2 led to cytotoxicity accompanied by massive apoptosis of cancer cells. TMS2 significantly inhibited tumour growth in an in-vivo xenograft model in mice, without any loss of body weight after treatment. Conclusions From the results, we concluded that TC-loaded PLGA MSs have the potential for long-term delivery of TRAIL without side effects.
The Journal of pharmacy and pharmacology. 01/2013; 65(1):11-21.
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ABSTRACT: Hair loss or alopecia has been portrayed as a modern malady which is aggravated by stressful conditions. Major cases of alopecia were found among individuals of 40s-50s, nowadays, even among the 20s-30s. This study characterized taurine's potential against alopecia caused by chemical stress agents based on the comparison with other commercially available anti-alopecia agents using Caenorhabditis elegans. The criteria used are their effects on the expression of stress markers and measurements of vital signs: lifespan comparison, progeny number, and mobility. C. elegans showed the typical stress symptoms under treatment with tunicamycin, endoplasmic reticulum stress agent. Hsp-70 protein expression increased, while worm's lifespan and per capita progeny number significantly decreased along with an unusually retarded movement. A positive response was shown when worms were treated with taurine along with astressin-B and finasteride. Between the treatments, finasteride showed better outcomes in terms of stress-reducing effects. Taurine helped worms recover more effectively from adverse influence of stress. In conclusion, there is strong evidence that taurine has a great potential as anti-alopecia effect especially against the one caused by the chemical stress. The present study implies that taurine might strongly work against hair loss when used in combination with other commercially available -anti-alopecia agents.
Advances in experimental medicine and biology 01/2013; 776:267-76. · 1.09 Impact Factor
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ABSTRACT: Vitamin C is an essential water-soluble nutrient which primarily exerts its effect on host defense mechanisms and immune homeostasis, but the mechanism related to immune-potentiation is poorly understood. Since dendritic cells (DCs) are known as a potent antigen presenting cell (APC) that could enhance the antigen specific immune responses, we investigate the effects of vitamin C on activation of DCs and its related mechanism by using dendritic cell lines, DC-1. First, we found that there was no damage on DC-1 by 2.5 mM of vitamin C. In the presence of vitamin C, the expression of CD80, CD86, and MHC molecules was increased, but it was decreased by the pre-treatment of SB203580, p38 MAPK-specific inhibitor. We confirmed the phosphorylation of p38 MAPK was increased by the treatment of vitamin C. Taken together, these results suggest that vitamin C could enhance the activity of dendritic cells via the up-regulation of the expression of CD80, CD86, and MHC molecules and the activation of p38 MAPK is related to this process.
Immune Network 12/2012; 12(6):277-83.
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Yejin Kim,
Seung Koo Lee,
Seyeon Bae, Hyemin Kim,
Yunseong Park,
Nag Kyun Chu,
Stephanie G Kim,
Hang-Rae Kim,
Young-Il Hwang,
Jae Seung Kang,
Wang Jae Lee
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ABSTRACT: UVB irradiation can induce biological changes in the skin, modulate immune responses and activate inflammatory reactions leading to skin damage. Alloferon, which is isolated from the blood of an experimentally infected insect, the blow fly Calliphora vicina, is known for its anti-viral and anti-tumor activities in mice model. However, the effect of alloferon against UVB irradiation and its specific mechanism are still unknown. In this study, we investigated the effect of alloferon on UVB-induced cutaneous inflammation in a human keratinocyte cell line, HaCaT. RPA and ELISA data showed that alloferon decreased the production of UVB-induced pro-inflammatory cytokines, such as IL-1α, IL-1β, IL-6 and IL-18, both on the mRNA and protein level. Western blot analysis was done to determine if alloferon regulates the MAPK signaling pathway since the MAPK signaling pathway is activated by numerous inflammatory mediators and environmental stresses including UVB irradiation. Alloferon inhibited the activation of p38 mitogen-activated protein kinase (MAPK) induced by UVB irradiation. Furthermore, the topical application of alloferon on the UVB exposed skin of hairless mice showed that alloferon treatment significantly inhibited an increase in epithelial thickness in chronic UVB-irradiated mouse skin. These findings suggest that alloferon has significant anti-inflammatory effects not only on UVB-induced inflammation in the human keratinocyte cell line, HaCaT, but also on mouse skin.
Immunology letters 09/2012; · 2.91 Impact Factor
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ABSTRACT: Pluripotent stem cells (PSCs) have unique transcriptional regulatory networks and epigenetic states that are involved in maintaining pluripotency. In this study, the transcriptional levels and histone modifications of lineage-specific genes were compared for human ESC (hESC) lines and human induced pluripotent stem cell (hiPSC) lines. Expression of the pluripotency marker genes, OCT4, SOX2, and NANOG, was largely modulated in hESCs by permissive histone marks, whereas hiPSC lines showed differential histone modifications in the gene promoters. The permissive histone mark, H3K4me3, predominantly contributed to expression of the oncogene, c-MYC, in hESC lines, whereas histone modifications of the c-MYC promoter varied between hiPSC lines. Interestingly, the transcriptional levels and epigenetic marks in the promoters of the developmental genes such as SOX17, T, and NESTIN varied among individual hiPSC lines. In particular, a partially-reprogrammed hiPSC cell line showed lower frequencies of permissive and repressive histone marks in the promoters of most genes, indicating incomplete epigenetic reprogramming. Our data indicate that respective hPSCs have distinct epigenetic signatures of lineage-specific genes, thereby leading to in their propensities to follow a particular differentiation pathway.
Biochemical and Biophysical Research Communications 07/2012; 424(2):331-7. · 2.48 Impact Factor
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ABSTRACT: α-Enolase (ENO1) is a multifunctional glycolytic enzyme expressed abundantly in the cytosol. It has been implicated in autoimmune and inflammatory diseases. Serum Abs against ENO1 were reported in rheumatoid arthritis (RA). Cell-surface expression of ENO1 has been found to be increased rapidly in response to inflammatory stimuli, but its expression and function has not been reported in RA. In this study, we show that cell-surface expression of ENO1 is increased on monocytes and macrophages isolated from RA patients but not on those from osteoarthritis patients, and Ab against ENO1 can stimulate these cells to produce higher amounts of proinflammatory mediators, such as TNF-α, IL-1 α/β, IFN-γ, and PGE(2) via p38 MAPK and NF-κB pathway. The frequency of ENO1-positive cells in synovial fluid mononuclear cells was higher than PBMCs. ENO1-positive cells were also found in the inflamed synovium from RA patients and arthritic ankle tissues of mice with collagen-induced arthritis. Taken together, these findings suggest that Abs against ENO1 present in RA sera may stimulate monocytes and macrophages expressing cell-surface ENO1 and contribute to production of proinflammatory mediators during the effector phase of synovial inflammation.
The Journal of Immunology 05/2012; 189(1):365-72. · 5.79 Impact Factor
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ABSTRACT: Two types of pullulan with different succinylations were synthesized for an evaluation as additives for long-term protein
delivery in poly(lactide-co-glycolide) microspheres (PLGA MS). Negatively charged succinylated pullulan (SP) forms an ionic complex with cationic protein
(lysozyme; Lys) via an ionic interaction. SP2 (2 succinyl groups per 10 glucose units in pullulan) constructed a better nano-size complex with
lysozyme (Lys) in distilled water (DW) than SP1 (1 succinyl group per 10 glucose units in pullulan). To assess the long-term
delivery capability, PLGA MS complexes with different Lys:SP2 ratios (1:1 (LMS 1), 1:2 (LMS 2) and 1:3 (LMS 3), as wt% of
Lys:SP2) were prepared with water in oil in water (W/O/W). The complex loaded PLGA MS showed a higher loading efficiency and
a lower insoluble Lys content than PLGA without SP (LMS 0), indicating that SP helps stabilize Lys at the organic/water (O/W)
interface. In evaluating the release pattern of Lys, LMS 1, 2, and 3 all demonstrated a low initial burst and complete release
behavior (reaching almost 100% after 27 days), whereas the total amount of Lys released from LMS 0 did not reach 80% during
the same time period. During a 14-day release test, the stability of Lys was confirmed by RP-HPLC. In the case of LMS 0, an
unexpected peak (retention time 9.2 min) was created, which was not observed in LMS 1, 2, and 3. This suggests that SP suppresses
the denaturation of Lys in PLGA MS. These results show that SP, as an additive in PLGA MS, has potential for the long-term
delivery of therapeutic proteins.
Keywordssuccinylated pullulan-protein delivery-ionic complex-PLGA microspheres
Macromolecular Research 04/2012; 18(8):812-819. · 1.15 Impact Factor
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ABSTRACT: Vitamin C is an essential nutrient for maintaining human life. Vitamin C insufficiency in the plasma is closely related with the development of scurvy. However, in vivo kinetics of vitamin C regarding its storage and consumption is still largely unknown.
We used Gulo(-/-) mice, which cannot synthesize vitamin C like human. Vitamin C level in plasma and organs from Gulo(-/-) mice was examined, and it compared with the level of wild-type mice during 5 weeks.
The significant weight loss of Gulo(-/-) mice was shown at 3 weeks after vitamin C withdrawal. However, there was no differences between wild-type and vitamin C-supplemented Gulo(-/-) mice (3.3 g/L in drinking water). The concentration of vitamin C in plasma and organs was significantly decreased at 1 week after vitamin C withdrawal. Vitamin C is preferentially deposited in adrenal gland, lymph node, lung, and brain. There were no significant changes in the numbers and CD4/CD8 ratio of splenocytes in Gulo(-/-) mice with vitamin C withdrawal for 4 weeks. And the architecture of spleen in Gulo(-/-) mice was disrupted at 5 weeks after vitamin C withdrawal.
The vitamin C level of Gulo(-/-) mice was considerably decreased from 1 week after vitamin C withdrawal. Vitamin C is preferentially stored in some organs such as brain, adrenal gland and lung.
Immune Network 02/2012; 12(1):18-26.
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Xi-Biao He,
Sang-Hoon Yi,
Yong-Hee Rhee, Hyemin Kim,
Yong-Mahn Han,
Suk-Ho Lee,
Hyunsu Lee,
Chang-Hwan Park,
Yong-Sung Lee,
Eric Richardson,
Byung-Woo Kim,
Sang-Hun Lee
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ABSTRACT: Understanding midbrain dopamine (DA) neuron differentiation is of importance, because of physiological and clinical implications of this neuronal subtype. We show that prolonged membrane depolarization induced by KCl treatment promotes DA neuron differentiation from neural precursor cells (NPCs) derived from embryonic ventral midbrain (VM). Interestingly, the depolarization-induced increase of DA neuron yields was not abolished by L-type calcium channel blockers, along with no depolarization-mediated change of intracellular calcium level in the VM-derived NPCs (VM-NPCs), suggesting that the depolarization effect is due to a calcium-independent mechanism. Experiments with labeled DA neuron progenitors indicate that membrane depolarization acts at the differentiation fate determination stage and promotes the expression of DA phenotype genes (tyrosine hydroxylase [TH] and DA transporter [DAT]). Recruitment of Nurr1, a transcription factor crucial for midbrain DA neuron development, to the promoter of TH gene was enhanced by depolarization, along with increases of histone 3 acetylation (H3Ac) and trimethylation of histone3 on lysine 4 (H3K4m3), and decreases of H3K9m3 and H3K27m3 in the consensus Nurr1 binding regions of TH promoter. Depolarization stimuli on differentiating VM-NPCs also induced dissociation of methyl CpG binding protein 2 and related repressor complex molecules (repressor element-1 silencing transcription factor corepressor and histone deacetylase 1) from the CpG sites of TH and DAT promoters. Based on these findings, we suggest that membrane depolarization promotes DA neuron differentiation by opening chromatin structures surrounding DA phenotype genes and inhibiting the binding of corepressors, thus allowing transcriptional activators such as Nurr1 to access DA neuron differentiation gene promoter regions.
Stem Cells 09/2011; 29(11):1861-73. · 7.78 Impact Factor
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ABSTRACT: It is already known that high concentration of vitamin C induces apoptosis on tumor cells. However, there is no report regarding the function of vitamin C on the modulation of immune susceptibility of cancer. Therefore, we investigated whether vitamin C can modulate immune susceptibility of tumor cells, especially on the induction of Fas-mediated apoptosis.
First, the optimal concentration of vitamin C, which cannot induce damages on tumor cells for 36 hrs. We found that 2 mM of vitamin C did not show harmful effect. In addition, the optimal concentration of agonistic anti-Fas Abs for 18 hrs was examined.
As a result, 400 ng/ml of agonistic anti-Fas Abs did not induce apoptosis on tumor cells. Next, we tried to find the effect of 2 mM of vitamin C on the modulation of the susceptibility to agonistic anti-Fas Abs. When tumor cells were cultured with 400 ng/ml of agonistic anti-Fas Abs for 18 hrs, after pre-treatment with 2 mM of vitamin C for 24 hrs, viability of cells was decreased. Interestingly, we found that the expression of Fas (CD95) and MHC class I was increased by the treatment of vitamin C.
Taken together, vitamin C increases the susceptibility of tumor cells to anti-Fas Abs and the expression of Fas (CD95) and MHC class I on tumor cells.
Immune Network 08/2011; 11(4):210-5.
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ABSTRACT: Hepatocytes that have differentiated from human embryonic stem cells (hESCs) have great potential for the treatment of liver disease as well as for drug testing. Moreover, in vitro hepatogenesis is a powerful model system for studying the molecular mechanisms underlying liver development. DNA methylation is an important epigenetic mechanism that influences differential gene expression during embryonic development. We profiled gene expression and DNA methylation of three cell states of in vitro hepatogenesis-hESC, definitive endoderm and hepatocyte-using microarray analysis. Among 525 state-specific expressed genes, 67 showed significant negative correlation between gene expression and DNA methylation. State-specific expression and methylation of target genes were validated by quantitative reverse transcription-polymerase chain reaction and pyrosequencing, respectively. To elucidate genome-scale methylation changes beyond the promoter, we also performed high-throughput sequencing of methylated DNA captured by the MBD2 protein. We found dynamic methylation changes in intergenic regions of the human genome during differentiation. This study provides valuable methylation markers for the lineage commitment of in vitro hepatogenesis and should help elucidate the molecular mechanisms underlying stem cell differentiation and liver development.
Human Molecular Genetics 07/2011; 20(14):2722-33. · 7.64 Impact Factor
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ABSTRACT: CM1 (centrocyte/-blast marker 1) was defined by a mAb against concanavalin A (Con A) activated PBMC. It is expressed in germinal center of human tonsil and on the surface of activated PBMC as well as cancer cells. Recently, increased productions of pro-inflammatory mediators were detected from activated PBMC by CM1 ligation.
However, there is a limitation to explain the exact role of CM1 on inflammation and its related mechanisms, since the identity of CM1 is still not clarified. In our previous study, we have already confirmed that soluble form of CM1 was produced by Raji. Therefore, we performed Q-TOF analysis after immunoprecipitation of concentrated Raji culture supernatant using anti-CM1 mAbs.
As a result, we found that CM1 is identical to enolase-1(ENO1), a glycolytic enzyme, and we confirmed that results by silencing ENO1 using siRNA. It was also confirmed through competition assay between anti-CM1 and anti-ENO1 mAbs. Finally, we investigated the possible role of CM1 in inflammatory response and cancer. The ligation of CM1 on Raji cells with anti-CM1 mAbs induces the extensive production of prostaglandin E(2)(PGE(2)). In addition, the increased activity of matrix metalloproteinase (MMP)-2/9 was shown in NCI-N87, stomach cancer cell line by CM1 stimulation.
CM1 is identical to ENO1 and it might be an important role in the regulation of inflammatory responses.
Immune Network 06/2011; 11(3):175-81.
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Ha Na Kim, Hyemin Kim,
Joo Myung Kong,
Seyeon Bae,
Yong Sung Kim,
Naeun Lee,
Byung Joo Cho,
Seung Koo Lee,
Hang-Rae Kim,
Young-il Hwang,
Jae Seung Kang,
Wang Jae Lee
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ABSTRACT: It is known that vitamin C induces apoptosis in several kinds of tumor cells, but its effect on the regulation of the angiogenic process of tumors is not completely studied. Vascular endothelial growth factor (VEGF) is the most well-known angiogenic factor, and it has a potent function as a stimulator of endothelial survival, migration, as well as vascular permeability. Therefore, we have investigated whether vitamin C can regulate the angiogenic process through the modulation of VEGF production from B16F10 melanoma cells. VEGF mRNA expression and VEGF production at protein levels were suppressed by vitamin C. In addition, we found that vitamin C suppressed the expression of cyclooxygenase (COX)-2 and that decreased VEGF production by vitamin C was also restored by the administration of prostaglandin E2 which is a product of COX-2. These results suggest that vitamin C suppresses VEGF expression via the regulation of COX-2 expression. Mitogen-activated protein kinases are generally known as key mediators in the signaling pathway for VEGF production. In the presence of vitamin C, the activation of p42/44 MAPK was completely inhibited. Taken together, our data suggest that vitamin C can down-regulate VEGF production via the modulation of COX-2 expression and that p42/44 MAPK acts as an important signaling mediator in this process.
Journal of Cellular Biochemistry 03/2011; 112(3):894-901. · 2.87 Impact Factor
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ABSTRACT: Hyperoxic ventilation induces detrimental effects on the respiratory system, and ambient oxygen may be harmful unless compensated by physiological anti-oxidants, such as vitamin C. Here we investigate the changes in electrolyte transport of airway epithelium in mice exposed to normobaric hyperoxia and in gulonolacton oxidase knock-out (gulo[-/-]) mice without vitamin C (Vit-C) supplementation. Short-circuit current (I(sc)) of tracheal epithelium was measured using Ussing chamber technique. After confirming amiloride-sensitive Na(+) absorption (ΔI(sc,amil)), cAMP-dependent Cl(-) secretion (ΔI(sc,forsk)) was induced by forskolin. To evaluate Ca(2+)-dependent Cl(-) secretion, ATP was applied to the luminal side (ΔI(sc,ATP)). In mice exposed to 98% PO(2) for 36 hr, ΔI(sc,forsk) decreased, ΔI(sc,amil) and ΔI(sc,ATP) was not affected. In gulo(-/-) mice, both ΔI(sc,forsk) and ΔI(sc,ATP) decreased from three weeks after Vit-C deprivation, while both were unchanged with Vit-C supplementation. At the fourth week, tissue resistance and all electrolyte transport activities were decreased. An immunofluorescence study showed that the expression of cystic fibrosis conductance regulator (CFTR) was decreased in gulo(-/-) mice, whereas the expression of KCNQ1 K(+) channel was preserved. Taken together, the CFTR-mediated Cl(-) secretion of airway epithelium is susceptible to oxidative stress, which suggests that supplementation of the antioxidant might be beneficial for the maintenance of airway surface liquid.
Journal of Korean medical science 03/2011; 26(3):317-24. · 0.84 Impact Factor
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ABSTRACT: Aim: Human embryonic stem cells (hESCs) are able to self-renew and differentiate into a variety of cell types. Although miRNAs have emerged as key regulators in the cellular process, a few studies have been reported about behaviors of miRNAs during differentiation of hESCs into a specialized cell type. Here, we demonstrate that different kinds of miRNAs may function in a lineage-specific manner during the differentiation of human embryonic stem cells (hESCs). Methods: hESCs were induced to definitive endoderm (DE) cells and further differentiated to hepatocytes. The expression levels of miRNAs were examined in hESCs, DE cells, and hepatocytes by miRNA array using 799 human miRNA probes. Results: Among 387 miRNAs significantly detected, 13 and 56 miRNAs were downregulated and upregulated during transition of hESCs to DE cells, respectively, while 30 and 92 miRNAs were downregulated and upregulated during differentiation of DE cells to hepatocytes, respectively. In particular, 5, 4, and 86 miRNAs were enriched in hESCs, DE cells, and hepatocytes, respectively. Quantitative RT-PCR represented that miR-512-3p, miR-512-5p and miR-520c-3p were enriched in hESCs, miR-9*, miR-205 and miR-375 in hESC-derived DE cells, and miR-10a, miR-122 and miR-21 in hESC-derived hepatocytes. Expression patterns of lineage-specific miRNAs in the liver tissue were similar to those of hESC-derived hepatocytes. Conclusion: The results indicate that different kinds of miRNAs may function in a lineage-specific manner during differentiation of hESCs into a specialized cell type.
Hepatology Research 02/2011; 41(2):170-83. · 2.20 Impact Factor
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Naeun Lee,
Seyeon Bae, Hyemin Kim,
Joo Myung Kong,
Hang-Rae Kim,
Byung Joo Cho,
Sung Joon Kim,
Seung Hyeok Seok,
Young-Il Hwang,
Sooin Kim,
Jae Seung Kang,
Wang Jae Lee
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ABSTRACT: Alloferon, an immunomodulatory peptide, has antiviral capability against herpesvirus. In this research, we aimed to investigate the effect of alloferon on the regulation of the life cycle of Kaposi's sarcoma-associated herpesvirus (KSHV), and its mechanisms. We also assessed the antiviral activity of alloferon on natural killer (NK) cells as an early antiviral immune responder.
We first examined the change in cell proliferation and the expression of the viral genes in a KSHV-infected cell line, body-cavity-based B lymphoma (BCBL)-1, under the lytic cycle by 12-O-tetradecanoyl-phorbol-13-acetate (TPA) treatment. To elucidate the antiviral mechanism of alloferon, we tested calcium influx and the activation of the extracellular signal-regulated kinase (ERK) pathway. Furthermore, we evaluated the cytotoxicity of NK cells against BCBL-1 by alloferon.
Alloferon effectively recovered the suppressed proliferation of BCBL-1 by TPA, which was achieved by the down-regulation of lytic-cycle-related viral genes, RTA, K8 and vIRF2. To clarify the signal transduction pathways related to the regulation of the viral genes by alloferon, we confirmed that the calcium influx into BCBL-1 was apparently inhibited by alloferon, which preceded the suppression of the phosphorylation of ERK and the activation of AP-1 by TPA. Moreover, when NK cells were exposed to alloferon, their cytolytic activity was improved, and this was mediated by the enhancement of perforin/granzyme secretion.
The results of this study suggest that alloferon can be used as an effective antiviral agent for the regulation of the KSHV life cycle by the down-regulation of AP-1 activity and for the the enhancement of antiviral immunity by up-regulation of NK cell cytotoxicity.
Antiviral therapy 01/2011; 16(1):17-26. · 3.16 Impact Factor
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ABSTRACT: Epigenetic modification of the genome through DNA methylation is the key to maintaining the differentiated state of human embryonic stem cells (hESCs), and it must be reset during differentiation by retinoic acid (RA) treatment. A genome-wide methylation/gene expression assay was performed in order to identify epigenetic modifications of RA-treated hESCs. Between undifferentiated and RA-treated hESCs, 166 differentially methylated CpG sites and 2,013 differentially expressed genes were discovered. Combined analysis of methylation and expression data revealed that 19 genes (STAP2, VAMP8, C10orf26, WFIKKN1, ELF3, C1QTNF6, C10orf10, MRGPRF, ARSE, LSAMP, CENTD3, LDB2, POU5F1, GSPT2, THY1, ZNF574, MSX1, SCMH1, and RARB) were highly correlated with each other. The results provided in this study will facilitate future investigations into the interplay between DNA methylation and gene expression through further functional and biological studies.
BMB reports 12/2010; 43(12):830-5. · 1.72 Impact Factor
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ABSTRACT: Embryonic stem cells (ESCs) maintain unique epigenetic states to maintain their pluripotency. Differentiation of ESCs into specialized cell types requires changes in these epigenetic states. However, the dynamics of epigenetic marks found in hESCs during differentiation are poorly understood. Here, we report the variation in the dynamics of epigenetic modifications associated with the expression of lineage-specific genes during differentiation of hESCs to hepatocytes in vitro. The promoter regions of pluripotency marker genes characterized by permissive histone marks such as trimethylation of H3 at lysine 4 (H3K4me3) and acetylation of H3 at lysine 9 (H3K9ac) in hESCs were instead enriched with repressive histone marks such as dimethylation of H3 at lysine 9 (H3K9me2), trimethylation of H3 at lysine 9 (H3K9me3) and trimethylation of H3 at lysine 27 (H3K27me3) during differentiation to hepatocytes. Interestingly, expression of definitive endoderm marker genes containing bivalent and non-bivalent domains may be modulated by a marked reduction in H3K27me3 and a significant enhancement of permissive marks such as H3K4me3 and H3K9ac during hESC differentiation. Expression of hepatocyte marker genes regulated by histone modifications was similar to that of pluripotency marker genes. Our findings provide insight into the epigenetic mechanisms regulating expression of developmental genes. Of particular interest, they may be differentially regulated either in a bivalent or non-bivalent domain manner during hESC differentiation.
Human Molecular Genetics 11/2010; 20(3):401-12. · 7.64 Impact Factor
