• Journal of Life Science
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• v.30 no.4
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• pp.394-401
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• 2020

As embryonic stem cells become pluripotent, they may cause tumor development when injected into a host. Therefore, researchers are focusing heavily on the therapeutic potential of tissue-specific stem cells (adult stem cells) without resultant tumor formation. Adult stem cells can proliferate for a limited number of generations and are restricted to certain cell types (multipotent). Mature tissue cell types in mammals cannot be intrinsically dedifferentiated or transdifferentiated to adult stem cells. Hence, the technology of induced pluripotent stem cells (iPSCs) for reprogramming adult somatic cells was introduced in 2006, ushering in a new era in adult stem cell research. Although iPSCs have been widely used in the field, the approach has several limitations: instability of the reprogramming process, risk of incomplete reprogramming, and exposure to transgenes integrated into the cell genome. Two years before the introduction of the iPSC technique, the synthetic small molecule 2,6-disubstituted purine, called reversine, was introduced. Reversine can induce the dedifferentiation of committed cells into multipotent progenitor-type cells by reprogramming and converting adult cells to other cell types under appropriate stimuli. Thus, it can be used as a chemically induced multipotent cell agent to overcome the limitations of iPSCs. Also, as an alternative therapeutic approach for treating obesity, it can be used to generate beige cells by browning white adipocytes. While reversine has the potential to act as an anti-cancer agent, this review focuses on its role in differentiation, dedifferentiation, and transdifferentiation in somatic cells.

• Journal of the Korean Orthopaedic Association
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• v.54 no.2
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• pp.164-171
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• 2019

Purpose: A dedifferentiated chondrosarcoma is a rare lethal tumor characterized by a low grade chondrosarcoma juxtaposed with a high grade dedifferentiated sarcoma, such as osteosarcoma, fibrosarcoma. The aim of our study was to document the clinical manifestation and oncologic outcomes of a dedifferentiated chondrosarcoma. Materials and Methods: This study identified 11 patients who were diagnosed and treated for dedifferentiated chondrosarcoma between January 2007 and December 2016. The identified cohort was then reviewed regarding age, sex, symptom onset, tumor location, magnetic resonance imagings (MRIs), surgical margin, and pathologic diagnosis. The time to local recurrence and/or metastasis, follow-up duration, and the patients' final status were analyzed. Results: The patients were comprised of 7 males and 4 females with a mean age of 54 years (range, 33-80 years). The location of the tumor was in the femur in 6 cases, pelvis in 4 cases, and metatarsal in 1 case. The average tumor diameter was 12.7 cm (range, 6.0-26.1 cm). At the time of diagnosis, 2 patients showed pathologic fracture; 1 patient was Enecking stage IIA, 9 patients were stage IIB, and 1 patient was stage III. Eight patients were classified as a primary dedifferentiated chondrosarcoma and 3 patients were secondary. One of the primary lesions was misinterpreted initially as a low grade chondroid lesion by MRI and underwent curettage. Local recurrence occurred in 8 cases and distant metastasis occurred in 10 cases with a mean duration of 8 months (range, 2-23 months) and 7 months (range, 1-32 months), respectively. The three-year overall survival of patients with dedifferentiated chondrosarcoma was 18%, and 10 patients died due to disease progression. Conclusion: Dedifferentiated chondrosarcoma developed lung metastases in the early period of the clinical courses and the prognosis was dismal.

• The Journal of the Korean bone and joint tumor society
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• v.5 no.1
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• pp.70-75
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• 1999

We present a case of parosteal osteosarcoma of the femur with secondary dedifferentiation. This 57-year-old woman was radiologically diagnosed as a parosteal osteosarcoma in 1987. In 1992, excisional biopsy revealed a classical parosteal osteosarcoma with diploidy DNA pattern. In 1998, she revisited due to a recurrent tumor with pathologic fracture. The resected specimen showed a classic parosteal osteosarcoma with area of dedifferentiation, showing high-grade spindle cell sarcoma. This dedifferentiated area revealed aneuploidy cell population on DNA flow cytometry. This case reminds us that not all parosteal osteosarcomas are low-grade lesions. Some low-grade lesions may dedifferentiate to become high-grade tumors after inadequate excision.

• Korean Chemical Engineering Research
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• v.51 no.6
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• pp.727-732
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• 2013

In this report, we present an inverse opal scaffold that can enhance the chondrogenic differentiation of human adipose-derived stem cells (hADSCs) without drug, gene, or cytokine supplement. Inverse opal scaffolds based on poly(D,L-lactide-co-glycolide) were formed with uniform $200{\mu}m$ pores. Due to uniform pore sizes and well-controlled interconnectivity of inverse opal scaffold, hADSCs were allowed to distribute homogeneously throughout the scaffolds. As a result, high cell density culture with scaffold was possible. Since the hADSCs cultured in inverse opal scaffolds were subjected to limited supplies of oxygen and nutrients, these cells were naturally preconditioned to a hypoxic environment that stimulated the up-regulation of hypoxia-inducible factor-$1{\alpha}$ (HIF-$1{\alpha}$). As a result, apoptotic activity of hADSCs until 3 weeks after initial cell seeding was significantly reduced and chondrogenic differentiation related molecular signal cascades were up regulated (transforming growth factor-beta, phosphorylated AKT, and phosphorylated p38 expression). In contrast, hADSCs cultured with small and non-uniform porous scaffolds showed significantly increased apoptotic activity with decreased chondrogenic differentiation. Taken together, inverse opal scaffold could potentially be used as an effective tool for improving chondrogenesis using stem cells.

• Journal of Life Science
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• v.28 no.12
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• pp.1469-1476
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• 2018

Occurrence of the Warburg effect in solid tumors causes resistance to cancer chemotherapy, and targeting energy metabolisms such as aerobic glycolysis is a potential strategy for alternative treatment. Dichloroacetate (DCA), an inhibitor of pyruvate dehydrogenase kinase (PDK), shifts glucose metabolism from aerobic glycolysis to oxidative phosphorylation (OxPhos) in many cancers. In this study, we investigated the anticancer effect of DCA on a human anaplastic thyroid cancer (ATC) cell line, 8505C. We found that DCA selectively inhibits cell proliferation of the 8505C line but not of a normal thyroid line. In 8505C, the cell cycle was arrested at the G1/S phase with DCA treatment as a result of decreased antiapoptotic proteins such as $HIF1{\alpha}$, PDK1, and Bcl-2 and increased proapoptotic proteins such as Bax and p21. DCA treatment enhanced the production of reactive oxygen species which consequently induced cell cycle arrest and apoptosis. Interestingly, DCA treatment not only reduced lactate production but also increased the expression of sodium-iodine symporter, indicating that it restores the OxPhos of glucose metabolism and the iodine metabolism of the ATC. Taken together, our findings suggest that PDK inhibitors such as DCA could be useful anticancer drugs for the treatment of ATC and may also be helpful in combination with chemotherapy and radiotherapy.

• The Microorganisms and Industry
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• v.14 no.3
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• pp.12-14
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• 1988

빛에 의한 생물체의 분화는 작용파장별로 분류 할 때 고등식물에서 흔히 나타나는 붉은 빛에 의한 분화와 곰팡이류에서 볼 수 있는 푸른빛에 의한 것 두 종류가 있다. 곰팡이는 Chlorophyll이나 Phytochrome이 없어 붉은ㅅ개 파장을 흡수하는 phytochrome에 의한 분화는 없으나 푸른색은 곰팡이의 생활사에 중요한 요인이 된다. 예를 들면 Phycomyces와 Trichoderma의 photophorogenesis, Cyathus와 Coprinus의 fruiting body형성, Poycomyces와 Neurospora의 photocarotenogenesis, Phycomyces와 Pilobolus의 phototropism등 곰팡이의 metabolism과 development가 푸른 빛에 의하여 영향을 받는다. 한편 곰팡이의 포자및 포자생성기관은 녹색, 갈색, 흑색 등 phenoloxidase의 산물인 melanin 색소를 가지는 경우가 많으며 그 예로는 Podospora, Schizophyllum, Aspergillus 등과 같이 reproduction 할 때 phenoloxidase가 직접적 혹은 간접적으로 연관되어 있다. 버섯형성균류의 하나인 Coprinus congregatus는 버섯형성과정에서 빛을 필요로 하며 이때 phenoloxidase가 어떠한 역할을 하는지 실험하였다.

• Electronics and Telecommunications Trends
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• v.14 no.4 s.58
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• pp.42-53
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• 1999

점차 광대역 서비스에 대한 이용자의 수요가 발생함에 따라 영국의 OFTEL은 가입자 회선 세분화를 검토중에 있다. 본 고에서는 영국의 직접접속(direct connection)과 관련된 기존의 입장과 광대역 서비스 제공을 위한 가입자 회선 제공 대안, 제공 대가 등과 관련된 현재의 검토사항에 대해 살펴보고, 국내의 가입자 회선 세분화 제공 방안을 검토하고 있다.

• Journal of dental hygiene science
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• v.15 no.4
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• pp.488-494
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• 2015

A recent report showed that nuclear factor of activated T cell (NFATc) 1 is a member of the NFAT family and is strictly implicated osteoblast differentiation and bone formation. Furthermore, the precise expression and function of NFATc1 in periodontal tissue remains unclear. Therefore, the purpose of this study was to investigate the function of NFATc1 in osteoblastic differentiation, and the underlying mechanism regulating periodontal regeneration in human periodontal ligament cells (hPDLCs). NFATc1 messenger RNA (mRNA) and protein levels were accessed by reverse transcription-polymerase chain reaction (RT-PCR) and western blot assay, respectively. Cell proliferation determined using MTT assay. Differentiation was evaluated by alkaline phosphatase activity and formation of calcium nodule with alizarin red S staining. The mRNA expression of osteoblastic differentiation related genes were examined by RT-PCR. Marked upregulation of NFATc1 mRNA and protein was observed in cells grown in osteogenic medium (OS). NFATc1 transactivation was detected in hPDLCs that had been incubated in OS for 14 days. Treatment with $10{\mu}M$ cyclosporine A (CsA), a known calcineurin inhibitor, reduced the proliferation of hPDLCs, while $5{\mu}M$ CsA had no effect. Inhibition of the calcineurin/NFATc1 pathway by CsA, attenuated OS-induced osteoblastic differentiation in hPDLCs. In summary, this study demonstrates for the first time that NFATc1 plays a key role in osteoblastic differentiation of hPDLCs and activation of NFATc1 could provide a novel mechanism for periodontal bone regeneration.

• Journal of dental hygiene science
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• v.13 no.3
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• pp.296-303
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• 2013

Lysyl oxidase (LOX), extracellular matrix enzyme, is catalyzing lysine-derived crosslinks in collagen and elastin. Recently, several LOX-like proteins (LOXL, LOXL2, LOXL3 and LOXL4) have been identified in human but their specific functions are still largely unknown. The purpose of this study was to evaluate the function of the LOX family genes during odontoblastic differentiation of human dental pulp (HDP) cells induced with odontogenic supplement (OS). The messenger RNA (mRNA) expression of LOX family genes and differentiation markers was assessed by reverse transcriptase polymerase chain reaction analysis (RT-PCR). The formation of mineralization nodules was evaluated by alrizarin red S staining. Amine oxidase activity of HDP cells was measured by peroxidase-coupled fluormetric assay. The expressions of differentiation markers, such as alkaline phosphatase (ALP), osteopontin (OPN), osteocalcin (OCN), dentin matrix protein1 (DMP1), dentin sialophosphoprotein (DSPP) in HDP cells were increased after treatment with OS media. The LOX and LOXL mRNA expression were gradually increased in OS media, whereas LOX enzyme activities were markedly detected on day 7. The mRNA expression and LOX enzyme activity of collagen type I was very similar to the pattern of LOX gene. In this study, the expression of LOX and its isoforms, and activity of LOX were highly regulated during odontoblastic differentiation. Thus, these results suggest that LOX plays a key role in odontoblastic differentiation of HDP cells.

• Journal of Life Science
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• v.16 no.7 s.80
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• pp.1207-1213
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• 2006

Tumor necrosis $factor-{\alpha}\;(TNF-{\alpha})$ has been implicated in skeletal diseases by promoting bone loss in inflammatory bone diseases. In the present study, we examined the effects of $TNF-{\alpha}$ on osteoblastic differentiation of human bone marrow-derived mesenchymal stem cells (hBMSCs). $TNF-{\alpha}$ dose-dependently promoted matrix mineralization of hBMSCs with a maximal stimulation at 2ng/ml. $TNF-{\alpha}$ increased expression of alkaline phosphatase, which plays a crucial role for the matrix deposition. The $TNF-{\alpha}-stimulated$ osteoblastic differentiation was not affected by $NF_kB$ inhibitors, BAY and SN50. However, a JNK-specific inhibitor, SP600125 completely abolished the $TNF-{\alpha}-stimulated$ matrix mineralization and expression of alkaline phosphatase. These results suggest that $TNF-{\alpha}$ enhances osteoblastic differentiation of hBMSCs through JNK-dependent pathway.