• BMB Reports
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• v.38 no.1
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• pp.1-8
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• 2005

Transforming growth factor-$\beta$ is a pleiotropic growth factor that has enthralled many investigators for approximately two decades. In addition to many reports that have clarified the basic mechanism of transforming growth factor-$\beta$ signal transduction, numerous laboratories have published on the clinical implication/application of transforming growth factor-$\beta$. To name a few, dysregulation of transforming growth factor-$\beta$ signaling plays a role in carcinogenesis, autoimmunity, angiogenesis, and wound healing. In this report, we will review these clinical implications of transforming growth factor-$\beta$.

• The Korean Journal of Zoology
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• v.38 no.1
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• pp.20-25
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• 1995

계배 limb bud 간충직 연골원성 세포로부터 연골세포로의 분화에 미치는 transforming growth factor-f2(TGF-$\beta$2)의 영향을 알아보기 위하여, Hamburger-Hamilton stages 23/24의 간충직 세포들을 미세배양법으로 배양하면서. TGF-$\beta$2의 농도 및 처리시간에 따른 연골세포의 분화에 미치는 영향을 조사하였다 그 결과 TGF-$\beta$2는 배양 첫 24시간 동안 1-2 ng/ml의 농도로 처리하였을 때 가장 효과적으로 연골세포의 분화를 촉진하였으며, 또한 TGF-$\beta$2의 처리군에서 배양 3일째에 tsss) sulfate의 glycosaminoglvcan으로의 유입량이 현저히 증가함을 보였다 한편. 배양 48시간내에TGF-$\beta$2를 처리한 경우 분화를 촉진 유도한 반면, 배양 48시간 이후에 처리하였을 때에는 분화 촉진 효과가 나타나지 않았다. 이상의 결과로부터 TGF-$\beta$2는 연골원 세포의 분화 초기단계에 세포외기질의 합성을 촉진시켜 세포응축을 유발하고. 세포-세포 및 세포-세포외기질의 상호작용을 증대시킴으로써 연골세포로의 분화를 촉진시킬 것으로 추정되었다.

• Biomolecules & Therapeutics
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• v.21 no.5
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• pp.323-331
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• 2013

TGF-${\beta}$ pathway is being extensively evaluated as a potential therapeutic target. The transforming growth factor-${\beta}$ (TGF-${\beta}$) signaling pathway has the dual role in both tumor suppression and tumor promotion. To design cancer therapeutics successfully, it is important to understand TGF-${\beta}$ related functional contexts. This review discusses the molecular mechanism of the TGF-${\beta}$ pathway and describes the different ways of tumor suppression and promotion by TGF-${\beta}$. In the last part of the review, the data on targeting TGF-${\beta}$ pathway for cancer treatment is assessed. The TGF-${\beta}$ inhibitors in pre-clinical studies, and Phase I and II clinical trials are updated.

• Journal of Periodontal and Implant Science
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• v.25 no.3
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• pp.720-732
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• 1995

The use of transforming growth $factor-{\beta}1$ which functions as a potent biologic mediator regulating numerous activities of wound healing has been suggested for the promotion of periodontal regeneration. The mitogenic effects of transforming growth $factor-{\beta}1$ on human periodontal ligament cells and human gingival fibroblasts were evaluated by determining the incorporation of $[^3H]-thymidine$ into DNA of the cells dose-dependently. Cells were prepared with primary cultured fibroblasts and periodontal ligament cells from humans, and used in experiments were the fourth or sixth subpassage. Cells were seeded with serum free Dulbecco's modified Eagle medium containing 0.1% bovine serum albumine. The added concentrations of transforming growth $factor-{\beta}1$ were 0.25, 0.5, 1, 2.5, 5ng/ml and transforming growth $factor-{\beta}1$ were added to the quiescent cells for 24hours, 48hours, 72hours. They were labeled with lnCi/ml $[^3H]$ thymidine for the last 24hour of the each culture. The results were presented as the mean counts per minute (CPM) per well and S.D. of four determinations. The results were as follows. : The DNA synthetic activity of human gingival fibroblasts was increased dose-dependently by transforming growth $factor-{\beta}1$ at 24 hours, 48 hours and 72 hours. The maximum mitogenic effects were at the 48 hour application of transforming growth $factor-{\beta}1$. The DNA synthetic activity was generally more decreased at the 72 hour application than at the 48 hour the application of transforming growth $factor-{\beta}1$. The DNA synthetic activity of human periodontal ligament cells was increased dose-dependently by transforming growth $factor-{\beta}1$ at 24 hours and 48 hours. But the DNA synthetic activity was decreased at 5ng/ml of the 72 hour application. The maximum mitogenic effects were also at the 48 hour application of transforming growth $factor-{\beta}1$. The DNA synthetic activity of human periodontal ligament cells was generally more decreased at the 72 hour application than at the 48 hour application of transforming growth $factor-{\beta}1$. In the comparision of DNA synthetic activity between the human gingival fibroblasts and human periodontal ligament cells, the human gingival fibroblasts had more activity than the human periodontal ligament cells at all time application with the concentration of transforming growth $factor-{\beta}1$. In conclusion, transforming growth $factor-{\beta}1$ has an important roles in the stimulation of DNA synthesis in human periodontal ligament cells and human gingival fibroblasts, which means an increase in collagen synthesizing cells and thus, may be useful for clinical application in periodontal regenerative procedures.

• Journal of Periodontal and Implant Science
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• v.26 no.2
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• pp.429-447
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• 1996

Transforming growth factor $-{\beta}$ is one of the polypeptide growth factors that mediate the activity of mesenchymal cells and regulate wound healing process via cell proliferation, migration and extracellular matrix formation. The purposes of this study is to evaluate the effects of transforming growth factor $-{\beta}$ on the protein synthetic activity of human periodontal ligament cells and human gingival fibroblasts. The cells which were prepared were primary cultured gingival fibroblasts and periodontal ligament cells from humans, and the fourth or sixth subpassage were used in the experiments. Cells were seeded and at a confluent state, 0, 0.5, I, 2.5, 5, 10 ng/ml $TGF-{\beta}$ and $2{\mu]Ci/ml\;[^3H]$ proline were added to the cells and cultured for 24 hours. Then, 1 and 5 ng/ml concentrations were selected and added to confluent cells and cultured for 24 and 48 hours. They were labeled with $2{\mu}Ci/ml\;[^3H]$ proline for 24 hours and a collagen assay was done by the Peterkofsky and Diegelman method. The results were presented as the mean disintegration per minute (dpm) per well and S.D. of four determinations, The results were as follows. : The total protein, collagen and noncollagenous protein synthesis in periodontal ligament cells and gingival fibroblasts were increased dose- dependently by transforming growth factor-p to 2.5-5 ng/ml concentration and decreased at 10 ng/ml concentration. The percent of collagen was slightly changed according to the concentration of transforming growth factor-po The effect of transforming growth $factor-{\beta}$ was not specific for collagen synthesis since it increased the total, noncollagenous and collagenous protein, simultaneously. In the comparison of protein synthetic activity between the human periodontal ligament cells and human gingival fibroblasts, the human gingival fibroblasts had higher activities than the human periodontal ligament cells at all times and concentrations of $TGF-{\beta}$. In the comparison of protein synthetic activity between the 24 hour effect and the 48 hour effect of $TGF-{\beta}$, the 48 hour cultured cells' synthetic activity decreased more than the 24 hour cultured cells at human periodontal ligament cells and human gingival fibroblasts. In conclusion, $TGF-{\beta}$ has important roles in the stimulation of protein synthesis in human periodontal ligament cells and human gingival fibroblasts. Thus, it may be useful for clinical application in periodontal regenerative procedures.

• Proceedings of the PSK Conference
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• 2002.10a
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• pp.327.3-328
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• 2002

Transforming growth factor-${\beta}$ (TGF-${\beta}$), a hormonally active polypeptide found in normal and transformed tissues. regulates cellular growth and phenotyphic plasticity. We have previously shown that H-ras. but not N-ras. induces invasive phenotype in MCF10A human breast epithelial cells. In this study. we wished to examine the effect of TGF-${\beta}$ on H-ras-induced invasion and motility in MCFI 10A cells by performing in vitro invasion assay and wound migration assay. (omitted)

• Toxicological Research
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• v.16 no.1
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• pp.59-61
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• 2000

A single nucleotide polymorphism in the transforming growth factor-$\beta$ type II receptor (TGE$\beta$RII) gene of the rat was studied. TGF$\beta$RII is a tumor suppressor that is frequently inactivated by mutation in human colon cancers. A novel nucleotide polymorphism of G to A(or A to G), which causes a silent mutation at codon 129, was found in G:C rich sequence in the TGF$\beta$RII gene of Sprague-Dawley rats. The results suggest that genetic polymorphism occures without a strain of the laboratory animal.

• Proceedings of the Korean Society of Toxicology Conference
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• 2001.10a
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• pp.201-201
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• 2001

Transforming growth factor- $\beta$ (TGF- $\beta$), a hormonally active polypeptide found in normal and transformed tissue, is a potent regulator of cell growth and differentiation. In this study, we wished to establish an in vitro bioassay system to seek the most sensitive method that can measure TGF- $\beta$ activity.(omitted)

• Korean Journal of Veterinary Service
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• v.21 no.3
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• pp.267-275
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• 1998

돼지 수정란의 체외생산은 난자의 체외성숙과 체외수정에 관한 기술의 부족으로 아직까지 만족스럽지 못한 수준이다. 특히 돼지 수정란의 체외생산에는 복잡한 세포질의 성숙과정과 높은 다정자침입율 및 전핵형성의 억제등의 문제점이 있다. 본 연구에서는 돼지 난자의 체외성숙 체계를 개선하기 위하여 transforming growth factor$\beta$(TGF$\beta$)의 첨가가 난자 및 난구세포에 미치는 효과에 대하여 검토하였다. 체외성숙용 배지에 TGF$\beta$를 1~10ng/$m\ell$의 농도로 첨가하여 미성숙 난자를 배양한 결과 성숙율이 높아졌다. TGF$\beta$의 효과는 난구세포가 제거된 난자의 성숙에도 효과적이었다. TGF$\beta$(를 첨가하지 않은 배양액 내에서는 배양 24시간 까지 metaphase-II로 성숙된 난자가 관찰되지 않았으나 TGF$\beta$를 첨가한 배양액 내에서는 관찰되었다. 한편, 난구세포가 부착된 난자의 성숙배양시 TGF$\beta$의 첨가시기에 따른 차이는 없었으나, 난구세포를 제거한 난자의 경우에는 성숙배양 전반기(59%) 또는 후반기(57%) 24시간 동안에만 TGF$\beta$를 첨가하는 것이 48시간 동안 계속하여 첨가(27%)하는 경우 또는 비첨가(38%)에 비하여 유의적으로 높은 성숙율을 나타냈다(p<0.05). 이와 같은 결과는 난구 세포가 돼지 난자의 체외성숙에 필수적이지만 TGF$\beta$는 난구세포가 제거된 난자의 체외성숙에 어 느정도 유익한 효과를 발휘하는 것으로 추측된다.

• The Korean Journal of Zoology
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• v.39 no.3
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• pp.317-324
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• 1996

Osteoclast has been known as a primary responsible cell for the bone resorption. The activation of osteoclast, therefore, may be the key event in the regulation of bone growth and remodeling. Various factors were reported to have influence on the resorbing activity of osteoclast in organ culture. Among those factors, transforming growth factor-$\beta$ (TGF-$\beta$) has been known to have a profound effect on bone metabolism. Since a large amount of TGF-$\beta$ presents in bone tissue, it may be important for the understanding the regulatory mechanism of bone resorption to elucidate the effect of TGF-$\beta$ on the osteoclast. We have reported the dlsaggregated chick embryonic osteoclast culture as an useful assay method for determining the resorption activity of osteoclast. In this culture, we found that TGF-$\beta$ significantly enhaced the osteoclastic bone resorption activity. We also found that the timulatory effect seemed to be an indirect one that is mediated by other cells. As nordihydroguaiaretic acid significantly inhibited the TGF-$\beta$1-induced osteoclastic bone resorption, we suggest that the lipoxygenase derivative of arachidonic acid may participate in the action of TGF-$\beta$ as a paracrine or an autocrine mediator.