Anthocyanins are the largest group of water-soluble pigments in the plant kingdom. They are widely distributed in the human diet through crops, beans, fruits, vegetables and red wine. The specific health effects that anthocyanins might have in vivo are not known, although there are several possibilities related to obesity, cardiovascular disease, and cancer. In this study we used human subcutaneous adipose mesenchymal stem cells (hADSC) and mouse subcutaneous adipose mesenchymal stem cells (mADSC) to evaluate the effects of anthocyanins. And we examined the effect of cell activity and adipocyte differentiation by Cyanidin-3-O-glucoside (C3G), Delphinidin-3-ß-D-glucoside (D3G) that are among the anthocyanin family and black soybean extract. Using MTT assay method, we tested cellular metabolic activity. In mADSC, cell activity is significantly decreased by C3G and D3G (50 uM, 100 uM, and 200 uM), and black soybean extract (100 ug/ml and 200 ug/ml). In hADSC, cell activity is significantly decreased only by C3G (50 uM, 100 uM and 200 uM) unlike in mADSC. Cell activity is significantly increased of 100 uM D3G and black soybean extract (50 ug/ml, 100 ug/ml and 200 ug/ml). In mADSC, 50 uM C3G promoted differentiation into adipocyte but no effect in other concentration. D3G suppressed the differentiation of mADSC at 100 uM and 200 uM. 50 ug/ml black soybean extract promoted differentiation of mADSC, but 200 ug/ml black soybean extract suppressed differentiation. In hADSC, 50 uM, 100 uM and 200 uM C3G suppressed differentiation. 100 uM D3G promoted differentiation into adipocyte, but 200uM D3G suppressed it. Black soybean extract suppressed the differentiation into adipocyte at 50 ug/ml, 100 ug/ml and 200 ug/ml. These data showed that the responsibility to the C3G and D3G were different between hADSC and mADSC. Interestingly the responsibility to the black soybean extract was similar between hADSC and mADSC. Based on them, it is suggested that there are species-specificity to the cellular responsibility to the anthocyanins in subcutaneous ADSC.

Fetal bovine serum (FBS) is the most frequently used serum for the cultivation of mammalian cells. However, since animal-derived materials might not be appropriate due to safety issues, allogeneic human serum (HS) has been used to replace FBS, particularly for the culture of human cells. While there has been a debate about the advantages of HS, its precise effect on human adult stem cells have not been clarified. The present study aimed to investigate the effect of HS on the human eyelid adipose stem cells (HEACs) in vitro. When HEACs were cultivated in a medium containing 10% HS, many cells moved into several spots and aggregated there. The phenomenon was observed as early as 9 days following 10% HS treatment, and 12 days following 5% HS plus 5% FBS treatment. However, the aggregation was never observed when the same cells were cultivated with 10% FBS or bovine serum albumin. To examine whether cell density might affect the aggregation, cells were seeded with different densities on 12-well dish. Until the beginning of aggregation, cells seeded at low densities exhibited the longest culture period of 16 days whereas cells seeded at high densities showed the shortest period of 9 days to form aggregation. The number of cells was as the least for the low density group, and as the greatest for the high density group. When human cord blood serum or normal bovine serum was examined for the same effect on HEACs, interestingly, cord blood serum induced the aggregation of cells whereas bovine serum treatment has never induced. When cells were cultivated with 10% HS for 9 days, they were obtained and analyzed by RT-PCR. Compared to FBS-cultivated HEACs, HS-cultivated HEACs did not express VIM, and less expressed GATA4, PALLD. On the other hand, HS-cultivated HEACs expressed MAP2 more than FBS-cultivated HEACs. In conclusion, human adult stem cells could move and form aggregates by the treatment with human body fluids.

The proliferation of embryonic cells or adult stem cells in tissue is critically regulated during development and repair. How limited the proliferation of cells, so far, is not much explored. Cell-cell contact proliferation inhibition is known as a crucial mechanism regulating cell proliferation in vitro and in vivo. In this study we examined the characters of mouse subcutaneous adipose derived stem cells (msADSC) whether they lost or get contact inhibition during in vitro culture. The characters of msADSC growth after confluence were analyzed using confocal microscope and the expression profiles of contact inhibition related genes were analyzed according to the morphological changes using real-time PCR method. msADSC showed overlapping growth between them but not after passage 14. The cell shapes were also changed after passage 14. The expression profiles of genes which are involved in contact inhibition were modified in the msADSC after passage 14. The differentiation ability of msADSCs to adipocyte, chondrocyte and osteocyte was not changed by such changes of gene expression profiles. Based on these results, it is revealed that smADSC were characterized by getting of strong cell-cell contact inhibition after passage 14 but the proliferation and developmental ability were not blocked by the change of cell-cell contact proliferation inhibition. These finding will help to understand the growth of adipose tissue, although further studies are needed to evaluate the physiological meaning of the cell-cell contact proliferation inhibition during in vitro culture of msADSC.

Human eyelid adipose-derived stem cells (hEAs) and amniotic mesenchymal stem cells (hAMs) are very valuable sources for the cell therapeutics. Both types of cells have a great proliferating ability in vitro and a multipotency to differentiate into adipocytes, osteoblasts and chondrocytes. In the present study, we evaluated their stem cell characteristics after long-time cryopreservation for 6, 12 and 24 months. When frozen-thawed cells were cultivated in vitro, their cumulative cell number and doubling time were similar to freshly prepared cells. Also they expressed stem cell-related genes of SCF, NANOG, OCT4, and TERT, ectoderm-related genes of NCAM and FGF5, mesoderm/endoderm-related genes of CK18 and VIM, and immune-related genes of HLA-ABC and 2M. Following differentiation culture in appropriate culture media for 2-3 weeks, both types of cells exhibited well differentiation into adipocyte, osteoblast, and chondrocyte, as revealed by adipogenic, osteogenic or chondrogenic-specific staining and related genes, respectively. In conclusion, even after long-term storage hEAs and hAMs could maintain their stem cell characteristics, suggesting that they might be suitable for clinical application based on stem cell therapy.

Mesenchymal stem cells (MSC) are of great interest for cell-based therapies and tissue engineering approaches, as these cells are capable for extensive self-renewal and display a multilineage differentiation potential. Clinical application of these cells for degenerative and age-related diseases has been accumulating. However, preparation of MSC before the onset of the diseases, it needs to develop the cryopreservation method. Most cryopreservation methods include fetal bovine serum (FBS) which is essential for effective cryopreservation. Yet it should not be used clinically because of the potential risk of infection. In the present study, we investigated whether human serum albumin (HSA), human serum (HS), and knockout serum replacement (KSR) can be used as an alternative of FBS for cryopreservation of human adipose derived stem cells (hADSC). Cells cryopreserved with 9% HSA showed much higher viability after thawing compared with cells frozen with 5% or 1% HSA. Cells cryopreserved with 90% HS or KSR exhibited greater viability than cells frozen with 25% and 5% HS or KSR, respectively. Viability of cells frozen with 9% HSA, 90% HS or 90% KSR was comparable to that with 90% FBS. Morphology and proliferation ability of these cells were not affected by cryopreservation when compared the freshly obtained cells. Cryopreserved hADSC expressed transcription factor genes including Oct3/4, Nanog, Nestin and Sox2, which are related to the self-renewal of stem cells. Flow cytometric analyses showed that both fresh and cryopreserved hADSC were positive for the antigens of HLA-ABC, CD44, CD73, CD90, and CD105, CD166, and negative for HLA-DR, CD31, and CD34. Similar to fresh cells, cryopreserved hADSC could differentiate into mesodermal lineages, adipogenic, osteogenic, or chondrogenic cells. These results suggest that 9% HSA, 90% HS or 90% KSR can be used to replace FBS during successful cryopreservation of hADSC.

본 실험은 transforming growth factor-(TGF-)이 첨가된 chondrogenic induction medium(CIM)을 이용하여 인간지방조직에서 유래된 중간엽 줄기세포(human adipose tissue-derived mesenchymal stem cells, ATMSCs)의 연골형성능과 gelatin-chondroitin-glucosamine scaffold(GCG-scaffold)에 접종시킨 ATMSCs의 연골형성능을 알아

본 실험은 bioceramic을 첨가하여 만든 다공성 poly D,L-lactic-co-glycolic acid(PLGA)-scaffold가 인간 지방조직에서 유래된 중간엽 줄기세포(human adipose tissue derived mesenchymal stem cells, ATMSCs)의 골 형성과정에 효과적인지를 알아보고자 수행하였다. ATMSCs를 well plate에 접종하여 골형성 유도(osteogenic induction, OI) 배양액으로

사람의지방줄기세포는지방조직내에존재하는 줄기세포로 얻기 쉽고, 골수줄기세포와유사한특징을 가지고있다. 그러나 지방을 추출하는 과정, 공여자의 나이, 체질량, 추출 부위에 따라 세포의 특성이 달라지며, 이질적인 세포군을 얻게 된다. 따라서 본 연구에서는 허벅지 지방에서 유래한 줄기세포 특성 분석 및 중배엽, 내배엽성 세포로의 분화능을 알아보았다. 허벅지 유래 줄기세포는 골수줄기세포와 유사한 섬유아세포와 유사한 모양을 보였으며, 체외에서 56.5번의 분열을 하였고, 약 5×1022개의 세포를 얻을 수 있었다. 이들은 SCF, Oct4, nanog, vimentin, CK18, FGF5, NCAM, Pax6, BMP4, HNF4a, nestin, GATA4, HLA-ABC, HLA-DR과 같은 유전자를 발현하였으며, Oct4, Thy-1, FSP, vWF, vimentin, desmin, CK18, CD54, CD4, CD106, CD31, a-SMA, HLA-ABC 등과 같은 단백질을 발현하였다. 또한 이들은 지방, 골, 연골 세포와 같은 중배엽성 세포로 분화하였고, 더욱이 인슐린 분비세포와 같은 내배엽성 세포로도 분화하였다. 결론적으로, 사람의 허벅지 유래 줄기세포는 골수 줄기세포와 유사하게 체외에서 증식이 가능하였으며, 유전자 및 단백질 발현 패턴을 가지고 있었으며, 다양한 세포로 분화 가능하였다. 이러한 결과로 미루어 보아 허벅지 지방유래 줄기세포는 골수 줄기세포를 대체할 수 있는 세포치료제의 재료가 될 수 있을 것으로 사료된다.

Mesenchymal stem cells (MSCs) has been reported as multipotent progenitor cells that can be expanded rapidly in vitro and differentiated into multiple mesodermal cell type. Human MSCs have been reported to be associated with neural differentiation especially in the cholinergic phenotype in several neural system. In this study, We investigated the ability of MSCs derived human aipose tissue to differentiation into neural cells expressing Islet-1 and further differentiates into cholinergic neurons in cholinergic differentiation media. Immunocytochemistry was performed to detect the expression of Islet-1 and demonstrate characteristic of neurons and cholinergic neurons. Islet-1 was massively detected in the induction stage. Following cholinergic differentiation from Islet-1-expressing MSCs, Cholinergic neuron marker ChAT was higly expressed. Also we examined the neuroprotective effects and neural differentiation of transplanted human adipose tissue-derived mesenchymal stem cells (AT-MSCs) in ischemic stroke. For transplantation, after 3days after MCAO. animal were divided into 2 group: Group A : injected phosphate buffered saline (PBS;5 ㎕ n=10), Group B: transplanted AT-MSCs (5×105 cells, n=10). Each animal received an injection into the right penumbra region (from bregma : AP;－1.3 ㎜, ML;－4.0 ㎜, DV;－5.9 ㎜). In all animals, behavior test were performed at 1, 3, 6, 9, 12, 15 days after MCAO, that was conducted by investigators who were blined to the experimental groups. mNSS test demonstrated that motor, sensory, and balance behavior were impaired after MCAO ischemic insult. Ischemic rats that received AT-MSCs exhibited significantly improved functional performance compared with PBS injected animals and histological analysis revealed that transplanted AT-MSCs expressed marker for neuron. These results suggest that AT-MSCs can be differentiated into neuron especially in cholinergic neuron and may be a potential source of treatment for neurodegenerative disease such as stroke.

Mesenchymal stem cells constitute an potential cellular source to promote brain regeneration with Parkinson's disease. Mesenchymal stem cells have significant advantages over other stem cell types and greater potential for immediate clinical application. The purpose of this study was to investigate whether hMSCs from the human adipose tissue could be induced to differentiate into dopaminergic cells and to assess the developmental potential of hMSC for selectively replacing the midbrain dopamine neurons lost in Parkinson's disease in vitro and in vivo. MSCs were cultured under conditions that promote differentiation of dopaminergic neuron. Using media that include SHH, FGF8, and GDNF. the MSCs were induced in vitro to become dopaminergic neurons. The expressions of the LIM homeobox transcription factor 1, alpha (Lmx1a), tyrosine hydroxylase(TH) proteins were determined by immunofluorescence. Lmx1a has been shown sufficient to confer neurogenic activity on mesencephalic floor plate cells and to determine a mesencephalic dopaminergic neurons fate. This result suggests that hMSCs have the ability to differfentiate into dopaminergic neurons. hMSCs were then transplanted into the striatal in a rat model of Parkinson's disease. The rats were unilaterally lesioned in the substantia nigra with 6-hydroxydopamine and were tested for rotational apomorphine-induced behavior. Following differentiation of dopaminergic neuron, cells displayed dopaminergic morphology and that they expressed dopaminergic marks genes. Finally transplantation of hMSCs into the striatal of Parkinsonian rats resulted in improvement of their behavioral deficits by apomorphine-induced rotational behavior. The hMSCs transplanted rats were proved to be better than compared with the transplantation of PBS. Immunohistochemical analysis of grafted brains revealed that abundant hMSCs survived from the grafts and some of them displayed dopaminergic marks. Our results indicate that hMSC may serve as a good cell source for the treatment of neurodegenerative diseases and have high potential for being used in multiple applications. This cellular approach might become a restorative therapy in Parkinson's disease.

Previously we have succeeded to isolate stem cells (HEAC) from human eyelid adipose tissue, and functionally differentiate them into insulin-secreting cells. In the present study, we examined whether insulin family members might affect the insulinogenic differentiation of HEAC. Insulin treatment during culture affected little on the insulin and c-peptide secretions from HEAC after culture. However, insulin-like growth factor (IGF) 1 treatment decreased both secretions, whereas IGF2 greatly increased the secretions in a glucose-dependent manner. HEAC treated with IGF2 showed stronger expression of Pdx1, Isl1, Pax6 and PC1/3 genes compared to the control. They also showed distinct staining with insulin and c-peptide antibodies, and dithizone. While insulin or IGF2 treatment increased total cell number by 1.3- or 1.5-fold, respectively, each treatment increased the amount of insulin secretion by 27.1- or 78.1-fold, respectively. IGF2-enhanced insulinogenic differentiation was completely blocked by an antibody against insulin receptor (IR), but not by an antibody against IGF1 receptor (IGF1R). Differentiated HEAC showed expression of both IR and IGF1R genes while they expressed neither IGF2 nor IGF2R genes. Based upon these results, it is suggested that whereas IGF1 might inhibit the insulinogenic differentiation of HEAC, insulin and IGF2 could enhance the differentiation, and that the enhancing effect could be mediated via IR.

최근 골수와 혈액으로 유래된 중간엽 줄기세포와 비슷한 능력을 가지는 것으로 알려진 지방 유래 중간엽줄기세포가 새로운 세포 치료제로 떠오르고 있다. 하지만 줄기세포를 이용하여 치료하려는 질병은 나이가 들어감에 따라 발병하는 퇴행성 질환들이 대부분인데, 노화가 진행됨에 따라 줄기세포의 능력이 차이가 있다고 알려져 있다. 이에 본 연구에서는 노화가 일어남에 따라 발생되는 신경성 질환을 자가 유래 지방 중간엽 줄기세포를 이용하여 치료함에 있어서 노화가 진행됨에

A variety of stem cells has been emerging as therapeutic cells that can replace organ transplantation in human liver diseases. The present study focused on whether human eyelid adipose-derived stem cells (HAD) might differentiate into functional hepatocyte-like cells in vitro. HAD were isolated from human eyelid adipose tissue. Effect of dimethyl sulfoxide (DMSO), fibroblast growth factor (FGF)-2 and FGF-4 on the hepatic differentiation of HAD have been examined in vitro. Immunocytochemical analysis and PAS staining showed that HAD cultured in both DMSO and FGF-4 exhibited the most intense staining than HAD of the other experimental groups. These HAD expressed numerous hepatocyte-related genes. Immunoblotting analyses showed that HAD cultured in the presence of DMSO and FGF-4 secreted higher amount of human albumin than HAD cultured in other conditions. Urea analysis also demonstrated that these HAD produced higher amount of urea than any other groups of HAD. In conclusion, combined treatment of DMSO and FGF-4 could effectively induce the functional differentiation of HAD into hepatocyte-like cells.

손상된 뇌신경조직내에서 신경줄기세포로부터 새로운 신경세포로의 분화가 상당히 제한되어 있어 이것이 손상된 뇌신경조직의 복구가 잘 이루어지지 않는 원인이라 여겨지고 있다. 본 연구에서는 세포배양을 통해 지방조직 중간엽 줄기세포를 도파민성 신경세포와 콜린성 신경세포로 분화를 유도하였다. 중간엽 줄기세포를 신경세포로 분화시키기 위해 N2배양액에 bFGF, EGF, dimethyl sulphoxide (DMSO)와 butylated hydroxyanisole (