基本情報
- 所属
- 自治医科大学 医学部形成外科学講座 助教
- 学位
- 博士(理学)(神戸大学)(2012年3月 神戸大学)
- 研究者番号
- 70638246
- ORCID ID
- https://orcid.org/0000-0002-2646-0924
- J-GLOBAL ID
- 202201018745683565
- researchmap会員ID
- R000037631
経歴
5-
2023年4月 - 現在
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2016年8月 - 2023年3月
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2015年5月 - 2016年7月
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2012年4月 - 2015年3月
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2010年4月 - 2012年9月
学歴
3-
2009年4月 - 2012年3月
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2006年4月 - 2009年3月
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2002年4月 - 2006年3月
論文
12-
Tissue and cell 89 102457-102457 2024年8月 査読有りINTRODUCTION: A specialized device equipped with a sharp blade filter has been developed to enable more efficient purification of a micronized cellular adipose matrix (MCAM) containing stem cells. The aim of this study is to compare the characteristics and functions of the population of stromal cells (mSVF) and cultured cells (mASCs) purified using this device with those of cSVF and cASCs obtained through conventional enzymatic purification. METHODS: Cell viability, proliferation capacity and yield were assessed. Characterization of stem cell potency was performed by analyzing cell surface markers including CD34, a marker of activated adipose-derived stem cells. The trilineage differentiation potential was evaluated using RT-PCR and histology. RESULTS: The yield rate of mSVF obtained from MCAM was significantly higher than that with the conventional method, although use of the device resulted in a slight decrease in cell viability. After culture, mASCs exhibited a remarkable clonogenic potential and significantly higher cell proliferation potential than cASCs. The mASCs also displayed a distinct pattern of ASC cell surface markers, increased expression of genes related to CD34, high pluripotency, and a high trilineage differentiation ability. CONCLUSION: The specialized device enhanced the yield of SVF and produced cells with high proliferation rates and characteristics that include expression of stem cell markers.
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Plastic and reconstructive surgery 2024年3月1日 査読有りBACKGROUND: Co-transplantation of adipose-derived stem cells (ASCs) and endothelial progenitor cells (EPCs) has shown superior angiogenic effects than ASCs alone in recent animal studies. However, EPCs could only be collected from blood vessels or bone marrow. Thus, we have established a method for purifying adipose-derived endothelial progenitor cells (AEPCs). We hypothesized that AEPCs would enhance the therapeutic effect of ASCs on radiation ulcer. METHODS: Seven-week-old male nude mice (BALB/cAJcl-nu/nu) were irradiated on the dorsal skin (total 40 Gy) and twelve weeks later 6 mm diameter wounds were created. The mice were then treated with subcutaneous injection of human ASCs (1×10 5, n = 4), human AEPCs (2×10 5 or 5×10 5, n = 5), combinations of those (ASCs 1×10 5 + AEPCs 2×10 5 (n = 4) or 5×10 5 (n = 5)), or only vehicle (n = 7). Non-irradiated group was also prepared as a control (n = 6). The days required for macroscopic epithelialization was compared and immunostaining for human-derived cells and vascular endothelial cells was performed at Day 28. RESULTS: AEPC-ASC combination-treated groups healed faster than ASC-treated group (14 ± 0 vs 17 ± 2 days, p < 0.01). Engraftment of the injected cells could not be confirmed. Only the non-irradiated mice had significantly higher vascular density (0.988 ± 0.183 vs 0.474 ± 0.092 ×10 -5µm -2, p = 0.02). CONCLUSIONS: The results suggested therapeutic potentials of AEPCs and an enhanced effect of combination with ASCs. This study is a xenogenic transplantation model and further validation in an autologous transplantation model is needed. CLINICAL RELEVANCE STATEMENT: Human AEPCs and its combination with ASCs accelerated epithelialization of radiation ulcer in nude mice. It was also suggested that administration of humoral factors secreted from AEPCs, e.g. treatment with culture conditioned media, could be used for the same purpose.
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Plastic and reconstructive surgery 2023年9月6日 査読有りBACKGROUND: Radiation therapies are often associated with permanent devitalization in the surrounding tissue. We hypothesized that stem cells are damaged depending on each irradiation dose and frequency of fractionated radiotherapies, which results in impaired tissue function including wound healing capacity. METHODS: To test the hypothesis, susceptibility of human adipose-derived stem cells (ASCs) to a single irradiation (0-10 Gy) was assessed in vitro. In vivo chronic radiation effects were also assessed on the mouse dorsal skin (N=4-5) for 6 months after a total of 40 Gy irradiation (0 Gy as control) using one of three fractionated protocols (2 Gy daily for 20 days, 10 Gy weekly for 4 weeks, or 10 Gy monthly for 4 months). Oxygen partial pressure, oxygen saturation of hemoglobin, and dorsal skin viscoelasticity were periodically measured, and wound healing and tissue immunohistology were compared at 6 months. RESULTS: A single irradiation of cultured human ASCs resulted in a dose-dependent increase in cell death up to 2 Gy but with no further increases between 2 and 10 Gy. Most of the apoptotic ASCs were in the proliferation phase. Among the three in vivo irradiation protocols, the 2 Gy×20 group had the most severe chronic tissue damage (i.e., skin dysfunction, subcutaneous atrophy, and depletion of CD34+ stem cells) 6 months after the irradiation. Wound healing was also impaired most significantly in the 2 Gy×20 group. CONCLUSIONS: These results have important clinical implications for surgeons and radiotherapists such as the timing of surgical interventions and the optimization of fractionation protocols.Clinical Relevance Statement: Irradiation damages stem cells depending on the radiation dose and frequency. Using the ultimately optimized protocol, we can minimize the long-term functional deficits of radiated tissue without losing anti-cancer efficacy of radiation therapy.
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Scientific reports 12(1) 1775-1775 2022年2月2日 査読有り筆頭著者Human adipose tissue is a rich source of adipose-derived stem cells (ASCs) and vascular endothelial progenitor cells (EPCs). However, no standardized method has been established for the isolation and purification of adipose-derived EPCs (AEPCs). The aim of this study was to establish a method for the isolation and purification of AEPCs. The stromal vascular fraction (SVF) was extracted from human lipoaspirates, and the CD45-CD31+ fraction of the SVF was collected by magnetic-activated cell sorting (MACS). The CD45-CD31+ fraction was cultured for 4.5 days, followed by a second MACS separation to collect the CD31+ fraction. Purified AEPCs were expanded without being overwhelmed by proliferating ASCs, indicating that a high level (> 95%) of AEPC purification is a key factor for their successful isolation and expansion. AEPCs exhibited typical endothelial markers, including CD31, von Willebrand factor, and the isolectin-B4 binding capacity. AEPCs formed colonies, comparable to cultured human umbilical vein endothelial cells (HUVECs). Both AEPCs and HUVECs formed capillary-like networks in the tube formation assay, with no significant difference in network lengths. We are the first to establish a purification and expansion method to isolate these cells. Because adipose tissue is a clinically accessible and abundant tissue, AEPCs may have potential advantages as a therapeutic tool for regenerative medicine.
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Cells 10(3) 2021年3月4日 査読有りTherapeutic effects of adult stem-cell transplantations are limited by poor cell-retention in target organs, and a reduced potential for optimal cell differentiation compared to embryonic stem cells. However, contemporary studies have indicated heterogeneity within adult stem-cell pools, and a novel culturing technique may address these limitations by selecting those for cell proliferation which are highly functional. Here, we report the preservation of stemness in human adipose-derived stem cells (hASCs) by using microgravity conditions combined with microspheres in a stirred suspension. The cells were bound to microspheres (100-300 μm) and cultured using a wave-stirring shaker. One-week cultures using polystyrene and collagen microspheres increased the proportions of SSEA-3(+) hASCs 4.4- and 4.3-fold (2.7- and 2.9-fold increases in their numbers), respectively, compared to normal culture conditions. These cultured hASCs expressed higher levels of pluripotent markers (OCT4, SOX2, NANOG, MYC, and KLF), and had improved abilities for proliferation, colony formation, network formation, and multiple-mesenchymal differentiation. We believe that this novel culturing method may further enhance regenerative therapies using hASCs.
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Tissue engineering. Part A 26(21-22) 1147-1157 2020年11月 査読有りWe investigated the effect of oxygen tension on the proliferation and hair-inductive capacity of human dermal papilla cells (DPCs) and dermal sheath cells (DSCs). DPCs and DSCs were separately obtained from human hair follicles and each cultured under atmospheric/hyperoxic (20% O2), physiological/normoxic (6% O2), or hypoxic (1% O2) conditions. Proliferation of DPCs and DSCs was highest under normoxia. Compared with hyperoxia, hypoxia inhibited proliferation of DPCs, but enhanced that of DSCs. In DPCs, hypoxia downregulated the expression of hair-inductive capacity-related genes, including BMP4, LEF1, SOX2, and VCAN. In DSCs, both normoxia and hypoxia upregulated SOX2 expression, whereas hypoxia downregulated BMP4 expression. Microarray analysis revealed that normoxia increased the expression of pluripotency-related genes, including SPRY, NR0B1, MSX2, IFITM1, and DAZL, compared with hyperoxia. In an in vivo hair follicle reconstitution assay, cultured DPCs and DSCs were transplanted with newborn mouse epidermal keratinocytes into nude mice using a chamber method. In this experiment, normoxia resulted in the most efficient induction of DPC hair follicles, whereas hypoxia caused the most efficient induction and maturation of DSC hair follicles. These results suggest that application of physiological/hypoxic oxygen tension to cultured human DSCs enhances proliferation and maintenance of hair inductivity for skin engineering and clinical applications. Impact statement Dermal sheath cells (DSCs) and dermal papilla cells (DPCs) are useful cell sources for cell-based regenerative therapy. This is the first report to describe that low-oxygen conditions are better for DSCs. Normoxic and hypoxic culture of DSCs is beneficial for expanding these hair follicular cells and advancing development of cell-based therapy for both wound healing and hair regeneration. The current study supports that optimized oxygen tension can be applied to use expanded human DPCs and DSCs for skin engineering and clinical applications.
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Marine drugs 18(10) 2020年10月19日 査読有りFiller injection demand is increasing worldwide, but no ideal filler with safety and longevity currently exists. Sodium alginate (SA) is the sodium salt of alginic acid, which is a polymeric polysaccharide obtained by linear polymerization of two types of uronic acid, d-mannuronic acid (M) and l-guluronic acid (G). This study aimed to evaluate the therapeutic value of SA. Nine SA types with different M/G ratios and viscosities were tested and compared with a commercially available sodium hyaluronate (SH) filler. Three injection modes (onto the periosteum, intradermally, or subcutaneously) were used in six rats for each substance, and the animals were sacrificed at 4 or 24 weeks. Changes in the diameter and volume were measured macroscopically and by computed tomography, and histopathological evaluations were performed. SA with a low M/G ratio generally maintained skin uplift. The bulge gradually decreased over time but slightly increased at 4 weeks in some samples. No capsule formation was observed around SA. However, granulomatous reactions, including macrophage recruitment, were observed 4 weeks after SA implantation, although fewer macrophages and granulomatous reactions were observed at 24 weeks. The long-term volumizing effects and degree of granulomatous reactions differed depending on the M/G ratio and viscosity. By contrast, SH showed capsule formation but with minimal granulomatous reactions. The beneficial and adverse effects of SA as a filler differed according to the viscosity or M/G ratio, suggesting a better long-term volumizing effect than SH with relatively low immunogenicity.
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Organogenesis 16(3) 83-94 2020年7月2日 査読有りAlopecia has several causes, but its relationship with ischemia/hypoxia has not yet been investigated in detail. In this study, we studied the changes of hair follicles induced by ischemia and potential effects of normobaric hyperoxygenation (NBO) on the hair cycle and growth. We found that skin ischemia reduced hair growth rate, hair shaft size, and its pigmentation in the anagen phase of mice, which may reflect an aspect of pathophysiology of hair loss (alopecia) and depigmentation (gray/white hairs). Hyperoxygenation increased hair growth rate in organ culture of both human and murine hair follicles. Systemic NBO promoted hair growth in early anagen and mid-anagen, and delayed catagen onset in mice. However, telogen-to-anagen transition was not affected by NBO as far as non-ischemic skin is concerned. The results of this study indicated that the hair follicle is very sensitive to oxygen tension and oxygen tension affects the regulation of hair growth and cycle in vitro and in vivo. It was suggested that systemic NBO can be safely applied for a long period and can be a noninvasive therapeutic approach to alter hair growth and cycle by manipulating the microenvironment of hair follicles.
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Raftophilic rhodopsin-clusters offer stochastic platforms for G protein signalling in retinal discs.Communications biology 2 209-209 2019年 査読有りRhodopsin is a G protein-coupled receptor (GPCR) that initiates the phototransduction cascade in retinal disc membrane. Recent studies have suggested that rhodopsin forms highly ordered rows of dimers responsible for single-photon detection by rod photoreceptors. Dimerization is also known to confer to rhodopsin a high affinity for ordered lipids (raftophilicity). However, the role of rhodopsin organization and its raftophilicity in phototransduction remains obscure, owing to the lack of direct observation of rhodopsin dynamics and distribution in native discs. Here, we explore the single-molecule and semi-multimolecule behaviour of rhodopsin in native discs. Rhodopsin forms transient meso-scale clusters, even in darkness, which are loosely confined to the disc centre. Cognate G protein transducin co-distributes with rhodopsin, and exhibits lateral translocation to the disc periphery upon activation. We demonstrate that rhodopsin offers inherently distributed and stochastic platforms for G protein signalling by self-organizing raftophilic clusters, which continually repeat generation/extinction in the disc membrane.
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Biochimica et biophysica acta. General subjects 1861(9) 2261-2273 2017年9月 査読有り筆頭著者BACKGROUND: Tensioned collagen gels with dermal fibroblasts (DFs) as a dermis model are usually utilized in a static culture (SC) that lacks medium flowing. To make the model closer to its in vivo state, we created a device to perfuse the model with media flowing at a physiological velocity and examined the effects of medium flow (MF) on the cultures. METHODS: We constructed a medium perfusion device for human DF-embedded stretched collagen gels (human dermis model), exposed the model to media that flows upwardly at ~1mL/day, and examined water retention of the gels, cells' growth ability, metabolic activity, expression profiles of nine extracellular matrix (ECM)-related genes. The obtained data were compared with those from the model in SC. RESULTS: MF increases the gels' water retention and cells' growth potential but had little effect on their metabolic activities. MF robustly enhanced hyaluronan synthase 2 (HAS2) and matrix metalloprotease 1 (MMP1) gene expressions but not of the other genes (MMP2, HYAL1, HYAL2, HYAL3, COL1A1, COL3A1, and CD44). MF significantly increased the amounts of cellular hyaluronan and adenosine triphosphate. CONCLUSIONS: The MF at a physiological speed significantly influences the nature of ECMs and their resident fibroblasts and remodels ECMs by regulating hyaluronan metabolism. GENERAL SIGNIFICANCE: Fibroblasts in tensioned collagen gels altered their phenotypes in a MF rate-dependent manner. Collagen gel culture with tension and MF could be utilized as an appropriate in vitro model of interstitial connective tissues to evaluate the pathophysiological significance of mechanosignals generated by fluid flow and cellular/extracellular tension.
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International Journal of Design & Nature and Ecodynamics 10(1) 1-9 2015年3月31日 査読有り筆頭著者
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Protein expression and purification 82(1) 168-73 2012年3月 査読有り筆頭著者cGMP phosphodiesterase 6 (PDE6) and rhodopsin kinase (GRK1) are quantitatively minor prenylated proteins involved in vertebrate phototransduction. Here, we report that methyl-β-cyclodextrin (MCD), a torus-shaped oligosaccharide with a hydrophobic pore, can be used as a selective extractant for such prenylated proteins from frog retinal disc membranes, and that MCD makes it possible to purify frog PDE6 holoenzyme with very simple procedure. The EC50s of MCD for the extraction of GRK1 and PDE6 from the cytoplasmic surface of the disc membrane were 0.17 and 5.1 mM, respectively. By successive extraction of the membrane by 1 mM and then 20 mM MCD, we obtained crude GRK1 and PDE6, respectively. From the 20mM extract, we were able to purify the PDE6 holoenzyme using one-step anion-exchange column chromatography. From 1mM MCD extract, GRK1 was further purified by an affinity column. Following the removal of MCD by ultrafiltration, we were able to confirm integrity of these enzymes by reconstituting phototransduction system in vitro. We have therefore demonstrated that MCD is a useful compound for selective extraction and purification of prenylated peripheral membrane proteins from the cytoplasmic surface of biological membranes.
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