7 results on '"Ideta, Ritsuro"'
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2. Cultured human dermal papilla cells secrete a chemotactic factor for melanocytes
- Author
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Ideta, Ritsuro, Soma, Tsutomu, Tsunenaga, Makoto, and Ifuku, Ohji
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MELANOCYTES , *CHEMOTAXIS - Abstract
Large numbers of pigmented melanocytes are located in human hair follicles, predominantly around the dermal papillae, and the number of melanocytes and the melanogenic activity of the hair follicles are closely related to the hair cycle. We found that cultured human dermal papilla cells secreted a melanocyte chemoattractant into the medium. Skin fibroblasts also showed weak chemoattraction of melanocytes, while skin keratinocytes and melanocytes did not. Since this chemotactic activity was heat-and protease-sensitive and was present in the relatively high molecular weight fraction (130–200 kDa), it may be due to extracellular matrix (ECM) that proteins secreted from the cultured dermal papilla cells. This chemotactic signal between dermal papillae and melanocytes may control the localization and migration of hair melanocytes in vivo. [Copyright &y& Elsevier]
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- 2002
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3. Isolation and Characterization of cDNA for an Androgen-Regulated mRNA in the Flank Organ of Hamsters.
- Author
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Seki, Toshihiko, Ideta, Ritsuro, Shibuya, Masabumi, and Adachi, Kenji
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DNA , *ANDROGENS , *HAIR follicles , *CASTRATION , *AMINO acids , *LABORATORY rats - Abstract
Flank organs of hamster are useful for studying androgen- dependent growth of hair follicles and sebaceous glands. To elucidate the mechanism of gene expression regulated by androgen, we constructed a cDNA library from flank organs of male hamsters and screened by a differential hybridization method using cDNA probes from normal and castrated males. We isolated a cDNA clone, termed FAR-17a, whose expression was found to be highly sensitive to androgen. FAR-17a mRNA of 1.8 kb was reduced after castration and reappeared after testosterone treatments. Among several tis- sues examined, FAR-17a gene was expressed at a high level in flank organ and a low level in testis and earlobe. FAR-17a probe detected a few fragments in genomic DNA of hamster, mouse, suncus, pig, and human, suggesting that this gene is phylogenetically conserved. The sequence of FAR-17a cDNA predicts a protein of 231 amino acids (27,216 daltons) having basic properties. The deduced protein has no significant homologies to proteins previously described. [ABSTRACT FROM AUTHOR]
- Published
- 1991
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4. Stress Augmented Ultraviolet-Irradiation-Induced Pigmentation.
- Author
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Inoue, Kaori, Hosoi, Junichi, Ideta, Ritsuro, Ohta, Naomi, Ifuku, Ohji, and Tsuchiya, Toru
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ADRENOCORTICOTROPIC hormone , *MELANOCYTES - Abstract
It was reported that adrenocorticotropic hormone stimulates melanogenesis in cultured melanocytes. Stress (high population density and restraint stress) induced a significant increase in adrenocorticotropic hormone levels in plasma and skin compared to control. The serum obtained from HR-1×HR/De F1 female mice subjected to stress showed significantly increased tyrosinase activity in human melanocytes compared to that from nonstressed mice. The increase in tyrosinase activity was inhibited in the presence of 10 nM corticostatin, an adrenocorticotropic hormone inhibitor. The aim of this study was to examine whether adrenocorticotropic hormone released into the circulation under stressful conditions is associated with the regulation of ultraviolet-induced pigmentation. Mice divided into three groups were housed for 22 d under the following conditions: five mice per cage (control); 10 mice per cage (high population density); restraint stress 4 h per d. The animals were exposed to ultraviolet-B irradiation (72 mJ per cm2 , thrice per wk). After ultraviolet-B irradiation, delayed tanning was marked in stressed mice. The number of dihydroxyphenylalanine-positive melanocytes also significantly increased in stressed animals. Pretreatment with 100 μg of corticostatin inhibited the augmentation of the stress-induced pigmentary response and the increase in dihydroxyphenylalanine-positive melanocytes after ultraviolet irradiation. Adrenocorticotropic hormone released by stress may activate tyrosinase in melanocytes, resulting in the augmentation of ultraviolet-induced pigmentation. These results suggest that adrenocorticotropic hormone is at least partly responsible for the sensitivity of the pigmentary response after ultraviolet irradiation under stressful conditions. [ABSTRACT FROM AUTHOR]
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- 2003
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5. Changes in the Proliferative Activity of Epidermal Melanocytes in Serum-Free Primary Culture During the Development of Ultraviolet Radiation B-Induced Pigmented Spots in Hairless Mice.
- Author
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Furuya, Rikako, Akiu, Satoru, Ideta, Ritsuro, Naganuma, Masako, Fukuda, Minoru, and Hirobe, Tomohisa
- Subjects
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ULTRAVIOLET radiation , *PIGMENTATION disorders , *MELANOCYTES - Abstract
Long-term exposure to ultraviolet radiation B (UVB) induced pigmented spots in the dorsal skin of hairless mice of strain (HR-1 X HR/De)F 1 . To clarify the cellular mechanism for the development of these UVB-induced pigmented spots, we investigated changes in the proliferative activity of epidermal melanoblasts and melanocytes in the dorsal skin at various weeks after UVB irradiation. Epidermal cell suspensions from the dorsal skin of hairless mice were cultured in a serum-free medium supplemented with dibutyryl adenosine 3′:5′-cyclic monophosphate (DBcAMP) and basic fibroblast growth factor (bFGF). The suspensions were prepared from dorsal skins of mice exposed to UVB for 4 weeks (the stage of hyperpigmentation). Suspensions were also prepared from mice at 3 (the stage of depigmentation), 8 (the stage of appearance of pigmented spots), 20 (the stage of development of small-sized pigmented spots) and 37 (the stage of development of medium-sized pigmented spots) weeks after the cessation of 8-week UVB exposure. At the stage of hyperpigmentation the proliferative activity of melanoblasts and melanocytes was suppressed. With the development of pigmented spots, the proliferative activity of undifferentiated melanoblasts gradually increased, and then followed the increase in the proliferative activity of differentiated melanocytes. These results suggest that the proliferative activity of epidermal melanoblasts and melanocytes in UVB-irradiated skin increases with the development of pigmented spots. [ABSTRACT FROM AUTHOR]
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- 2002
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6. The topical penta-peptide Gly-Pro-Ile-Gly-Ser increases the proportion of thick hair in Japanese men with androgenetic alopecia.
- Author
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Iwabuchi, Tokuro, Takeda, Shunsuke, Yamanishi, Haruyo, Ideta, Ritsuro, Ehama, Ritsuko, Tsuruda, Akinori, Shibata, Hideaki, Ito, Tomoko, Komatsu, Nobuyuki, Terai, Keiko, and Oka, Syuichi
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KERATINOCYTES , *PEPTIDES , *ACANTHOLYSIS , *HAIR growth , *HAIR follicles - Abstract
Background A penta-peptide, Gly-Pro-Ile-Gly-Ser ( GPIGS), promotes proliferation of mouse hair keratinocytes and accelerates hair growth in mice. Aim of this study This study focused on the ability of the peptide to promote human hair growth. Methods We used a human hair keratinocyte proliferation assay and organ cultures of human hair follicle as in vitro systems. The lotions with and without the penta-peptide were administered to 22 Japanese men with androgenetic alopecia (AGA) for 4 months in a double-blind and randomized clinical study. Results The penta-peptide significantly stimulated the proliferation of human hair keratinocytes at a concentration of 2.3 μ m ( P < 0.01), and 5.0 μ m of this peptide had a marked effect on hair shaft elongation in the organ culture ( P < 0.05). The change in the proportion of thick hair (≥60 μm) compared to baseline in patients that received the peptide was significantly higher than in the placebo ( P = 0.006). The change in the proportion of vellus hair (<40 μm) was also significantly lower in the peptide group than in the placebo ( P = 0.029). The penta-peptide also significantly improved the appearance of baldness ( P = 0.020) when blinded reviewers graded photographs of the participants according to a standardized baldness scale. No adverse dermatological effects due to treatment were noted during this clinical study. Conclusions This penta-peptide promotes proliferation of human hair keratinocytes and hair shaft elongation of human hair follicles, in vitro. This peptide increases thick hair ratio in vivo, and this compound is useful for the improvement of AGA. [ABSTRACT FROM AUTHOR]
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- 2016
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7. Hair Follicle Regeneration Using Grafted Rodent and Human Cells.
- Author
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Ehama, Ritsuko, Ishimatsu-Tsuji, Yumiko, Iriyama, Shunsuke, Ideta, Ritsuro, Soma, Tsutomu, Yano, Kiichiro, Kawasaki, Chikako, Suzuki, Satoshi, Shirakata, Yuji, Hashimoto, Koji, and Kishimoto, Jiro
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HAIR follicles , *REGENERATION (Biology) , *EPITHELIAL cells , *KERATINOCYTES , *EPIDERMIS - Abstract
Hair follicle regeneration involves epithelial–mesenchymal interactions (EMIs) of follicular epithelial and dermal papilla (DP) cells. Co-grafting of those cellular components from mice allows complete hair reconstitution. However, regeneration of human hair in a similar manner has not been reported. Here, we investigated the possibility of cell-based hair generation from human cells. We found that DP-enriched cells (DPE) are more critical than epidermal cells in murine hair reconstitution on a cell number basis, and that murine DPE are also competent for hair regeneration with rat epidermal cells. Co-grafting of human keratinocytes derived from neonatal foreskins with murine DPE produced hair follicle-like structures consisting of multiple epidermal cell layers with a well-keratinized innermost region. Those structures expressed hair follicle-specific markers including hair keratin, and markers expressed during developmental stages. However, the lack of regular hair structures indicates abnormal folliculogenesis. Similar hair follicle-like structures were also generated with cultured human keratinocytes after the first passage, or with keratinocytes derived from adult foreskins, demonstrating that epidermal cells even at a mature stage can differentiate in response to inductive signals from DP cells. This study emphasizes the importance of EMI in follicular generation and the differentiation potential of epidermal keratinocytes.Journal of Investigative Dermatology (2007) 127, 2106–2115; doi:10.1038/sj.jid.5700823; published online 12 April 2007 [ABSTRACT FROM AUTHOR]
- Published
- 2007
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