Makoto Takehana scite author profile

The protective effect of magnesium-L-ascorbyl-2-phosphate (MAP) on cutaneous photodamage such as lipid peroxidation and inflammation induced by ultraviolet B (UVB) exposure (290-320 nm, max. 312 nm) was investigated using hairless mice. When MAP was administered intraperitoneally to mice at a dose of 100 mg of ascorbic acid (AS) per kg body weight base immediately before irradiation (15 kj/m2), the expected increases in thiobarbituric acid reactive substance (TBARS) formation in skin and serum sialic acid, indices of lipid peroxidation and inflammatory reaction, respectively, were significantly reduced. However, the expected decrease in the level of cutaneous AS was unchanged. Similar results were observed for animals given 100 mg of AS-Na per kg body weight before UVB irradiation. When MAP was administered intracutaneously immediately before irradiation, the expected UVB-induced increases in TBARS and sialic acid were again significantly prevented. Ascorbic acid-Na had a less protective effect than intracutaneous MAP administration. The cutaneous AS level was significantly higher in the MAP-treated mice than in the controls, and the UVB-induced decrease in tissue AS was prevented by intracutaneous MAP administration. These results suggest that MAP protects against UVB irradiation-induced lipid peroxidation and inflammation in cutaneous tissue, regardless of the drug administration route. We found, in an in vitro experiment, that MAP was converted to AS as it crossed the epidermis, but that AS-Na did not pass through the epidermis. Furthermore, MAP was also converted to AS in serum. These results suggest that the protective effect of MAP on UVB-induced cutaneous damage is due to conversion of MAP to AS.

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Type XVI Collagen is Expressed in Factor XIIIa+ Monocyte-Derived Dermal Dendrocytes and Constitutes a Potential Substrate for Factor XIIIa

Akagi

Tajima

Ishibashi

et al. 2002

Journal of Investigative Dermatology

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We have previously reported that connective tissue cells in the superficial dermis preferentially express alpha1(XVI) collagen rather than those in the lower dermis. Double immunofluorescence labeling using the antibodies for alpha1(XVI) collagen and factor XIIIa (plasma transglutaminase), which is a marker of dermal dendrocytes, demonstrated that both antibodies reacted with the same cells in the superficial dermis of normal skin as well as the lesional skins of dermal dendrocyte-related disorders, dermatofibroma, and psoriasis. Dermal dendrocytes are considered to be established by a culture of peripheral blood monocytes in the presence of granulocyte macrophage-colony stimulating factor and interleukin-4. Reverse transcription--polymerase chain reaction, metabolic labeling, and immunofluorescence studies demonstrated that treatment of CD14+ peripheral blood monocytes with granulocyte macrophage-colony stimulating factor/interleukin-4 over a period of 8 d resulted in the induction of alpha1(XVI) collagen as well as factor XIIIa. The physiologic significance of colocalization of alpha1(XVI) collagen and factor XIIIa in the tissue and their coordinate induction in CD14+ monocyte-derived dendritic cells in vitro was studied. Considerable incorporation of [3H]putrescine by factor XIIIa into recombinant noncollagenous domain (NC) 11 but not into collagenous domain (COL) 1.NC1 domain of the alpha1(XVI) polypeptide was found. Incubation of recombinant NC11 of alpha1(XVI) polypeptide with factor XIIIa in vitro produced a covalent cross-linking complex on sodium dodecylsulfate-polyacrylamide gel electrophoresis. The results indicate that alpha1(XVI) collagen is constitutively expressed by most dermal dendrocytes in the skin and dendritic cells differentiated from peripheral blood monocytes in vitro. Type XVI collagen is expressed in factor XIIIa+ dermal dendrocytes and may form an intermolecular cross-linking through NC11 domain by the reaction catalyzed by factor XIIIa contributing to the structural integrity of factor XIIIa+ dendritic cell-rich tissues.

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Protective Effects of Sodium-L-ascorbyl-2 Phosphate on the Development of UVB-Induced Damage in Cultured Mouse Skin.

Nayama¹,

Takehana

Kanke

et al. 1999

Biological & Pharmaceutical Bulletin

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Expression of a Small Heat Shock Protein 27 (HSP27) in Mouse Skin Tumors Induced by UVB-Irradiation.

Kiriyama

Oka

Takehana

et al. 2001

Biological & Pharmaceutical Bulletin

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We investigated the expression of heat shock protein 27 (HSP27) at intermediate stages of a cutaneous tumor induced by UVB-irradiation stress (290-380 nm, max. 312 nm) using an immunostaining method. After 15-20 weeks of chronic exposure to UVB irradiation at a dose of 2 kJ/m2, HSP27 was found in the upper cell layers of bowenoid multilayers of epidermis, in areas of the lesions where normal stratification seems to be conserved. After 25 weeks, HSP27 was weakly expressed in squamous cell carcinoma (SCC). The HSP27 distribution patterns during cutaneous tumor progression resemble that of cytokeratin 10, a differentiation marker in keratinocytes. In SCC, a low degree of HSP27 expression was detected in the well-differentiated carcinomatous areas, but not in the poorly differentiated areas. These results indicate that the level of HSP27 decreases significantly as epithelial carcinoma growth progresses upon UVB-exposure. The expression of HSP27 may be associated with the onset of skin keratinocyte differentiation, but not with progression of SCC.

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Specific Racemization and Isomerization of the Aspartyl Residue of αA-Crystallin Due to UV-B Irradiation

Fujii

Momose

Ishibashi

et al. 1997

Experimental Eye Research

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Makoto Takehana

Protective Effect of Magnesium‐L‐Ascorbyl‐2 Phosphate Against Skin Damage Induced by UVB Irradiation

Type XVI Collagen is Expressed in Factor XIIIa+ Monocyte-Derived Dermal Dendrocytes and Constitutes a Potential Substrate for Factor XIIIa

Protective Effects of Sodium-L-ascorbyl-2 Phosphate on the Development of UVB-Induced Damage in Cultured Mouse Skin.

Expression of a Small Heat Shock Protein 27 (HSP27) in Mouse Skin Tumors Induced by UVB-Irradiation.

Specific Racemization and Isomerization of the Aspartyl Residue of αA-Crystallin Due to UV-B Irradiation

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