ビタミン 88 巻, 7 号

ビタミンD生成に必要な日光照射に伴う皮膚への有害性に関する推定評価

In recent years, the importance of solar exposure for vitamin D synthesis in the human body has been pointed out. The solar exposure time necessary for the synthesis of vitamin D depends largely on geographical location, season, time of day, weather, exposed skin area, etc. Using numerical simulations we estimated that if 10 μg vitamin D were to be synthesized entirely by solar exposure to skin type III (SPT), which is considered to be the most typical skin type for Japanese people, it would necessitate 6.4 min horizontal exposure of a 600 cm^2 skin area, corresponding to the face and the back of both hands, under cloudless sky at 12:00 o'clock in July in Tsukuba. Under the same conditions, it would take 20.8 min to reach 1 MED (Minimum Erythemal Dose) which is thought to be the harmful UV exposure level for human skin. In other words, approximately 31% of the time before the skin gets red is enough for the synthesis of 10 μg vitamin D a day. On the other hand, in Sapporo which is located in the northern part of the Japanese Archipelago, the corresponding durations are 8.4 min and 27.0 min, respectively under the same conditions as in Tsukuba, whereas the necessary time in December would be 139 min and 296 min, respectively. Although the sufficient amount of vitamin D cannot be obtained by short-time exposure to solar radiation, it is thought that long-time exposure might not damage the skin. It can be concluded that for a skin area of 600 cm^2 in horizontal position, exposure time until damage would occur is generally 3 times larger than what is necessary for the synthesis of 10 μg vitamin D under strong UV radiation. It should be noted that generally, with a larger exposed skin area the solar exposure time for vitamin D synthesis could be considerably shortened.

高度好熱菌由来ホモセリン脱水素酵素の結晶学的研究

Homoserine dehydrogenase catalyzes the conversion of L-aspartate-4-semialdehyde to L-homoserine. Homoserine dehydrogenase is required for the biosynthesis of the three essential amino acids, i.e. lysine, methionine, and isoleucine, from aspartic acid. This enzyme attracts attention also as a promising antifungal drug target. We have determined the crystal structures of homoserine dehydrogenase from Thermus thermophilus HB8 in both substrate-free form and homoserine-binding form by X-ray diffraction. Crystallization conditions were surveyed at 293 K by using a hanging-drop vapor-diffusion method. The substrate-free form was solved to 1.4 Å resolution and the homoserine-binding form was solved to 2.0 Å resolution. The homoserine dehydrogenase was a dimer with each subunit composed of three distinct domains, nucleotide-binding, dimerization, and substrate-binding domain. In the homoserine-binding forms, the amino group of homoserine made a hydrogen bond to the side chain carboxylate of Glu180. This hydrogen bond induced the conformation change of Thr165-Pro183 loop, which made the loop close to the active site. The substrate homoserine was rigidly recognized by several amino acid residues in the enzyme active site, indicating that Lys99 or Lys195 would be an essential catalytic residue to facilitate hydride transfer.

メチオニン・コリン欠乏食誘発性脂肪肝に対するγ-トコフェロールの改善効果

It has been reported that α-tocopherol (α-Toc), one of the vitamin E analogs, is effective for treatment of non-alcoholic steatohepatitis (NASH). However, the mechanisms and the effects of other vitamin E analogs have not been clarified. The present study was carried out to investigate the effects of α-Toc and γ-tocopherol (γ-Toc) on fatty liver by using a model of non-alcoholic fatty liver disease (NAFLD) induced by a methionine- and choline-deficient (MCD) diet. Thirty male Sprague-Dawley (SD) rats were divided into six groups: control (C), control+α-Toc (Cα), control+γ-Toc (Cγ), MCD(M), MCD+α-Toc (Mα), and MCD+γ-Toc (Mγ). Each diet was fed for four weeks. Although neither α-Toc nor γ-Toc affected hepatic lipids under the control diet, γ-Toc tended to reduce hepatic triacylglycerol content and lipid droplet in rats fed the MCD diet. γ-Toc also significantly increased the expression of apolipoproteinB (ApoB) mRNA, which had been suppressed by the MCD diet. Moreover, it was suggested that γ-Toc levels in the liver and plasma of the Mγ group were significantly lower than those in the Cγ group, while there were no significant differences in the liver and plasma α-Toc levels between the Cα and Mα groups. Our results suggest that γ-Toc could ameliorate hepatic steatosis induced by feeding of a MCD diet more effectively than α-Toc.