Holick M F, Tian X Q, Allen M
Department of Medicine, Boston University Medical Center, MA 02118, USA.
Proc Natl Acad Sci U S A. 1995 Apr 11;92(8):3124-6. doi: 10.1073/pnas.92.8.3124.
The photoproduction of vitamin D in the skin was essential for the evolutionary development of terrestrial vertebrates. During exposure to sunlight, previtamin D3 formed in the skin is isomerized to vitamin D3 (calciol) by a temperature-dependent process. Since early land vertebrates were poikilothermic, the relatively slow conversion of previtamin D3 to vitamin D3 at ambient temperature put them at serious risk for developing vitamin D deficiency, thus leading to a poorly mineralized skeleton that could have ultimately halted further evolutionary development of vertebrates on land. We evaluated the rate of isomerization of previtamin D3 to vitamin D3 in the skin of iguanas and found the isomerization rate was enhanced by 1100% and 1700% at 25 degrees C and 5 degrees C, respectively. It is likely that the membrane entrapment of previtamin D3 in its s-cis,s-cis conformation is responsible for the markedly enhanced conversion of previtamin D3 to vitamin D3. The membrane-enhanced production of vitamin D3 ensures the critical supply of vitamin D3 to poikilothermic animals such as iguanas.
皮肤中维生素D的光合成对于陆地脊椎动物的进化发展至关重要。在阳光照射期间,皮肤中形成的维生素D原3通过一个温度依赖性过程异构化为维生素D3(骨化醇)。由于早期陆地脊椎动物是变温动物,在环境温度下维生素D原3向维生素D3的相对缓慢转化使它们面临维生素D缺乏的严重风险,从而导致骨骼矿化不良,这最终可能会阻碍陆地脊椎动物的进一步进化发展。我们评估了鬣蜥皮肤中维生素D原3向维生素D3的异构化速率,发现异构化速率在25摄氏度和5摄氏度时分别提高了1100%和1700%。维生素D原3以其s-顺式,s-顺式构象被膜包裹可能是维生素D原3向维生素D3转化显著增强的原因。膜增强的维生素D3生成确保了向鬣蜥等变温动物关键供应维生素D3。