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Curino A, Milanesi L, Benassati S, Skliar M, Boland R: Effect of culture conditions on the synthesis of vitamin D (3) metabolites in Solanum glaucophyllum grown in vitro. Phytochemistry. 2001 Sep;58(1):81-9. In cultured Solanum glaucophyllum we have recently described the operation of a light-independent pathway of 1alpha,25-dihydroxy-vitamin D (3) (1alpha,25 (OH)(2) D (3)) biosynthesis which involves similar intermediates as in vertebrates. In this work we investigated factors influencing the formation of 1alpha,25 (OH)(2) D (3) and related sterols in S. glaucophyllum grown in vitro in darkness. Callus tissue and cells cultured in Murashige and Skoog medium in the absence of light were employed. Lipids were extracted with chloroform-methanol. The remaining water soluble fraction was incubated with beta-glucosidase to release vitamin D (3) compounds from their glycoconjugated derivatives followed by organic solvent extraction. Vitamin D (3) derivatives were isolated by Sephadex LH-20 and high-performance liquid chromatography (HPLC). HPLC or competitive protein binding assays with intestine 1alpha,25 (OH)(2) D (3) receptor and serum vitamin D binding protein were used to quantify the metabolites. The levels of 1alpha,25 (OH)(2) D (3) in calli varied according to the tissue explant origin, e.g. stem> leaf> fruit. For all organs, the metabolite was mainly present as free sterol (> 80% of total). There were larger amounts of 25 (OH) D (3) than 1alpha,25 (OH)(2) D (3). It was found that Ca (2+), auxin and kinetin are important factors upregulating 1alpha,25 (OH)(2) D (3) synthesis in S. glaucophyllum tissue and cells. Irradiation with UV light increased vitamin D (3) but not 1alpha,25 (OH)(2) D (3) levels. In agreement with these results, incubation of cells with [3H] 25 (OH) D (3) revealed a low conversion rate to [3H] 1alpha,25 (OH)(2) D (3). The operation of a light-dependent pathway formation of vitamin D (3) coupled to higher expression of 25 (OH) D (3)-1alpha-hydroxylase may account for the large concentrations of 1alpha,25 (OH)(2) D (3) normally found in differentiated field-grown plants. |
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