Shimizu M, Iwasaki Y, Ohno A, Yamada S
Institute of Biomaterials and Bioengineering, Tokyo Medical and Dental University, Japan.
Chem Pharm Bull (Tokyo). 2000 Oct;48(10):1484-93. doi: 10.1248/cpb.48.1484.
To study the interaction of vitamin D with its receptor by 19F-NMR, (5Z,10Z)- and (5Z,10E)-19-fluoro-1alpha,25-dihydroxyvitamin D3 were synthesized starting from vitamin D2 via electrophilic fluorination of vitamin D-SO2 adducts as the key step. Regio- and stereoselective electrophilic fluorination at C(19) of vitamin D-SO2 adducts was achieved under the conditions using (PhSO2)2NF and bulky bases. The stereochemistry of the addition and elimination of SO2 of various vitamin D derivatives was studied in detail. SO2 causes Z-E isomerization of the 5,6-double bond of vitamin D and adds to the resulting (5E)-isomer from the sterically less hindered side opposite to the substituent at C(1). Elimination of SO2 from 19-substituted vitamin D-SO2 adducts proceeded exclusively in a suprafacial manner with respect to the diene part under either thermal or reductive conditions. Dye-sensitized photochemical isomerization of 19-fluorovitamin D derivatives was studied in detail. The rapid isomerization at the 5,6-double bond was followed by the slow isomerization at the 10,19-double bond to yield the (5E,10Z)-isomer (by nomenclature of the 1-OH derivatives) as the major product. (10Z)- and (10E)-19-Fluorovitamin Ds were also interconverted thermally probably via the corresponding previtamin D by 1,7-sigmatropic isomerization.
为了通过19F-NMR研究维生素D与其受体的相互作用,以维生素D2为起始原料,通过维生素D-SO2加合物的亲电氟化作为关键步骤,合成了(5Z,10Z)-和(5Z,10E)-19-氟-1α,25-二羟基维生素D3。在使用(PhSO2)2NF和体积较大的碱的条件下,实现了维生素D-SO2加合物C(19)处的区域和立体选择性亲电氟化。详细研究了各种维生素D衍生物中SO2的加成和消除的立体化学。SO2导致维生素D的5,6-双键发生Z-E异构化,并从C(1)处取代基相对的空间位阻较小的一侧加成到生成的(5E)-异构体上。在热或还原条件下,19-取代的维生素D-SO2加合物中SO2的消除相对于二烯部分仅以超面方式进行。详细研究了19-氟维生素D衍生物的染料敏化光化学异构化。5,6-双键的快速异构化之后是10,19-双键的缓慢异构化,以产生(5E,10Z)-异构体(根据1-OH衍生物的命名法)作为主要产物。(10Z)-和(10E)-19-氟维生素D也可能通过相应的前维生素D通过1,7-σ迁移异构化进行热相互转化。
