Abstract
Methods are detailed for the preparation of [2-18O]glycolate from chloroacetic acid and for the direct conversion of these intermediates to regiospecifically labeled [2-18O]-2-O-acylglycolic acids containing approximately 90% 18O at the C-O-acyl bond. Methods are also detailed for optimization of reaction conditions and yields for each synthetic step in previously published methods for the preparation of 1-O-acyldihydroxyacetone-3-O-phosphate (DHAP) from acyloxyacetic acid (i.e., 2-O-acylglycolic acid), where acyl is tetradecanoyl, hexadecanoyl, or heptadecanoyl. The optimized reaction conditions generate 1-O-acyl DHAP in its acid form, both in high overall yield and in high purity, without requiring a final chromatographic purification of the product, 1-O-acyl DHAP. Combining these new methods, efficient and facile preparations of regiospecifically labeled [1-18O]-1-O-hexadecanoyl DHAP and [1-18O]-1-O-heptadecanoyl DHAP have now been demonstrated, in which approximately 90% 18O is specifically located only at the C-O-acyl position. Some mechanistic postulates are offered to account for the optimized yields, regioselectivities, and high 18O incorporation which are observed in the reactions we have employed to generate 1-O-acyl DHAP from glycolate intermediates.
Highlights
Methods are detailed for the preparation of [2'80]glycolate from chloroacetic acid and for the direct conversion of these intermediates to regiospecifically labeled [2-180]2-0-acylglycolic acids containing approximately 90% l80at the C-0-acyl bond
We previously reported a modest yield preparation of glycolic acid containing 84.5% l 8 0 in the C -2 alcohol group (4);this regiospecificallylabeled glycolic acid was converted (4)to mono-[ "O]acyl dihydroxyacetone phosphate (DHAP), using well known synthetic procedures ( 5, 6)
We undertook the optimization of yields and improved isolationlpurification techniques for each of the transformations in the preparation of pure 1-0-acyl DHAP from acyloxyacetic acid
Summary
Methods are detailed for the preparation of [2'80]glycolate from chloroacetic acid and for the direct conversion of these intermediates to regiospecifically labeled [2-180]2-0-acylglycolic acids containing approximately 90% l80at the C-0-acyl bond. Hexadecanoxyacetic acid was obtained from freshly prepared hexadecanoyl chloride and glycolic acid as reported (5), except that total yields after isolation and purification were improved to >95% by combining the recrystallized product (from hexane) with additional material derived from the mother liquors and purified by TLC on silica gel using hexane-ethyl ether-acetic acid 50:50:1 (v/v/v) for development (Rf 0.35).
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