1. Fluorescence-based assay of estrogen receptor using 12-oxo-9(11)-dehydroestradiol-17 beta.
- Author
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Katzenellenbogen JA, Carlson KE, Bindal RD, Neeley RL, Martin PM, and Magdelenat HP
- Subjects
- Animals, Chromatography, High Pressure Liquid, Cytosol metabolism, Female, Radioligand Assay, Rats, Sheep, Spectrometry, Fluorescence, Uterus metabolism, Estradiol analogs & derivatives, Fluorescent Dyes, Receptors, Estrogen analysis
- Abstract
12-Oxo-9(11)-dehydroestradiol-17 beta (12-oxo-E2) was used to assay estrogen receptor binding in uterine cytosol preparations by an indirect fluorescence assay. In alkaline solution, 12-oxo-E2 has a fluorescence excitation maximum at 402 nm (epsilon = 24,000) and an emission maximum at 480 nm (phi f = 0.57), and its fluorescence can be observed down to 5 X 10(-11) M. The minimum detection limit of 12-oxo-E2 is 25 fmol by spectrofluorometry and 5 fmol by HPLC-fluorometry. Although this compound is not appreciably fluorescent at neutral pH (i.e., at conditions under which it binds to the estrogen receptor), receptor binding by fluorometry can be measured indirectly: After equilibration of 12-oxo-E2 with the receptor preparation and removal of excess free ligand, the receptor-12-oxo-E2 complex is disrupted, and fluorescence measurements are made on the dissociated 12-oxo-E2 in alkaline medium. This fluorometric assay was validated quantitatively by performing simultaneously, on the same receptor preparation, radiometric and fluorometric assays with [3H]E2 and [3H]-12-oxo-E2. The radiometric determinations with both compounds gave nearly equivalent estimates of receptor site concentrations, but the fluorometric estimate of binding site concentration was somewhat less (70-85%) than that expected on the basis of the [3H]E2 radiometric assay. The use of 12-oxo-E2 in an indirect spectro- or HPLC-fluorometric assay provides a means for assaying estrogen receptor concentrations by fluorescence with a sensitivity approaching that of radiometric techniques.
- Published
- 1986
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