Dichlorotrifluoromethoxyacetic Acid: Preparation and Reactivity.

We describe the first gram scale preparation of the reagent dichlorotrifluoromethoxyacetic acid. This stable compound is obtained in five steps starting from the cheap diethylene glycol. The reactivity of the sodium salt of this fluorinated acid was also tested and allowed the preparation of new amides.

Effect of fluorination on the pharmacological profile of 11beta isomers of fulvestrant in breast carcinoma cells.

We describe the synthesis of an 11beta isomer 3 of the steroidal antiestrogen fulvestrant 2. Partial fluorination of the 11beta side chain in 3 leads to 4, which still shows strong antiproliferative activity on MCF-7 cells. However, unlike 2 and 3, compound 4 fails to down-regulate estrogen receptor alpha (ERalpha). This result suggests that ERalpha down-regulation is not a sine qua non condition for the antitumor activity of steroidal antiestrogens.

Fluorous tolerance of the estrogen receptor alpha as probed by 11-polyfluoroalkylestradiol derivatives.

The concern of this work was to try to delineate factors, inherent to fluorination, susceptible to influence estradiol binding to the estrogen receptor alpha (ERalpha). For this purpose, fluorinated chains were linked at 11beta position of the steroid (i.e., C(6)F(13), CH(2)CH(2)C(4)F(9), CH(2)CH(2)C(8)F(17)). Relative binding affinity (RBA) for ERalpha of these compounds and of other related fluorinated derivatives was compared to those of non-fluorinated analogs. Despite being relatively well accepted by the receptor, investigated compounds exhibited lower RBA values at 0 degrees C than their non-fluorinated counterparts. Nevertheless, heavily fluorinated chains were tolerated in so far as they are not too long (C-4) and insulated from the steroidal core by a two methylene spacer unit. Increase of the temperature of our binding assay (25 degrees C) failed to change the RBA values of two selected polyfluorohexyl derivatives while it drastically enhanced the value of the corresponding non-fluorinated analogs. Rigidity of the chain induced by fluorination as well as the oleophilic (fluorophobic) nature of the estradiol binding cavity of ERalpha is proposed to explain these properties.

Loss of antagonistic activity of tamoxifen by replacement of one N-methyl of its side chain by fluorinated residues.

Efforts to limit the metabolic alteration of the aminoalkyl side chain of tamoxifen by fluorination largely decrease its ER-mediated antagonistic properties in MCF-7 cells (i.e., ability to inhibit growth, to stabilize ER, and to modulate ERE and AP-1 transcriptional activity). This loss is associated with an enhancement of agonistic activity. Loss of interaction between Asp 351 and the nitrogen atom of tamoxifen provoked by the fluorination of its side chain may explain this property.

Synthesis of 11beta-perfluorohexylestradiol.

[reaction: see text] We report the synthesis of 11beta-perfluorohexylestradiol 1e using a perfluoroorganometallic reagent for the introduction of the fluorous part. This compound is useful for biological studies and for imaging the ERalpha estradiol receptor distribution in the whole cell by secondary ion mass spectrometry (SIMS). The key step of this synthesis involves the radical reduction of an 11beta-oxalate derivative. The stereochemical outcome of this reaction was studied for a range of C11 substituents, and we attempted to rationalize the apparent abnormal behavior of the phenyl group.

Synthesis, characterization and biological evaluation of 7 alpha-perfluoroalkylestradiol derivatives.

Linkage of a long CH(2 )side chain ('spacer') onto C-7 alpha of estradiol-17 beta (E(2)) does not abrogate the binding affinity of this hormone for its receptor. Our purpose was to assess whether the linkage of a CF(2 )side chain, which is more bulky and rigid, could also be accommodated by the estrogen receptor (ER). We describe here the synthesis of 7 alpha-perfluorohexylestradiol 7 by perfluoroalkylation of a key silylenolether 2 with FITS-6 (perfluorohexyl-phenyliodoniurn trifluoromethanesulfonate). 7 alpha-Trifluoromethylestradiol 10a was prepared as a fluorinated control compound by UV-light induced trifluoromethylation of 2 with Umemoto reagent (S-trifluoromethyldibenzo[b,d]thiophenium trifluoromethanesulfonate). Endocrine properties of these two E(2 )derivatives were tested on the MCF-7 breast cancer cell line. Our data reveal that rigidity of the side chain of 7 affected the association of its hormone moiety with the ER to the same extent as a long alkyl side chain. Rigidity also failed to abrogate estrogenicity, as demonstrated by the ability of 7 to enhance ERE-dependent transcription and cell growth. Compound retained the capacity of inducing down regulation of the receptor. Interestingly, no evidence of antiestrogenicity was recorded since this compound behaved like a weak estrogen, exerting a mitogenic effect at high concentration. Of note, control 10a displayed a higher binding affinity than 7 for ER and consequently acted like the latter, albeit with a higher efficiency. Selection of appropriate residues to be linked at the end of a long 7 alpha alkyl side chain is known to be essential for generating strong antiestrogenicity. One may hope that such a property may also hold for perfluorinated chains to produce antiestrogens with strong metabolic stability.