Ferrocenylmethylation of estrone and estradiol: Structure, electrochemistry, and antiproliferative activity of new ferrocene–steroid conjugates

Conjugates of ferrocene with steroidal estrogens as selective antiproliferative agents against hormone‐dependent breast cancer cells are believed to be limited by the inherent estrogenicity of the conjugates. Motivated by a significant cytotoxicity of the ester of ferrocenecarboxylic acid and the ph...

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Published inApplied organometallic chemistry Vol. 34; no. 10
Main Authors Raičević, Vidak, Radulović, Niko, Jovanović, Ljiljana, Rodić, Marko, Kuzminac, Ivana, Jakimov, Dimitar, Wrodnigg, Tanja, Knedel, Tim‐Oliver, Janiak, Christoph, Sakač, Marija
Format Journal Article
LanguageEnglish
Published Chichester Wiley Subscription Services, Inc 01.10.2020
Subjects
Alkylation
Antiproliferatives
Biotechnology
Breast cancer
Chemistry
Conjugates
cyclic voltammetry
Dimethylformamide
Doxorubicin
Electrochemical analysis
Electrochemistry
Estrogens
ferrocene
Fibroblasts
Mass spectrometry
NMR
Nuclear magnetic resonance
Potassium carbonate
Sex hormones
Steroids
Toxicity
Tumors
X‐ray crystallography
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Abstract Conjugates of ferrocene with steroidal estrogens as selective antiproliferative agents against hormone‐dependent breast cancer cells are believed to be limited by the inherent estrogenicity of the conjugates. Motivated by a significant cytotoxicity of the ester of ferrocenecarboxylic acid and the phenolic group of estradiol toward such a cell line, we decided to explore other a‐ring‐tethered ferrocene–estra‐1,3,5(10)‐triene conjugates; in this study, ferrocenylmethylation of estradiol and estrone with (ferrocenylmethyl)trimethylammonium iodide in the presence of potassium carbonate yielded five new compounds (1–5). In dimethylformamide, only O‐alkylated products formed (1 and 3), while a mixture of O‐ and C‐alkylated products was obtained when methanol was used (2, 4, and 5 in addition to 1 and 3). All compounds were characterized using 1D and 2D NMR, IR, UV–Vis, and high‐resolution mass spectrometry. Two of the conjugates, a 3‐O‐ and a 4‐C‐alkylated derivative of estrone (3 and 4, respectively), were also analyzed using single‐crystal X‐ray diffraction. A cyclic voltammetric investigation of the electrochemical properties of 1–5 was performed. While some of the compounds were shown to have a slight‐to‐moderate antiproliferative activity against at least one of the six tested human tumor cell lines and were nontoxic to (the noncancerous) fetal human fibroblasts, compound 2 (4‐(ferrocenylmethyl)estra‐1,3,5(10)‐triene‐3,17β‐diol) with an IC50 value of 0.34 μM was found to be more active against the hormone‐dependent breast cancer cell line MCF‐7 than doxorubicin. These results suggest that a‐ring substitution of steroidal estrogens is a plausible strategy for preparing other ferrocene–steroid conjugates acting against tumor cells. Five new conjugates of ferrocene with steroidal estrogens were prepared by ferrocenylmethylation of estrone and estradiol. One of the compounds was shown to be a potent and selective antiproliferative agent acting against hormone‐dependent breast cancer cells.
AbstractList Conjugates of ferrocene with steroidal estrogens as selective antiproliferative agents against hormone‐dependent breast cancer cells are believed to be limited by the inherent estrogenicity of the conjugates. Motivated by a significant cytotoxicity of the ester of ferrocenecarboxylic acid and the phenolic group of estradiol toward such a cell line, we decided to explore other a ‐ring‐tethered ferrocene–estra‐1,3,5(10)‐triene conjugates; in this study, ferrocenylmethylation of estradiol and estrone with (ferrocenylmethyl)trimethylammonium iodide in the presence of potassium carbonate yielded five new compounds ( 1 – 5 ). In dimethylformamide, only O ‐alkylated products formed ( 1 and 3 ), while a mixture of O ‐ and C ‐alkylated products was obtained when methanol was used ( 2 , 4 , and 5 in addition to 1 and 3 ). All compounds were characterized using 1D and 2D NMR, IR, UV–Vis, and high‐resolution mass spectrometry. Two of the conjugates, a 3‐ O ‐ and a 4‐ C‐ alkylated derivative of estrone ( 3 and 4 , respectively), were also analyzed using single‐crystal X‐ray diffraction. A cyclic voltammetric investigation of the electrochemical properties of 1 – 5 was performed. While some of the compounds were shown to have a slight‐to‐moderate antiproliferative activity against at least one of the six tested human tumor cell lines and were nontoxic to (the noncancerous) fetal human fibroblasts, compound 2 (4‐(ferrocenylmethyl)estra‐1,3,5(10)‐triene‐3,17β‐diol) with an IC 50 value of 0.34 μM was found to be more active against the hormone‐dependent breast cancer cell line MCF‐7 than doxorubicin. These results suggest that a ‐ring substitution of steroidal estrogens is a plausible strategy for preparing other ferrocene–steroid conjugates acting against tumor cells.
Conjugates of ferrocene with steroidal estrogens as selective antiproliferative agents against hormone‐dependent breast cancer cells are believed to be limited by the inherent estrogenicity of the conjugates. Motivated by a significant cytotoxicity of the ester of ferrocenecarboxylic acid and the phenolic group of estradiol toward such a cell line, we decided to explore other a‐ring‐tethered ferrocene–estra‐1,3,5(10)‐triene conjugates; in this study, ferrocenylmethylation of estradiol and estrone with (ferrocenylmethyl)trimethylammonium iodide in the presence of potassium carbonate yielded five new compounds (1–5). In dimethylformamide, only O‐alkylated products formed (1 and 3), while a mixture of O‐ and C‐alkylated products was obtained when methanol was used (2, 4, and 5 in addition to 1 and 3). All compounds were characterized using 1D and 2D NMR, IR, UV–Vis, and high‐resolution mass spectrometry. Two of the conjugates, a 3‐O‐ and a 4‐C‐alkylated derivative of estrone (3 and 4, respectively), were also analyzed using single‐crystal X‐ray diffraction. A cyclic voltammetric investigation of the electrochemical properties of 1–5 was performed. While some of the compounds were shown to have a slight‐to‐moderate antiproliferative activity against at least one of the six tested human tumor cell lines and were nontoxic to (the noncancerous) fetal human fibroblasts, compound 2 (4‐(ferrocenylmethyl)estra‐1,3,5(10)‐triene‐3,17β‐diol) with an IC50 value of 0.34 μM was found to be more active against the hormone‐dependent breast cancer cell line MCF‐7 than doxorubicin. These results suggest that a‐ring substitution of steroidal estrogens is a plausible strategy for preparing other ferrocene–steroid conjugates acting against tumor cells.
Conjugates of ferrocene with steroidal estrogens as selective antiproliferative agents against hormone‐dependent breast cancer cells are believed to be limited by the inherent estrogenicity of the conjugates. Motivated by a significant cytotoxicity of the ester of ferrocenecarboxylic acid and the phenolic group of estradiol toward such a cell line, we decided to explore other a‐ring‐tethered ferrocene–estra‐1,3,5(10)‐triene conjugates; in this study, ferrocenylmethylation of estradiol and estrone with (ferrocenylmethyl)trimethylammonium iodide in the presence of potassium carbonate yielded five new compounds (1–5). In dimethylformamide, only O‐alkylated products formed (1 and 3), while a mixture of O‐ and C‐alkylated products was obtained when methanol was used (2, 4, and 5 in addition to 1 and 3). All compounds were characterized using 1D and 2D NMR, IR, UV–Vis, and high‐resolution mass spectrometry. Two of the conjugates, a 3‐O‐ and a 4‐C‐alkylated derivative of estrone (3 and 4, respectively), were also analyzed using single‐crystal X‐ray diffraction. A cyclic voltammetric investigation of the electrochemical properties of 1–5 was performed. While some of the compounds were shown to have a slight‐to‐moderate antiproliferative activity against at least one of the six tested human tumor cell lines and were nontoxic to (the noncancerous) fetal human fibroblasts, compound 2 (4‐(ferrocenylmethyl)estra‐1,3,5(10)‐triene‐3,17β‐diol) with an IC50 value of 0.34 μM was found to be more active against the hormone‐dependent breast cancer cell line MCF‐7 than doxorubicin. These results suggest that a‐ring substitution of steroidal estrogens is a plausible strategy for preparing other ferrocene–steroid conjugates acting against tumor cells. Five new conjugates of ferrocene with steroidal estrogens were prepared by ferrocenylmethylation of estrone and estradiol. One of the compounds was shown to be a potent and selective antiproliferative agent acting against hormone‐dependent breast cancer cells.
Author Wrodnigg, Tanja
Jakimov, Dimitar
Sakač, Marija
Rodić, Marko
Jovanović, Ljiljana
Knedel, Tim‐Oliver
Janiak, Christoph
Raičević, Vidak
Radulović, Niko
Kuzminac, Ivana
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Snippet Conjugates of ferrocene with steroidal estrogens as selective antiproliferative agents against hormone‐dependent breast cancer cells are believed to be limited...
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crossref
wiley
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SubjectTerms Alkylation
Antiproliferatives
Biotechnology
Breast cancer
Chemistry
Conjugates
cyclic voltammetry
Dimethylformamide
Doxorubicin
Electrochemical analysis
Electrochemistry
Estrogens
ferrocene
Fibroblasts
Mass spectrometry
NMR
Nuclear magnetic resonance
Potassium carbonate
Sex hormones
Steroids
Toxicity
Tumors
X‐ray crystallography
Title Ferrocenylmethylation of estrone and estradiol: Structure, electrochemistry, and antiproliferative activity of new ferrocene–steroid conjugates
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