2730-71-4Relevant articles and documents
Synthesis, anticancer activity and molecular docking studies of N-deacetylthiocolchicine and 4-iodo-N-deacetylthiocolchicine derivatives
Klejborowska, Greta,Urbaniak, Alicja,Maj, Ewa,Wietrzyk, Joanna,Moshari, Mahshad,Preto, Jordane,Tuszynski, Jack A.,Chambers, Timothy C.,Huczyński, Adam
, (2021)
Colchicine is a plant alkaloid with a broad spectrum of biological and pharmacological properties. It has found application as an anti-inflammatory agent and also shows anticancer effects through its ability to destabilize microtubules by preventing tubulin dimers from polymerizing leading to mitotic death. However, adverse side effects have so far restricted its use in cancer therapy. This has led to renewed efforts to identify less toxic derivatives. In this article, we describe the synthesis of a set of novel double- and triple-modified colchicine derivatives. These derivatives were tested against primary acute lymphoblastic leukemia (ALL-5) cells and several established cancer cell lines including A549, MCF-7, LoVo and LoVo/DX. The novel derivatives were active in the low nanomolar range, with 7-deacetyl-10-thiocolchicine analogues more potent towards ALL-5 cells while 4-iodo-7-deacetyl-10-thiocolchicine analogues slightly more effective towards the LoVo cell line. Moreover, most of the synthesized compounds showed a favorable selectivity index (SI), particularly for ALL-5 and LoVo cell lines. Cell cycle analysis of the most potent molecules on ALL-5 and MCF-7 cell lines revealed contrasting effects, where M-phase arrest was observed in MCF-7 cells but not in ALL-5 cells. Molecular docking studies of all derivatives to the colchicine-binding site were performed and it was found that five of the derivatives showed strong β-tubulin binding energies, lower than ?8.70 kcal/mol, while the binding energy calculated for colchicine is ?8.09 kcal/mol. The present results indicate that 7-deacetyl-10-thiocolchicine and 4-iodo-7-deacetyl-10-thiocolchicine analogues constitute promising lead compounds as chemotherapy agents against several types of cancer.
Synthesis, antiproliferative activity and molecular docking of thiocolchicine urethanes
Majcher, Urszula,Urbaniak, Alicja,Maj, Ewa,Moshari, Mahshad,Delgado, Magdalena,Wietrzyk, Joanna,Bartl, Franz,Chambers, Timothy C.,Tuszynski, Jack A.,Huczyński, Adam
, p. 553 - 566 (2018)
A number of naturally occurring compounds such as paclitaxel, vinblastine, combretastatin, and colchicine exert their therapeutic effect by changing the dynamics of tubulin and its polymer form, microtubules. The identification of tubulin as a potential target for anticancer drugs has led to extensive research followed by clinical development of numerous compounds from several families. In this paper we report on the design, synthesis and in vitro evaluation of a group of thiocolchicine derivatives, modified at ring-B, labelled here compounds 4–14. These compounds have been obtained in a simple reaction of 7-deacetyl-10-thiocolchicine 3 with eleven different alcohols in the presence of triphosgene. These novel agents have been checked for anti-proliferative activity against four human cancer cell lines and their mode of action has been confirmed as colchicine binding site inhibition (CBSI) using molecular docking. Molecular simulations provided rational tubulin binding models for the tested compounds. On the basis of in vitro tests, derivatives 4–8 and 14 demonstrated the highest potency against MCF-7, LoVo and A549 tumor cell lines (IC50 values = 0.009–0.014 μM). They were more potent and characterized by a higher selectivity index than several standard chemotherapeutics including cisplatin and doxorubicin as well as unmodified colchicine. Further, studies revealed that colchicine and its several derivatives arrested MCF-7 cells in mitosis, while its selected derivatives caused microtubule depolymerization.
Antitumor Agents-CLXXV. Anti-tubulin action of (+)-thiocolchicine prepared by partial synthesis
Shi, Qian,Verdier-Pinard, Pascal,Brossi, Arnold,Hamel, Ernest,Lee, Kuo-Hsiung
, p. 2277 - 2282 (1997)
(+)-Thiocolchicine (2b) was prepared from (±)-colchicine (1) in a five-step reaction sequence that included chromatographic separation of appropriate camphanylated diastereomers. Acid hydrolysis of the (+)-diastereomer, followed by acetylation, yielded the desired product 2b. (+)-Thiocolchicine has 15-fold lower inhibitory activity against tubulin polymerization than (-)-thiocolchicine, and is 29-fold less potent for inhibiting growth of human Burkitt lymphoma cells. The enantiomer 2a, prepared from the (-)-camphanylated diastereomer, had potent activity in all assays comparable to that of (-)-thiocolchicine prepared by other methods. These results support the hypothesis that the proper configuration of colchicine-related compounds is an important requirement for their anti-tubulin action.
Derivatives of thiocolchicine and its applications to CEM cells treatment using 19F Magnetic Resonance ex vivo
Bartusik, Dorota,Tomanek, Boguslaw,Lattova, Erika,Perreault, Helene,Tuszynski, Jack,Fallone, Gino
, p. 1 - 6 (2010)
It was shown, that cultured ex vivo human T-Lymphoblastoid (CEM) cells respond to synthesized thiocolchicine and fluorine thiocolchicine derivatives. The preparation of derivatives with substitution at C-3 and C-7 is described. All compounds were used at concentration from 1 nM to 1000 nM. Inhibitory effects of these compounds were examined in the three-dimensional (3-D) culture and cells morphology during treatment was monitored using 9.4 T MRI system. We performed studies of these compounds in CEM cells ex vivo using 1H and 19F Magnetic Resonance Imaging (MRI), 19F Magnetic Resonance Spectroscopy (MRS), High Performance Liquid Chromatography coupled with Ultra Violet (HPLC-UV) and Electron Impact Mass Spectrometry (EIMS). The results of the multi-technique approach are consistent with the fact that the new derivatives are more efficient than colchicine and thiocolchicine ex vivo. Crown Copyright
7-Deacetyl-10-alkylthiocolchicine derivatives-new compounds with potent anticancer and fungicidal activity
Kurek, Joanna,Kwa?niewska-Sip, Patrycja,Myszkowski, Krzysztof,Cofta, Grzegorz,Murias, Marek,Barczyński, Piotr,Jasiewicz, Beata,Kurczab, Rafa?
, p. 1708 - 1714 (2018)
A series of new semi-synthetic 7-deacetyl-10-alkylthiocolchicne derivatives with ethyl, n-propyl, i-propyl and n-butyl substituents were synthesised and characterised by spectroscopic methods, elemental analysis, DFT calculations and molecular docking simulations. All the synthesized compounds have been tested for fungicidal and anticancer activities against SKOV-3, LoVo, MCF-7, MDA-MB-231 and the lung-derived fibroblast CCD39Lu. All the new colchicine derivatives exhibit significantly higher cytotoxicity towards the SKOV-3 tumour cell line than the natural product-colchicine. The most effective cytotoxic agents were 7-deacetyl-10-n-buthylthiocolchicine and 7-deacetyl-10-i-propylthiocolchicine. Among all the compounds tested, 7-deacetyl-10-n-buthylthiocolchicine exhibited the highest fungicidal activity. Molecular modeling indicated that several mutations found in the β-tubulin unit of the tested fungal strains are crucial for antifungal activity and selectivity of 7-deacetyl-10-n-buthylthiocolchicine. The obtained results may be useful for the development of selective colchicine derivatives as effective fungicidal and/or anticancer drugs.
Synthesis and antiproliferative screening of novel analogs of regioselectively demethylated colchicine and thiocolchicine
Czerwonka, Dominika,Huczyński, Adam,Katrusiak, Andrzej,Maj, Ewa,Sobczak, Szymon,Wietrzyk, Joanna
supporting information, (2020/03/17)
Colchicine, a pseudoalkaloid isolated from Colchicum autumnale, has been identified as a potent anticancer agent because of its strong antimitotic activity. It was shown that colchicine modifications by regioselective demethylation affected its biological properties. For demethylated colchicine analogs, 10-demethylcolchicine (colchiceine, 1) and 1-demethylthiocolchicine (3), a series of 12 colchicine derivatives including 5 novel esters (2b-c and 4b-d) and 4 carbonates (2e-f and 4e- f) were synthesized. The antiproliferative activity assay, together with in silico evaluation of physicochemical properties, confirmed attractive biological profiles for all obtained compounds. The substitutions of H-donor and H-acceptor sites at C1 in thiocolchicine position provide an efficient control of the hydration affinity and solubility, as demonstrated for anhydrate 3, hemihydrate 4e and monohydrate 4a.