516-55-2Relevant articles and documents
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Mancera et al.
, p. 1286,1289 (1953)
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Synthesis of novel pregnane-based 20-carboxamides via palladium-catalysed aminocarbonylation
Mikle, Gábor,Zugó, Alexandra,Szatnik, Erzsébet,Maxim, Anita,Mahó, Sándor,Kollár, László
, p. 1861 - 1867 (2021/01/05)
20-Carboxamidopregnene derivatives, such as 3β-acetoxy-5α-pregn-20-ene-20-carboxamides and 5α-pregn-20-ene-20-carboxamides were synthesized from the widely accessible 3β-acetoxy-pregn-5,16-dien-20-one (PDA) using selective hydrogenation, hydrazine and iodoalkene formation, as well as palladium-catalysed aminocarbonylation. The 20-iodo-20-ene derivatives, obtained from the corresponding 20-keto derivatives via their hydrazones, served as substrates. 23 new 20-carboxamides were obtained using various N-nucleophiles ranging from simple primary amines to α-amino acid esters. The novelty of this methodology lies in the application of facile, moderate or high-yielding reactions to obtain otherwise hardly accessible steroidal 20-carboxamides of pharmaceutical importance. In other words, instead of the enzymatic or synthetic degradation of e.g., sterols or cholanic acids, functionalization of the basic skeleton (a ‘building-up’ approach) was used.
Predictable Selectivity in Remote C?H Oxidation of Steroids: Analysis of Substrate Binding Mode
Olivo, Giorgio,Capocasa, Giorgio,Ticconi, Barbara,Lanzalunga, Osvaldo,Di Stefano, Stefano,Costas, Miquel
supporting information, p. 12703 - 12708 (2020/06/02)
Predictability is a key requirement to encompass late-stage C?H functionalization in synthetic routes. However, prediction (and control) of reaction selectivity is usually challenging, especially for complex substrate structures and elusive transformations such as remote C(sp3)?H oxidation, as it requires distinguishing a specific C?H bond from many others with similar reactivity. Developed here is a strategy for predictable, remote C?H oxidation that entails substrate binding to a supramolecular Mn or Fe catalyst followed by elucidation of the conformation of the host-guest adduct by NMR analysis. These analyses indicate which remote C?H bonds are suitably oriented for the oxidation before carrying out the reaction, enabling prediction of site selectivity. This strategy was applied to late-stage C(sp3)?H oxidation of amino-steroids at C15 (or C16) positions, with a selectivity tunable by modification of catalyst chirality and metal.
Selective synthesis of the two main progesterone metabolites, 3α-hydroxy-5α-pregnanolone (allopregnanolone) and 3α-hydroxypregn-4-en-20-one, and an assessment of their effect on proliferation of hormone-dependent human breast cancer cells
Kuznetsov, Y. V.,Levina, I. S.,Mikhaevich, E. I.,Scherbakov, A. M.,Tserfas, M. O.,Zavarzin, I. V.
, p. 552 - 557 (2020/04/21)
A directed synthesis of two progesterone metabolites, allopregnanolone and 3a-hydroxy-pregn-4-en-20-one, from Δ16-pregnanolone and progesterone, respectively, was carried out by a reduction of the carbonyl groups in positions 3 and subsequent inversion of the configuration of the resulting alcohols by the Mitsunobu reaction. The selectivity of the reduction of the conjugated carbonyl group in position 3 of progesterone with sodium borohydride in the presence of cerium(III) chloride (Luche reduction) was demonstrated. The ef ect of the obtained metabolites on the proliferation of breast cancer cells of the MCF-7 and T47D lines under normal and steroid-free conditions was studied. It is shown that the ef ect of these compounds on the proliferation depends on the presence of additional steroids in the culture medium. Metabolites exerted small cytostatic ef ects on the growth of the MCF-7 cells under standard conditions, while the transfer of the cells to a steroid-free medium weakened these cytotoxic ef ects. In the experiments with the T47D line cells, the cell growth was stimulated under both standard and steroid-free conditions. Allopregnanolone and progesterone stimulate the growth to a greater extent under steroid-free conditions than under standard ones.
