Publications by authors named "Jovana J Ajdukovic"

Most breast and prostate cancers are caused by abnormal production or action of steroidal hormones. Hormonal drugs based on steroid scaffolds represent a significant class of chemotherapeutics that are routinely used in chemotherapy. In this study, the synthesis of new 17a-homo lactone and 17α-(pyridine-2-ylmethyl) androstane derivatives with hydrazide and semicarbazone motifs is presented.

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Cancer remains a major health concern worldwide. The most frequently diagnosed types of cancer are caused by abnormal production or action of steroid hormones. In the present study, the synthesis and structural characterization of new heterocyclic androstane derivatives with D-homo lactone, 17α-(pyridine-2''-ylmethyl) or 17(E)-(pyridine-2''-ylmethylidene) moiety are presented.

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The major challenge in the fight against cancer is to design new drugs that will be more selective for cancer cells, with fewer side effects. Synthetic steroids such as cyproterone, fulvestrant, exemestane and abiraterone are approved powerful drugs for the treatment of hormone-dependent diseases such as breast and prostate cancers. Therefore, androstane derivatives in 17-substituted, 17a-homo lactone and 16,17-seco series, with potent anticancer activity, were selected for pharmacokinetic and druglike predictions from the absorption, distribution, metabolism and excretion (ADME) models.

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Steroid anticancer drugs are the focus of numerous scientific research efforts. Due to their high cytotoxic effects against tumor cells, some natural or synthetic steroid compounds seem to be promising for the treatment of different classes of cancer. In the present study, fourteen novel -alkylated oxyimino androst-4-ene derivatives were synthesized from isomerically pure 3-oximes, using different alkylaminoethyl chlorides.

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Marine soft corals are known as a good source of biologically active compounds, among which a large number of steroid compounds are identified. Structures and activities of these compounds have been used in drug discovery and development. From 2015 to 2020, 179 new steroid compounds were isolated from soft corals and structurally characterized.

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Article Synopsis
  • The study focuses on analyzing the lipophilicity and ADMET profiles of a series of androstane derivatives to understand their potential as antiproliferative agents against breast adenocarcinoma cells.
  • It employs 3D-QSAR and ligand-based pharmacophore modeling techniques to predict the compounds' effects and identify key structural features that enhance their anticancer activity.
  • The findings aim to guide the design and synthesis of new, effective androstane derivatives, providing a framework for developing potential anticancer drugs.
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New A-ring pyridine fused androstanes in 17a-homo-17-oxa (d-homo lactone), 17α-picolyl or 17()-picolinylidene series were synthesized and validated by X-ray crystallography, HRMS, IR and NMR spectroscopy. Novel compounds , , and were prepared by treatment of 4-en-3-one or 4-ene-3,6-dione d-modified androstane derivatives with propargylamine catalyzed by Cu(ii), and evaluated for potential anticancer activity using human cancer cell lines and recombinant targets of steroidal anti-cancer drugs. Pyridine fusion to position 3,4 of the A-ring may dramatically enhance affinity of 17α-picolyl compounds for CYP17 while conferring selective antiproliferative activity against PC-3 cells.

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Article Synopsis
  • Researchers developed a new cancer inhibitor using a compound called derivative A that was effectively captured in nano-sized carriers made from hydroxyapatite coated with chitosan-PLGA.
  • The study demonstrated that these spherical carriers target lung cells when administered intravenously and investigated their selective toxicity towards cancerous lung cells compared to healthy cells.
  • Results showed that the carriers were more toxic to cancerous cells, exhibiting nearly three times greater cytotoxicity, while maintaining over 80% viability of healthy cells with lower concentrations of derivative A.
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Article Synopsis
  • The study explores a drug delivery system using hydroxyapatite nanoparticles coated with chitosan-poly(d,l)-lactide-co-glycolide (HAp/Ch-PLGA) that target lung cells, specifically for cancer treatment.
  • The researchers loaded these particles with a chemotherapeutic agent, 17β-hydroxy-17α-picolyl-androst-5-en-3β-yl-acetate, which showed selective anticancer activity against lung cancer cells while preserving healthy cells.
  • Results indicated a sustained release of the drug and demonstrated significant cytotoxic effects on cancer cells while maintaining high viability for normal lung cells, positioning the composite particles as a promising platform for targeted cancer therapies.
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The selection of the most promising anticancer compounds from the pool of the huge number of synthesized molecules is a quite complex task. There are many compounds characterization approaches which can suggest the best structural features of a molecule with the highest antiproliferative effect on the certain type of cancer cell lines. One of these approaches is the lipophilicity determination of compounds and the analysis of its correlation with the anticancer activity.

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Biological investigation was conducted to study in vitro antiproliferative and pro-apoptotic potential of selected 17α-picolyl and 17(E)-picolinylidene androstane derivatives. The antiproliferative impact was examined on six human tumor cell lines, including two types of breast (MCF-7 and MDA-MB-231), prostate (PC3), cervical (HeLa), colon (HT 29) and lung cancer (A549), as well as one normal fetal lung fibroblasts cell line (MRC-5). All derivatives selectively decreased proliferation of estrogen receptor negative MDA-MB-231 breast cancer cells after 48 h and 72 h treatment and compounds showed time-dependent activity.

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17α-hydroxylase-C17,20-lyase (P45017α) is a key regulator enzyme of the steroid hormone biosynthesis in both the adrenals and the testes. Inhibition of this enzyme can block androgen synthesis in an early step, and may thereby be useful in the treatment of several androgen-dependent diseases. We developed radio-substrate in vitro incubation methods for the determination of the distinct 17α-hydroxylase and C17,20-lyase activities of the enzyme using rat testicular homogenate as enzyme source.

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The heterocyclic ring at C-17 position of the androstane compounds plays an important role in biological activity. The aim of the present study was to synthesize and evaluate potential antitumor activity of different A-modified 17α-picolyl and 17(E)-picolinylidene androstane derivatives. In several synthetic steps, novel derivatives bearing the hydroximino, nitrile or lactame functions in A-ring were synthesized and characterized according to the spectral data, by mass analysis as well as XRD analysis (compounds 6, 13 and 15).

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A convenient microwave assisted solvent free synthesis as well as conventional synthesis of salicyloyloxy and 2-methoxybenzoyloxy androstane and stigmastane derivatives 7-19 from appropriate steroidal precursors 1-6 and methyl salicylate is reported. The microwave assisted synthesis in most cases was more successful regarding reaction time and product yields. It was more environmentally friendly too, compared to the conventional method.

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Article Synopsis
  • * The compounds were validated using spectroscopy and X-ray crystallography, confirming their structures.
  • * Virtual screening indicated that 17(E)-picolinylidene can interact effectively with the CYP17A1 target, showing potential for new prostate cancer treatments, especially since some derivatives displayed significant antiproliferative activity against prostate cancer cells.
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New 17-picolyl and 17-picolinylidene androstane derivatives, 3-10, 15, 18, 19, 22 and 23, were synthesized starting from 17α-picolyl-androst-5-en-3β,17β-diol (1) and 17(Z)-picolinylidene-androst-5-en-3β-ol (2). Reaction of 1 with m-chloroperoxybenzoic acid gives 5α,6α-epoxy N-oxide derivative 3, or, with Jones reagent, 3,6-dione derivative 4; while 17α-picolyl-androst-5-en-3β,4α,17β-triol (5) or 3β,4β,17β-triol (6) derivatives are obtainable from 1 using SeO(2) in dioxane. Base-catalyzed tosyl group elimination from 7 or 9 affords AB conjugated derivatives 8 and 10.

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