5α-reductase inhibitors, antiviral and anti-tumor activities of some steroidal cyanopyridinone derivatives

We herein report the 5α-reductase inhibitors, antiviral and anti-tumor activities of some synthesized heterocyclic cyanopyridone and cyanothiopyridone derivatives fused with steroidal structure. Initially the acute toxicity of the compounds was assayed via the determination of their LD₅₀. All the compounds, except 3b, were interestingly less toxic than the reference drug (Prednisolone^®). Seventeen heterocyclic derivatives containing a cyanopyridone or cyanothiopyridone rings fused to a steroidal moiety were synthesized and screened for their 5α-reductase inhibitors, antiviral and anti-tumor activities comparable to that of Anastrozole, Bicalutamide, Efavirenz, Capravirine, Ribavirin, Oseltamivir and Amantadine as the reference drugs. Some of the compounds exhibited better 5α-reductase inhibitors, antiviral and anti-tumor activities than the reference drugs. The detailed 5α-reductase inhibitors, antiviral and anti-tumor activities of the synthesized compounds were reported.     

Synthesis, in silico metabolic and toxicity prediction of some novel imidazolinones derivatives as potent anticonvulsant agents

A series of 1,2,4-trisubstituted 5-imidazolinone derivatives were synthesized by Erlenmeyer condensation of benzoylglycine (hippuric acid) with different aldehydes in the presence of sodium acetate and acetic anhydride. The derivatives of the compounds were prepared by condensation of some known sulpha drugs with 5-oxazolone derivatives. The anticonvulsant activity of the compounds was determined by the protection of pentylenetetrazole-induced convulsions that was ranged from 10 to 60%. The compounds with p-OCH?, p-OH and o-Cl substitutions in the phenyl ring on 4(th) position of the imidazolinone ring exhibited good anticonvulsant activity. In silico metabolic and toxicity studies showed that all the compounds in the series are not likely to exhibit toxicity except the compounds IIIa, IIIb, VIa and VIb, that is predicted to show 29% mutagenicity and 53% irritation in comparison to the other compounds. The predicted lethal effect and hERG toxicity of the compounds showed that IIa, IVa, Va and Vb might be toxic at higher concentrations. The results successfully establish the synthesized imidazolinone derivatives as novel compounds with anticonvulsant properties, low predicted cardiotoxicity and lethal effects thus can be promising leads for further development as novel anticonvulsants.     

Synthesis and structural analysis of a series of d-glucose derivatives as low molecular weight gelators

Low molecular weight gelators are an interesting new type of compounds that are important in supramolecular chemistry and advanced materials. Previously, we had synthesized several acyl derivatives of methyl 4,6-O-benzylidene-α-d-glucopyranoside and found that a number of terminal acetylene-containing esters are good gelators. To understand the structure requirement of the acyl chains, we synthesized a series of analogs containing different functional groups including aryl, alkenyl, and halogen derivatives. X-ray crystal structures of a monoester and a diester derivative were also obtained to help understand the relationship between structure and gelation. For good gelation properties, the carboxyl derivatives should possess alkyl groups containing a terminal acetylene group and aryl derivatives.     

Antihistamine, anticholinergic and cardiovascular effects of 2-substituted-4-phenylquinoline derivatives

Eleven new derivatives of 4-phenylquinoline, having various substituents at the 2-position of the quinoline ring, were previously synthesized. The antidepressant activities of these derivatives were demonstrated by their antagonism to reserpine-induced hypothermia in mice. The ED50 values were found to be in the range of 12-42 mg/kg (imipramine is 21.0 mg/kg). In the present work, comparative studies of the effects of these new drugs on the cholinergic and histaminergic (H1) systems, as well as their effects on the cardiovascular system, are presented. Both imipramine and trazodone were utilized as standards representing typical and atypical antidepressant drugs, respectively. All these new compounds have very low antihistaminic (H1) activities, as compared to imipramine. In addition, a clear cut separation of the antidepressant activity from the antihistaminic (H1) activity was observed. These compounds have weak anticholinergic (atropine-like properties) activity as compared to imipramine, using the isolated guinea-pig ileum. Animal studies of the cardiac toxicity of these compounds showed reduced lethality for some of them as compared to imipramine. Arrhythmias commonly associated with imipramine were absent for most of these compounds. The effects of these compounds on the heart conduction were determined by electrocardiographic studies. Although some of these compounds do not interfere with heart conduction, as compared to imipramine most were inferior to trazodone. Correlation between the pharmacological activities and structural modifications of these derivatives has also been observed.     

Relationship between the chemical structures and biological activities (toxicity, mutagenic and antitumor) in newly synthesized derivatives of pyrazolo pyrimidines

The relationship between chemical structure, micronucleus-inducing and antitumor activities was studied in four newly synthesized pyrazolo pyrymidine compounds (DGB-216, DGB-227, DGB-228 and DGB-331). In bone marrow erythrocytes of mice no one of compounds was active. Only DGB-216 has slight antitumor activity and increases the mean life span of mice with Ehrlich ascite carcinoma by 11%, while others were practically non-active. Changes in the chemical structures of the compounds lead to substantial changes in the acute toxicity only. The search of antitumor compounds among the derivatives of -6-etoxycarbonyl-pyrazolo[1,5a]-pyrymidine and -2-methyl-pyrazolo[1,5a]-pyrymidine is useless, as it has been shown in the present investigation. But the search of compounds with antitumor properties among derivatives of pyrazolo pyrymidines is a perspective idea because recently some very active antitumor compounds based on mentioned strusture were synthesized in Italy and the USA.     

Synthesis,crystal structure determination,biological screening and docking studies of N1-substituted derivatives of 2,3-dihydroquinazolin-4(1H)-one as inhibitors of cholinesterases

Pursuing the strategy of developing potent AChE inhibitors, we attempted to carry out the N¹-substitution of 2,3-dihydroquinazolin-4(1H)-one core. A set of 32 N-alkylated/benzylated quinazoline derivatives were synthesized, characterized and evaluated for their inhibition against cholinesterases. N-alkylation of the series of the compounds reported previously (N-unsubstituted) resulted in improved activity. All the compounds showed inhibition of both enzymes in the micromolar to submicromolar range. Structure activity relationship (SAR) of the 32 derivatives showed that N-benzylated compounds possess good activity than N-alkylated compounds. N-benzylated compounds 2ad and 2af were found very active with their IC₅₀ values toward AChE in submicromolar range (0.8 µM and 0.6 µM respectively). Binding modes of the synthesized compounds were explored by using GOLD (Genetic Optimization for Ligand Docking) suit v5.4.1. Computational predictions of ADMET studies reveal that all the compounds have good pharmacokinetic properties with no AMES toxicity and carcinogenicity. Moreover, all the compounds are predicted to be absorbed in human intestine and also have the ability to cross blood brain barrier. Overall, the synthesized compounds have established a structural foundation for the design of new inhibitors of cholinesterase.     

Novel thiosemicarbazone derivatives as potential antitumor agents: Synthesis, physicochemical and structural properties, DNA interactions and antiproliferative activity

The paper describes synthesis of several novel thiosemicarbazone derivatives. Furthermore, crystal and molecular structure of 4-diethylamino-salicylaldehyde 4-phenylthiosemicarbazone revealed planarity of conjugated aromatic system, which suggested the possibility of DNA binding by intercalation, especially for here studied naphthalene derivatives. However, here presented DNA binding studies excluded this mode of action. Physicochemical and structural properties of novel derivatives were compared with previously studied analogues, taken as reference compounds, revealing distinctive differences. In addition, novel thiosemicarbazone derivatives (1, 2 and 5–8) clearly display stronger antiproliferative activity on five tumor cell lines than the reference compounds 3 and 4, which supports their further investigation as potential antitumor agents.     

Synthesis,Antiproliferative and Cytotoxic Activities,DNA Binding Features and Molecular Docking Study of Novel Enamine Derivatives

Novel enamine derivatives were synthesized from the reaction of lactone and chalcones and their antiproliferative and cytotoxic activities against six cancer cell lines (e. g., HeLa, HT29, A549, MCF7, PC3 and Hep3B) and one normal cell lines (e. g., FL) were investigated along with their mode of interactions with CT‐DNA. Most of the enamine derivatives with IC₅₀ values of 86–168 μM demonstrated much stronger antiproliferative activity than the starting molecules against the cancer cells. While, among the enamine derivatives, four compounds displayed higher cytotoxic potency than the control drugs (5‐fluorouracil and cisplatin) against the Hep3B cell lines, these compounds did not exhibit any significant toxicity against normal cells, FL. The UV/VIS spectral data suggest that eight compounds cause hypochromism with a slight bathochromic shift (～6 nm), indicating that they bind to the DNA by way of an intercalative or minor groove binding mode. The binding constants of the compounds are in the range of 0.1×103 M^?1–2.3×104 M^?1. The antiproliferative activity of studied enamine derivatives could possibly be due to their DNA binding as well as their cytotoxic properties. In addition to these assays, the chalcones and enamine derivatives were investigated by molecular docking to calculate the synergistic effect of antiproliferative activities against six human cancer cell lines.     

TQFL12, a novel synthetic derivative of TQ,inhibits triple-negative breast cancer metastasis and invasion through activating AMPK/ACC pathway

Thymoquinone (TQ) has been reported as an anti-tumour drug widely studied in various tumours, and its mechanism and effect of which has become a focus of current research. However, previous studies from our laboratory and other groups found that TQ showed weak anti-tumour effects in many cancer cell lines and animal models. Therefore, it is necessary to modify and optimize the structure of TQ to obtain new chemical entities with high efficiency and low toxicity as candidates for development of new drugs in treating cancer. Therefore, we designed and synthesized several TQ derivatives. Systematic analysis, including in vitro and in vivo, was conducted on a panel of triple-negative breast cancer (TNBC) cells and mouse model to demonstrate whether TQFL12, a new TQ derivative, is more efficient than TQ. We found that the anti-proliferative effect of TQFL12 against TNBC cells is significantly stronger than TQ. We also demonstrated TQFL12 affects different aspects in breast cancer development including cell proliferation, migration, invasion and apoptosis. Moreover, TQFL12 inhibited tumour growth and metastasis in cancer cell–derived xenograft mouse model, with less toxicity compared with TQ. Finally, mechanism research indicated that TQFL12 increased AMPK/ACC activity by stabilizing AMPKα, while molecular docking supported the direct interaction between TQFL12 and AMPKα. Taken together, our findings suggest that TQFL12, as a novel chemical entity, possesses a better inhibitory effect on TNBC cells and less toxicity in both in vitro and in vivo studies. As such, TQFL12 could serve as a potential therapeutic agent for breast cancer.     

Novel Quinazolinone Derivatives: Potential Synthetic Analogs for the Treatment of Glaucoma,Alzheimer's Disease and Diabetes Mellitus

Quinazolinones, which represent an important part of nitrogen-containing six-membered heterocyclic compounds, are frequently used in drug design due to their wide biological activity properties. Therefore, the novel quinazolinones were synthesized from the reaction of acylated derivatives of 4-hydroxy benzaldehyde with 3-amino-2-alkylquinazolin-4(3H)-ones with good yields (85–94 %) and their structures were characterized using Fourier-transform Infrared (FT-IR), Nuclear Magnetic Resonance (¹H-NMR, ¹³C-NMR), and High-Resolution Mass Spectroscopy (HR-MS). As the application of the synthesized compounds, their inhibition properties of the synthesized compounds on α-Glucosidase (α-Glu), Acetylcholinesterase (AChE), Butyrylcholinesterase (BChE), and Carbonic anhydrase I–II (hCA I–II) metabolic enzymes were investigated. All compounds showed inhibition at nanomolar level with the K_i values in the range of 12.73±1.26–93.42±9.44 nM for AChE, 8.48±0.92–25.84±2.59 nM for BChE, 66.17±5.16–818.06±44.41 for α-Glu, 2.56±0.26–88.23±9.72 nM for hCA I, and 1.68±0.14–85.43±7.41 nM for hCA II. Molecular docking study was performed to understand the interactions of the most potent compounds with corresponding enzymes. Also, absorption, distribution, metabolism, excretion, and toxicity (ADME/T) properties of the compounds were investigated.     

Action of the alkyl derivatives of amphotericin B on the conductivity of bilayer lipid membranes

Amphotericin B alkyl derivatives increased conductivity of bilayer membranes by formation of channels in them. The properties of such channels were studied. A new method for determination of the polyene antibiotic toxicity is described. The method is based on measurement of the constant of the relaxation time on the antibiotic removal from the membrane solution. It was shown that the amphotericin B alkyl derivatives had very low toxicity for the mammalian cells and were highly toxic for the fungal cells. These antibiotics may be used as new effective antifungal compounds.     

Design,Synthesis, and Antitumor Activities of Isomers of Artemisinin Dimer Derivatives

In recent years, numerous studies have reported on the anti-tumor properties of artemisinin and its derivatives. However, the relationship between their artemisinin chirality and activity remains unknown. In this study, we synthesized a series of artemisinin dimer derivatives with three different chiral structures and tested their antiproliferative activity in MCF-7 and HepG2 cells using the CCK-8 assay. Interestingly, we discovered that artemisinin dimer derivatives with β, β and α, β conformations at C-10 exhibited stronger anti-tumor activity than those with an α, α configuration in MCF-7 and HepG2 cells. Notably, compound 4 showed an activity of 0.06 μM in MCF-7 cells. This study demonstrates the relationship between the conformation and activity of artemisinin dimer derivatives, and these derivatives have the potential to be developed into anti-cancer drugs.     

Novel components of the human metabolome: the identification, characterization and anti-inflammatory activity of two 5-androstene tetrols

Two natural 5-androstene steroid tetrols, androst-5-ene-3β,7β,16α,17β-tetrol (HE3177) and androst-5-ene-3α,7β,16α,17β-tetrol (HE3413), were discovered in human plasma and urine. These compounds had significant aqueous solubility, did not bind or transactivate steroid-binding nuclear hormone receptors, and were not immunosuppressive in murine mixed-lymphocyte studies. Both compounds appear to be metabolic end products, as they were resistant to primary and secondary metabolism. Both were orally bioavailable, and were very well tolerated in a two-week dose-intensive toxicity study in mice. Anti-inflammatory properties were found with exogenous administration of these compounds in rodent disease models of multiple sclerosis, lung injury, chronic prostatitis, and colitis.     

Membrane effects of the polyene antibiotic amphotericin B and of some of its derivatives on lymphocytes

Amphotericin B (AmB) exhibits immunomodulating properties in mice.In vitro studies on lymphocytes, in relation with these properties, are reported here with AmB and two of its derivatives: the N-Fructosyl (N-Fru AmB) and the N-thiopropionyl (AmBSH) derivatives. Interactions of these molecules with thymocytes, a sensitive cell type, demonstrated that the extent of binding is not a toxicity parameter. In contrast, membrane fludity changes have been observed and appeared to be related to toxicity.Experiments performed with normal B lymphocytes have shown that Amphotericin B derivatives were more potent polyclonal B cell activators than the parent compound. To go further in the understanding of these events, we have investigated in a B cell line WEHI 231, the changes in intracellular Ca²⁺ and membrane potential induced by AmB and AmBSH. The two polyenes were shown to induce membrane depolarization but no intracellular Ca²⁺ increase.     

New quaternary ammonium camphor derivatives and their antiviral activity,genotoxic effects and cytotoxicity

The synthesis and biological evaluation of a novel series of dimeric camphor derivatives are described. The resulting compounds were studied for their antiviral activity, cyto- and genotoxicity. Compounds 3a and 3d in which the quaternary nitrogen atoms are separated by the C5H10 and С9H18 aliphatic chain, exhibited the highest efficiency as an agent inhibiting the reproduction of the influenza virus A(H1N1)pdm09. The cytotoxicity data of compounds 3 and 4 revealed their moderate activity against malignant cell lines; compound 3f had the highest activity for the CEM-13 cells. These results show close agreement with the data of independent studies on toxicity of these compounds, in particular that the toxicity of compounds strongly depends on spacer length.     

Synthesis and in vivo diuretic activity of some novel pyrimidine derivatives

A series of 1,6-dihydropyrimidine-2-amine derivatives and 1,6-dihydropyrimidine-2-thiol derivatives were synthesized by the reaction of substituted 1,3-diphenylprop-2-en-1-one (chalcones) with guanidine hydrochloride and thiourea, respectively. All the synthesized compounds were in good agreement with elemental and spectral data. The synthesized compounds were screened in vivo for diuretic activity. The four compounds 2d, 2e, 3d and 3e, which showed moderate to good diuretic activity, were evaluated for their toxicity studies and none of the compounds showed any toxicity of the liver as compared with control. However, compounds 3e and 3d showed diuretic properties more than that of standard (acetazolamide) and were long acting. Overall, compound 3e, 6-(2,6-dichlorophenyl)-4-(pyridin-2-yl)-1,6-dihydropyrimidine-2-thiol, was found to be the most promising candidate of the series.     

Quantitative assessment of the noncovalent inhibition of sickle hemoglobin gelation by phenyl derivatives and other known agents.

The ability of a variety of phenyl derivatives to inhibit sickle cell hemoglobin gelation was placed on a quantitative scale by parallel equilibrium and kinetic assays. Modifications of the phenyl ring studied include polar, nonpolar, and charged substituents, added aromatic rings, and loss of aromaticity. Other noncovalent inhibitors previously reported to have high potency were measured and placed on the same quantitative scale. Some phenyl derivatives were found to be as effective an any other known noncovalent antigelling agent. The phenyl compounds penetrate easily into red cells, and their potency is tolerant to chemical modification, which holds out the possibility of designing low-toxicity derivatives. On the negative side, the level of potency obtainable appears to be inadequate for clinical use. The best phenyl inhibitors display a functionally defined inhibitory constant (K1) of 75 mM, and it can be estimated that inhibitor concentrations over 20 mM would be necessary to obtain minimal clinically significant benefit. Furthermore, with the variety of modifications tested here, no impressive increase in activity could be achieved over that found in the simplest phenyl compounds.     

Antitumor properties of substituted (αE)-α-(1H-indol-3-ylmethylene)benzeneacetic acids or amides

A novel class of indole derivatives characterized by a (αE)-α-(1H-indol-3-ylmethylene)benzeneacetic acid or amide scaffold was synthesized. These derivatives, assayed for cell-growth inhibition activity against a panel of six different tumor cell lines, showed strong antiproliferative activity and selectivity mainly towards DU145 cell line. In particular, compounds 2d–m and 5 stand out for their cell growth inhibitory activity and, among them, compound 2d emerged for its selectivity towards DU145 with respect to other tested tumor cell lines. DU145 treated with 1 μM of 2d for 72 h showed p21^Cip1 induction and suppression of Akt signaling together with induction of Rb. From a computational point of view, two different approaches were used in order to study topology and electronic properties of the novel compounds and to shed light on their drug-likeness properties. Firstly, topological and electronic features of the compounds endowed with the most relevant biological activity were deepened; in parallel, some ADME properties like solubility and permeability were predicted.     

Mutagenic activity of nitracrine derivatives in Salmonella typhimurium: relationship to drug physicochemical parameters, and to bacterial uvrB and recA genes and plasmid pKM101

To determine whether it is possible to separate antitumour and mutagenic properties in the nitracrine series, a number of 4-substituted derivatives of the hypoxia-selective drug nitracrine have been evaluated for their mutagenic effects at three loci in several strains of Salmonella typhimurium differing in DNA-repair capacity (uvrB, recA, plasmid pKM101). The drugs divided into two series in terms of their biological effects. Group A compounds (nitracrine and its Cl, F, Me and OMe derivatives) were very toxic to bacteria, and uvrB and recA deletions enhanced toxicity by 10-80-fold. Mutagenic potency was high, being slightly enhanced by uvrB and reduced by recA deletions. In contrast the toxicities and mutagenic potentials of Group B compounds (COOMe, NMe2, and two other bulky amine derivatives) were reduced by at least an order of magnitude, with uvrB and recA deletions showing lesser influence. The COOMe derivative was the only compound showing greater effects at the hisC3076 locus than the hisD3052 or hisG46 loci. The data suggest that all the compounds cause mutations through intercalation and/or monoadduct formation, but only for the COOMe derivative is intercalation the dominant mode of action. Group A compounds appear to have the additional ability to cross-link DNA, a property which amounts for their high potency but which is not compatible with bulky 4-substituents. Apart from these generalizations, there was considerable variation in mutagenic efficiency (as measured by the maximum numbers of revertant colonies) within each series. Of the compounds studied, the 4-OMe derivative appears to best retain the desirable antitumour properties of nitracrine while showing greatly-reduced mutagenic potential, and is an interesting lead for further development.