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Silvia Turroni,
Manlio Tolomeo,
Gianfranco Mamone,
Gianluca Picariello,
Elisa Giacomini,
Patrizia Brigidi, Marinella Roberti,
Stefania Grimaudo,
Rosaria Maria Pipitone,
Antonietta Di Cristina,
Maurizio Recanatini
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ABSTRACT: Over the past years, we synthesized a series of new molecules that are hybrids of spirocyclic ketones as complexity-bearing cores with bi- and ter-phenyls as privileged fragments. Some of these newly-shaped small molecules showed antiproliferative, pro-apoptotic and differentiating activity in leukemia cell lines. In the present study, to investigate more in depth the mechanisms of action of these molecules, the protein expression profiles of K562 cells treated with or without the compounds and were analyzed using two-dimensional gel electrophoresis coupled with mass spectrometry. Proteome comparisons revealed several differentially expressed proteins, mainly related to cellular metabolism, chaperone activity, cytoskeletal organization and RNA biogenesis. The major results were validated by Western blot and qPCR. To attempt integrating findings into a cellular signaling context, proteomic data were explored using MetaCore. Network analysis highlighted relevant relationships between the identified proteins and additional potential effectors. Notably, qPCR validation of central hubs showed that the compound induced high mRNA levels of the transcriptional factors EGR1 and HNF4-alpha; the latter to our knowledge is reported here for the first time to be present in K562 cells. Consistently with the known EGR1 involvement in the regulation of differentiation along megakaryocyte lineage, -treated leukemia cells showed a marked expression of glycoprotein IIb/IIIa (CD41) and glycoprotein Ib (CD42), two important cell markers in megakaryocytic differentiation, together with morphological aspects of megakaryoblasts and megakaryocytes.
PLoS ONE 01/2013; 8(2):e57650. · 4.09 Impact Factor
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ABSTRACT: Leishmania parasites are able to undergo apoptosis (programmed cell death), similarly to mammalian cells. Recently it was demonstrated in vitro the anti-leishmanial effect of some natural and synthetic stilbenoids including resveratrol and piceatannol. In this study we evaluated the Leishmanicidal activity of a pool of stilbene derivatives which had previously shown high apoptotic efficacy against neoplastic cells. All the compounds tested were capable to decrease the parasite viability in a dose-dependent manner. Trans-stilbenes proved to be markedly more effective than cis-isomers. This was different from that observed in tumor cells in which cis-stilbenes were more potent cytotoxic agents. Trans-3,4',5-trimethoxy-3'-amino-stilbene (TTAS) was the most active stilbene showing in Leishmania infantum a LD(50) value of 2.6 μg/mL. In contrast TTAS showed a low toxicity when tested on normal hemopoietic cells. This compound induced apoptosis in parasites by disrupting the mitochondrial membrane potential. Moreover it shows the ability to block Leishmania parasites in G(2)-M phase of cell cycle in agreement with the data obtained by affinity chromatography that identify tubulin as the putative target of TTAS. In conclusion, our results indicate that some stilbene derivatives are highly effective as anti-leishmanial agents and TTAS represents a pro-apoptotic agent in Leishmania parasites that merit further in vivo investigation.
Experimental Parasitology 10/2012; · 2.12 Impact Factor
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ABSTRACT: Polo-like kinases (PLKs) are a family of serine/threonine kinases that play crucial roles in multiple stages of mitosis. PLK1 is the most studied member of the family. It is overexpressed in a wide spectrum of cancer types and is a promising target in oncology. Most of PLK1 inhibitors are ATP-competitive. Despite the structural similarities among various kinases, several inhibitors are selective. Some areas of the PLK1 active site are important for selectivity against other kinases. These include a small pocket formed by Leu 132 in the hinge region, a bulky phenylalanine and a small cysteine at the bottom and in the roof of the ATP pocket, respectively, and an unusual concentration of positively charged residues in the solvent-exposed region. Many ATP-competitive inhibitors are heterocyclic systems able to interact with the unique features of the PLK1 binding site. Other inhibitors target regions outside the ATP pocket, such as the substrate binding domain or a hydrophobic pocket, formed when the kinase is in the inactive conformation. An alternative approach to obtain specificity and to overcome drug resistance often associated with kinase inhibitors is the inhibition of the polo-box domain (PBD) of PLK1. The PBD is unique for the family of PLKs and is essential for PLK functions; so it is a useful target for the development of selective and potent inhibitors for clinical uses. In this review some PLK inhibitors are reported, focusing on chemical structures, structure-activity-relationships (SAR) and biological activities. The great potential of these compounds could open promising perspectives. Moreover, a combination of polo-like kinases inhibitors with other anticancer drugs might offer new opportunities for cancer therapy.
Current Medicinal Chemistry 06/2012; 19(23):3937-48. · 4.86 Impact Factor
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ABSTRACT: Molecular knowledge of hERG blocking liability can offer the possibility of optimizing lead compounds in a way that eliminates potentially lethal side effects. In this study, we computationally designed, synthesized, and tested a small series of "minimally structured" molecules. Some of these compounds were remarkably potent against hERG (6, IC(50) = 2.4 nM), allowing us to identify the minimal structural requirements for hERG blocking liability.
Journal of Medicinal Chemistry 04/2012; 55(8):4010-4. · 4.80 Impact Factor
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Gianpaolo Chiriano,
Angela De Simone,
Francesca Mancini,
Daniel I Perez,
Andrea Cavalli,
Maria Laura Bolognesi,
Giuseppe Legname,
Ana Martinez,
Vincenza Andrisano,
Paolo Carloni, Marinella Roberti
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ABSTRACT: In this work, we report a rational structure-based approach aimed at the discovery of new 2-aminoimidazoles as β-secretase inhibitors. Taking advantage of a microwave-assisted synthetic protocol, a small library of derivatives was obtained and biologically evaluated. Two compounds showed promising activities in both enzymatic and cellular assays. Moreover, one of them exhibited the capability to cross the blood-brain barrier as assessed by the parallel artificial membrane permeability assay.
European journal of medicinal chemistry 12/2011; 48:206-13. · 3.27 Impact Factor
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ABSTRACT: One of the most prominent alterations in cancer cells is their strict dependence on the glycolytic pathway for ATP generation. This observation led to the evaluation of glycolysis inhibitors as potential anticancer agents. The inhibition of lactate dehydrogenase (LDH) is a promising way to inhibit tumor cell glucose metabolism without affecting the energetic balance of normal tissues. However, the success of this approach depends chiefly on the availability of inhibitors that display good selectivity. We identified a compound (galloflavin, CAS 568-80-9) which, in contrast to other inhibitors of human LDH, hinders both the A and B isoforms of the enzyme. To determine the mechanism of action, we collected LDH-A and -B inhibition data in competition reactions with pyruvate or NADH and evaluated the results using software for enzyme kinetics analysis. We found that galloflavin inhibits both human LDH isoforms by preferentially binding the free enzyme, without competing with the substrate or cofactor. The calculated Ki values for pyruvate were 5.46 μM (LDH-A) and 15.06 μM (LDH-B). In cultured tumor cells, galloflavin blocked aerobic glycolysis at micromolar concentrations, did not interfere with cell respiration, and induced cell death by triggering apoptosis. To our knowledge, the inhibition of LDH is, to date, the only biochemical effect described for galloflavin. Because galloflavin is not commercially available, we also describe herein a procedure for its synthesis and report its first full chemical characterization.
ChemMedChem 11/2011; 7(2):311-7. · 3.15 Impact Factor
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ChemMedChem 03/2011; 6(4):601-5. · 3.15 Impact Factor
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ABSTRACT: In this letter, we report on the sequential application of two different in silico screening approaches combined with bioassays aimed at the identification of small organic molecules as potential BACE-1 inhibitors. Two hits endowed of micromolar inhibitory potency were selected, and the binding mode of the most potent compound was further characterized through docking simulations.
Chemical Biology & Drug Design 01/2011; 77(4):268-71. · 2.28 Impact Factor
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ABSTRACT: A library of 11 entries, featuring a 2,5-diamino-1,4-benzoquinones nucleus as spacer connecting two aromatic prion recognition motifs, was designed and evaluated against prion infection. Notably, 6-chloro-1,2,3,4-tetrahydroacridine 10 showed an EC(50) of 0.17 μM, which was lower than that displayed by reference compound BiCappa. More importantly, 10 possessed the capability to contrast prion fibril formation and oxidative stress, together with a low cytotoxicity. This study further corroborates the bivalent strategy as a viable approach to the rational design of anti-prion chemical probes.
Journal of Medicinal Chemistry 11/2010; 53(22):8197-201. · 4.80 Impact Factor
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ABSTRACT: With the aim of enhancing the structural complexity and diversity of an existing collection of bi- and terphenyl compounds, we synthesized hybrid molecules comprising of spirocyclic ketones (a complexity-bearing core) and bi/terphenyls (privileged fragments). Compounds 1, 3, 4, and 6 showed well-defined activity on apoptosis and differentiation, making them potential leads for development as new anticancer agents and chemical probes to study signaling networks in neoplastic cells.
Journal of Medicinal Chemistry 09/2009; 52(21):6936-40. · 4.80 Impact Factor
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ABSTRACT: Aurora kinases represent one of the emerging targets in oncology drug discovery. These kinases play important role in centrosome maturation, chromosome separation and cytokinesis. They are overexpressed in a broad range of tumor cell lines and human primary tumors; thus, their inhibition may open up new opportunities to develop novel anti-cancer agents. A range of potent small molecule inhibitors of Aurora kinases have been identified and found to have antitumor activity. Some of these agents are undergoing evaluation in clinical trials. Most synthetic Aurora kinase inhibitors are ATP-competitive, which makes selectivity a potential problem. However, despite the high sequence similarity in the ATP-binding pocket, several compounds are very specific in their targets. The ability of the inhibitors to extend their binding to regions adjacent to the ATP pocket, including the hydrophobic back pocket, contributes to the selectivity, since structural differences can be found in these regions. A common structural feature of the inhibitors is a planar heterocyclic ring system able to occupy the adenino-binding region and to mimic the adenine-kinase interactions, by making backbone hydrogen bond interactions, but also by extensive hydrophobic contacts within this part of the pocket. In this review we would like to analyse the main inhibitors, focusing on chemical structures, SAR and biological properties. The specific targeting of these kinases could result in highly active drugs with minimal collateral host toxicity. Moreover, the combination of Aurora inhibitors with other chemotherapeutic agents may open new opportunities in cancer chemotherapy.
Current Medicinal Chemistry 02/2009; 16(16):1949-63. · 4.86 Impact Factor
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ABSTRACT: We studied the mechanisms and sites of activator actions of 2-[2-(3,4-dichloro-phenyl)-2,3-dihydro-1H-isoindol-5-ylamino]-nicotinic acid [PD307243 (PD)] and 1,3-bis-(2-hydroxy-5-trifluoromethyl-phenyl)-urea [NS1643 (NS)] on the human ether-a-go-go-related gene (hERG) channel expressed in oocytes and COS-7 cells. PD and NS affected hERG in a concentration-dependent manner, reaching a maximal increase in current amplitude by 100% and > or = 300% (1-s test pulse to 0 mV), with apparent K(d) values of 3 and 20 microM, respectively. Both drugs slowed hERG inactivation. NS additionally shifted the activation curve in the negative direction, accelerated activation, and slowed deactivation. Kinetic model simulations suggested that the activator effects of PD and NS could be largely accounted for by their effects on the hERG gating kinetics. Both drugs worked from outside the cell membrane but their binding sites seemed to be distinctly different. Perturbing the conformation of outer vestibule/external pore entrance (by cysteine substitution at high-impact positions or cysteine side chain modification at intermediate-impact positions) prevented the activator effect of NS but not that of PD. Furthermore, the peptide toxin BeKm-1, which bound to the outer mouth of the hERG channel, suppressed NS effect but potentiated PD effect. We propose that NS is a "gating-modifier": it binds to the outer vestibule/pore entrance of hERG and increases current amplitudes by promoting channel activation while retarding inactivation. The activator effect of PD was prevented by external quaternary ammonium cations or dofetilide, which approached the hERG selectivity filter from opposite sides of the membrane and depleted K(+) ions in the selectivity filter. We suggest that PD may work as a "pore-modifier" of the hERG channel.
Molecular pharmacology 06/2008; 73(6):1709-21. · 4.53 Impact Factor
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ABSTRACT: In this continuation of our research on derivatives containing the stilbene privileged structure or that are derived from it, we report the results of further studies carried out on the previously initiated collection of compounds. We used a parallel synthetic approach to rapidly obtain small sets of compounds and started the annotation of the library in progress by calculating some physicochemical properties to be eventually correlated with biological activities. A pharmacophore for the antiproliferative activity was also built to summarize the features of the library. We evaluated the antiproliferative and pro-apoptotic activities of all compounds as well as the cell-cycle effects of some representative compounds. After in-depth investigations, 3'-phenyl-[1,1';4',1'']terphenyl-4,3'',5''-triol showed the most interesting biological profile, as it interferes with cell-cycle progression at the G(1)-->S transition, acting on retinoblastoma phosphorylation and inducing cell differentiation.
ChemMedChem 02/2008; 3(2):345-55. · 3.15 Impact Factor
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ABSTRACT: Inhibition of Cdc25 phosphatases is a strategy for the discovery and development of novel anticancer agents targeting the cell cycle. A number of potent small molecule Cdc25 inhibitors have been identified. They are derived from different chemical classes; the most potent and selective derivatives are quinones. The electrophilic properties of quinones suggest the possibility of inducing a sulphydryl arylation of a cysteine in the enzyme active site. It is also possible that inhibition is due to redox cycling activity and production of ROS. Thus, oxidation of the thiolate form of cysteine occurs, leading to inactivation of enzymatic activity. Many of these inhibitors are active on all three Cdc25 phosphatases, cause cell cycle arrest and inhibit the growth of several human tumor cell lines. The possibility of toxicities induced by ROS, prompted the search for non-quinoid antagonists. It is not yet clear how these compounds bind within the enzyme's active site. Generally, electrophilic moieties able to trap the catalytic cysteine play an important role. Another strategy for identifying Cdc25 inhibitors is the development of compounds able to interact with the conserved loop region instead of phosphate.. In this review a summary of the most interesting Cdc25 inhibitors is given together with their biological activity. SAR studies concerning the importance of some structural features will be described.
Current Medicinal Chemistry 02/2008; 15(6):573-80. · 4.86 Impact Factor
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ABSTRACT: The development of prodrugs that are enzymatically activated into anticancer agents is a promising perspective in cancer therapy. Many nitrogen-containing quinoid heterocycles have been reported to show antitumor effect. The principal interest in these compounds lies on their potential to produce tumor-selective toxicity. Selectivity occurs by difference in oxygen tension between normal and tumor tissue and by levels of the required activating enzymes. In this review a summary of the most interesting heterocyclic quinones is given together with their biological property. SAR studies concerning the importance of some structural features will be described.
Mini Reviews in Medicinal Chemistry 06/2007; 7(5):481-9. · 2.53 Impact Factor
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Daniele Simoni, Marinella Roberti,
Francesco Paolo Invidiata,
Enrico Aiello,
Stefania Aiello,
Paolo Marchetti,
Riccardo Baruchello,
Marco Eleopra,
Antonietta Di Cristina,
Stefania Grimaudo,
Nicola Gebbia,
Lucia Crosta,
Francesco Dieli,
Manlio Tolomeo
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ABSTRACT: Several stilbenes, related to known resveratrol, have been synthesized and tested for their anticancer effect on HL60 leukemia cell line, taking particular care of the cell cycle analysis. The most potent compound was the known (Z)-3,4',5-trimethoxystilbene (6b) which was active as apoptotic agent at 0.24 microM. Differently from other stilbenes (including resveratrol) that induced a prevalent recruitment of cells in S phase of cell cycle, we found a peculiar behavior of 6b that caused a decrease of cells in all phases of cell cycle (G0-G1, S, and G2-M) and a proportional increase of apoptotic cells. The potent pro-apoptotic activity shown by compound 6b and its effects on cell cycle make this compound of great interest for further investigations.
Bioorganic & Medicinal Chemistry Letters 07/2006; 16(12):3245-8. · 2.55 Impact Factor
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ABSTRACT: To further explore the SAR of resveratrol-related trans-stilbene derivatives, here we describe the synthesis of (a) a series of 3,5-dimethoxy analogues in which a variety of substituents were introduced at positions 2', 3', 4', and 5' of the stilbene scaffold and (b) a second group of derivatives (2-phenylnaphthalenes and terphenyls) that incorporate a phenyl ring as a bioisosteric replacement of the stilbene alkenyl bridge. We thoroughly characterized all of the new compounds with respect to their apoptosis-inducing activity and their effects on the cell cycle. One of the new derivatives, 13g, behaved differently from the others, as it was able to block the cell cycle in the G(0)-G(1) phase and also to induce differentiation in acute myelogenous leukemia HL60 cells. Compared to resveratrol, the synthetic terphenyl 13g showed a more potent apoptotic and differentiating activity. Moreover, it was active on both multidrug resistance and Bcr-Abl-expressing cells that were resistant to resveratrol.
Journal of Medicinal Chemistry 06/2006; 49(10):3012-8. · 5.25 Impact Factor
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ABSTRACT: To further explore the SAR of resveratrol-related trans-stilbene derivatives, here we describe the synthesis of (a) a series of 3,5-dimethoxy analogues in which a variety of substituents were introduced at positions 2‘, 3‘, 4‘, and 5‘ of the stilbene scaffold and (b) a second group of derivatives (2-phenylnaphthalenes and terphenyls) that incorporate a phenyl ring as a bioisosteric replacement of the stilbene alkenyl bridge. We thoroughly characterized all of the new compounds with respect to their apoptosis-inducing activity and their effects on the cell cycle. One of the new derivatives, 13g, behaved differently from the others, as it was able to block the cell cycle in the G0−G1 phase and also to induce differentiation in acute myelogenous leukemia HL60 cells. Compared to resveratrol, the synthetic terphenyl 13g showed a more potent apoptotic and differentiating activity. Moreover, it was active on both multidrug resistance and Bcr-Abl-expressing cells that were resistant to resveratrol.
04/2006;
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Manlio Tolomeo,
Stefania Grimaudo,
Antonietta Di Cristina, Marinella Roberti,
Daniela Pizzirani,
Maria Meli,
Luisa Dusonchet,
Nicola Gebbia,
Vincenzo Abbadessa,
Lucia Crosta,
Riccardo Barucchello,
Giuseppina Grisolia,
Francesco Invidiata,
Daniele Simoni
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ABSTRACT: Pterostilbene and 3,5-hydroxypterostilbene are the natural 3,5-dimethoxy analogs of trans-resveratrol and piceatannol, two compounds which can induce apoptosis in tumor cells. In previous studies we demonstrated the importance of a 3,5-dimethoxy motif in conferring pro-apoptotic activity to stilbene based compounds so we now wanted to evaluate the ability of pterostilbene and 3,5-hydroxypterostilbene in inducing apoptosis in sensitive and resistant leukemia cells. When tested in sensitive cell lines, HL60 and HUT78, 3'-hydroxypterostilbene was 50-97 times more potent than trans-resveratrol in inducing apoptosis, while pterostilbene appeared barely active. However, both compounds, but not trans-resveratrol and piceatannol, were able to induce apoptosis in the two Fas-ligand resistant lymphoma cell lines, HUT78B1 and HUT78B3, and the multi drug-resistant leukemia cell lines HL60-R and K562-ADR (a Bcr-Abl-expressing cell line resistant to imatinib mesylate). Of note, pterostilbene-induced apoptosis was not inhibited by the pancaspase-inhibitor Z-VAD-fmk, suggesting that this compound acts through a caspase-independent pathway. On the contrary, 3'-hydroxypterostilbene seemed to trigger apoptosis through the intrinsic apoptotic pathway: indeed, it caused a marked disruption of the mitochondrial membrane potential delta psi and its apoptotic effects were inhibited by Z-VAD-fmk and the caspase-9-inhibitor Z-LEHD-fmk. Moreover, pterostilbene and 3'-hydroxypterostilbene, when used at concentrations that elicit significant apoptotic effects in tumor cell lines, did not show any cytotoxicity in normal hemopoietic stem cells. In conclusion, our data show that pterostilbene and particularly 3'-hydroxypterostilbene are interesting antitumor natural compounds that may be useful in the treatment of resistant hematological malignancies, including imatinib, non-responsive neoplasms.
The International Journal of Biochemistry & Cell Biology 09/2005; 37(8):1709-26. · 4.63 Impact Factor
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Daniele Simoni,
Giuseppe Giannini, Marinella Roberti,
Riccardo Rondanin,
Riccardo Baruchello,
Marcello Rossi,
Giuseppina Grisolia,
Francesco Paolo Invidiata,
Stefania Aiello,
Silvia Marino,
Sabrina Cavallini,
Anna Siniscalchi,
Nicola Gebbia,
Lucia Crosta,
Stefania Grimaudo,
Vincenzo Abbadessa,
Antonietta Di Cristina,
Manlio Tolomeo
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ABSTRACT: New terphenyl derivatives have been synthesized and tested for their effect on cell survival in serum-free cultures. These compounds protected HL60 cells from death and supported their growth with an activity higher than that of the natural 14-hydroxy-retro-retinol. Terphenyls 26 and 28 also possess antiapoptotic activity on neuronal cells, proving them as possible candidates for the treatment of neurodegenerative and ischemic diseases.
Journal of Medicinal Chemistry 07/2005; 48(13):4293-9. · 5.25 Impact Factor
