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1. Newly synthetized A2AAR antagonists as anti-inflammatory strategy in Parkinson's disease

Author

Barbalace MC, Freschi Michela, Scocco V, Lambertucci C, Hrelia S, Angeloni Cristina, FEBS Press, Barbalace MC, Freschi Michela, Scocco V, Lambertucci C, Hrelia S, and Angeloni Cristina

Subjects
A2A adenosine receptor, Parkinson’s disease, neuroprotection, A2AAR antagonists, neuroinflammation
Abstract

Parkinson’s disease (PD) represents the second most common neurodegenerative disorder worldwide. So far, available treat- ments possess mere symptomatic action and severe long-term side effects, so the development of neuroprotective strategies is highly needed. It is now widely recognized that neuroinflammation is crucial in PD, especially in the disease progression. Therefore, pharmacological treatments able to modulate the pathological immune response may reveal effective in slowing disease progression. The microglial cells are the key component of the brain immune system and can be activated by adenosine through the interaction with A2AARs (A2A adenosine receptors). Indeed, the modulation of purinergic receptors has been associated with a slower degeneration of nigrostriatal dopaminergic cells in PD. Since previous findings demonstrating the ability of A2AAR antagonist 8-ethoxy-9-ethyladenine (ANR94) to protect nigrostriatal neurons from neuroinflammation in an animal model of PD (1), several ad hoc-designed A2AAR antagonists (ANR94 ana- logues) have been synthetized and tested in activated BV-2 microglial cells. To mimic neuroinflammation BV-2 cells were exposed to 100 ng/mL LPS or 0.5 mM MPP+ for 24 h. The potential anti-inflammatory activity of ANR94 analogues were evaluated by MTT assay and measuring the reactive oxygen spe- cies (ROS) levels by DCF-DA probe, while gene expression anal- yses of inflammatory cytokines such as TNFa, IL-1b and the pro-inflammatory enzymes iNOS and COX-2 were performed by RT-PCR. Interestingly, the newly synthetized compounds were more effective than the lead compound ANR94 in counteracting inflammatory damage suggesting their potential use as therapeu- tic agent to prevent/counteract PD. Of course, animal and clini- cal studies are needed to investigate their in vivo activity. This work was supported by MIUR-PRIN n. 20152HKF3Z and University of Camerino n. FPI000065. 1. Pinna A et al. (2005) Eur J Pharmacol 512, 157–164.

Published
2021

7. Pharmacological postconditioning of the rabbit heart with non-selective, A1, A2A and A3 adenosine receptor agonists

Author

Bibli, S.-I. Iliodromitis, E.K. Lambertucci, C. Zoga, A. Lougiakis, N. Dagres, N. Volpini, R. Dal Ben, D. Kremastinos, D.T. Tsantili Kakoulidou, A. Cristalli, G. Andreadou, I.

Abstract

Objectives We investigated the effects of novel selective and non-selective adenosine receptor agonists (ARs) on cardioprotection. Methods Male rabbits divided into six groups were subjected to 30-min heart ischaemia and 3-h reperfusion: (1) control group, (2) postconditioning (PostC) group, (3) group A: treated with the non-selective agonist (S)-PHPNECA, (4) group B: treated with the A1 agonist CCPA, (5) group C: treated with the A2A agonist VT 7 and (6) group D: treated with the A3 agonist AR 170. The infarcted (I) and the areas at risk (R) were estimated as %I/R. In additional rabbits of all groups, heart samples were taken for determination of Akt, eNOS and STAT 3 at the 10th reperfusion minute. Key findings (S)-PHPNECA and CCPA reduced the infarct size (17.2±2.9% and 17.9±2.0% vs 46.8±1.9% in control, P

Published
2014

10. 8-(2-Furyl)adenine derivatives as A₂A adenosine receptor ligands

Author

Dal Ben, D, Buccioni, M, Lambertucci, C, Thomas, A, Klotz, Kn, Federico, S, Cacciari, Barbara, Spalluto, G, and Volpini, R.

Subjects
Purine derivatives, Adenine derivatives, Adenosine receptor antagonists, Adenosine receptors, Molecular modelling, Purinergic receptors
Published
2013

39. 2-Substituted 5′-N-Methylcarboxamidoadenosine (MECA) Derivatives as A 3 Adenosine Receptor Ligands.

Author

Vittori, S., Volpini, R., Lambertucci, C., Taffi, S., Klotz, K. N., and Cristalli, G.

Subjects
CHEMICAL affinity, CHEMICAL structure, CARBENES, PHYSICAL & theoretical chemistry, COMPLEX compounds
Abstract

Discusses the substitution of 5'-ethylcarboxamidoadenosine groups of compounds with methylcarboxamido substituents. Chemical structure of 5'-ethylcarboxamidoadenosine; Schematic diagram representing 5'-ethylcarboxamidoadenosine derivatives; Affinity of the compounds.

Published
2005
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40. A2B Adenosine Receptor Agonists: Synthesis and Biological Evaluation of 2-Phenylhydroxypropynyl Adenosine and NECA Derivatives †.

Author

Vittori, S., Costanzi, S., Lambertucci, C., Portino, F.R., Taffi, S., Volpini, R., Klotz, K.‐N., and Cristalli, G.

Subjects
ADENOSINES, RECEPTOR-ligand complexes, ALKYNES, ADENYLATE cyclase, CHEMISTRY
Abstract

In the search for agonists for the elusive A2B adenosine receptor subtypes, 2-phenylhydroxypropynyl-5'-N-methylcarboxamido adenosine (PHPMECA, 14), 2-phenylhydroxypropynyl-5'-N-propylcarboxamido adenosine (PHPPECA, 15), and N[sup6]-ethyl-2-phenylhy droxypropynyl-5'-N-ethylcarboxamidoadenosine (19) were syn-thesized on the basis that introduction of alkynyl chains in 2-position of adenosine derivatives resulted in reasonably good A2B potency compared to NECA [see N[sup6]-ethyl-2-phenylhydroxypropynyl adenosine (5)EC[sub50] = 1,700 nM and 2-phenylhy-droxypropynyl-5'-N-ethylcarboxamido adenosine (PHPNECA, 8)EC[sub50] = 1,100 nM, respectively]. Radioligand binding studies and adenylyl cyclase assays, performed with recently cloned human A[sub1], A[sub2A], and A[sub3] adenosine receptors, showed that these modifications produced a decrease in potency at A[sub2B] receptor, as well as a general reduction in affinity at the other receptor subtypes. On the other hand, the contemporary presence of an ethyl substituent in N[sup6]-position and of a 4'-ethylcarboxamido group in the same compounds led to (R,S)-N[sup6]-ethyl-2-phenylhy-droxypropynyl-5'-N-ethylcarboxamidoadenosine and (S)-N[sup6]-ethyl-2-phenylhydroxy-propynyl- 5'-N-ethylcarboxamidoadenosine, which did not show the expected increase in potency at A[sub2B] subtype. Hence, (S)-2-phenylhydroxypropynyl-5'-N-ethylcarbox-amidoadenosine [(S)-PHPNECA] with EC[sub50] A[sub2B] = 220 nM remains the most potent agonist at A[sub2B] receptor reported so far. [ABSTRACT FROM AUTHOR]

Published
2004
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41. 2-Phenylhydroxypropynyladenosine Derivatives as High Potent Agonists at A2B Adenosine Receptor Subtype.

Author

Lambertucci, C., Volpini, R., Costanzi, S., Taffi, S., Vittori, S., and Cristalli, G.

Subjects
*ADENOSINES, *CHEMICALS, *CELLS, *MOLECULES
Abstract

Adenosine derivatives bearing in 2-position the (R,S)- phenylhydroxypropynyl chain were evaluated for their potency at human A2B adenosine receptor, stably transfected on CHO cells, on the basis that (R,S)-2-phenylhydroxy-propynyl-5′-N-ethylcarboxyamidoadenosine [(R,S)-PHPNECA] was found to be a good agonist at the A2B receptor subtype. Biological studies demonstrated that the presence of small alkyl groups in N6-position of these molecules are well tolerated, whereas large groups abolished A2B potency. On the other hand, the presence of an ethyl group in the 4′-carboxamido function seems to be optimal, the (S)-PHPNECA resulting the most potent agonist at A2B receptor reported so far. [ABSTRACT FROM AUTHOR]

Published
2003
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42. 3′-DEOXYRIBOFURANOSE DERIVATIVES OF 1-DEAZA AND 3-DEAZA-ADENOSINE AND THEIR ACTIVITY AS ADENOSINE DEAMINASE INHIBITORS.

Author

Costanzi, S., Lambertucci, C., Volpini, R., Vittori, S., Lupidi, G., and Cristalli, G.

Subjects
*PURINES, *LIQUID ammonia, *CHEMICAL reactions, *NUCLEOSIDES, *ENZYME inhibitors
Abstract

2,6-Dichloro-1-deazapurine and 2,6-dichloro-3-deazapurine were coupled with 1,2-O-diacetyl-5-O-benzoyl-3-deoxy-β-D-ribofuranose. Deprotection of the obtained compounds and reaction with liquid ammonia gave the desired 2-chloroadenine nucleosides, which were dechlorinated to afford the corresponding 1-deaza and 3-deazaadenosine derivatives. Biological studies performed on ADA from calf intestine showed that these new nucleosides are inhibitors of the enzyme. [ABSTRACT FROM AUTHOR]

Published
2001
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43. SYNTHETIC PROCEDURE FOR THE PREPARATION OF NOVEL POTENT AND SELECTIVE A3 ADENOSINE RECEPTOR RADIOLIGANDS.

Author

Volpini, R., Costanzi, S., Lambertucci, C., Vittori, S., and Cristalli, G.

Subjects
METHYL groups, BIOSYNTHESIS, ADENOSINES, CELLS, METHYLAMINES
Abstract

2-Phenylethynyladenosine and its N6-methyl derivative were synthesized and evaluated in binding assays at human adenosine receptors stably transfected on CHO cells. Results showed that the N6-methyl-2-phenylethynyladenosine is endowed with very high affinity and selectivity at A3 receptor subtype. Hence, an alternative procedure for the synthesis of tritiated N6-methyl-2-phenylethynyladenosine was set up to introduce tritiated methylamine in the final step. [ABSTRACT FROM AUTHOR]

Published
2001
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44. COUPLING OF 2,6-DISUBSTITUTED PURINES TO RIBOSE-MODIFIED SUGARS.

Author

Vittori, S., Costanzi, S., Lambertucci, C., Volpini, R., and Cristalli, G.

Subjects
BIOSYNTHESIS, NUCLEAR magnetic resonance, PURINES, AMIDES
Abstract

1,2,3-Tri-O-acetyl-N-ethyl-β-D-ribofuranuronamide was synthesized in three steps starting from 1-O-methyl-(2,3-O-isopropylidene)-β-D-ribofuranuronic acid. Both the triacetyl and the 1-O-methyl-2,3-di-O-acetyl derivatives were coupled to the 2,6-dichloropurine to obtain the acetylated 1-(2,6-dichloro-9H-purin-9-yl)-1-deoxy-N-ethyl-β-D-erythro-pentofuranuronamide. 1H NMR and n.O.e. data accounted for both anomeric and N-7/N-9 isomeric configuration. [ABSTRACT FROM AUTHOR]

Published
2001
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45. Effects of 5‘-Phosphate Derivatives of 2-Hexynyl Adenosine and 2-Phenylethynyl Adenosine on Responses of Human Platelets Mediated by P2Y Receptors

Author

Cristalli, G., Podda, G. M., Costanzi, S., Lambertucci, C., Lecchi, A., Vittori, S., Volpini, R., Zighetti, M. L., and Cattaneo, M.

Abstract

Newly synthesized mono-, di-, and triphosphate of 2-alkynyl adenosines showed very different behavior in human platelet P2Y receptor models, according to the different alkynyl chains. In fact, 2-hexynyladenosine di- (5) and triphosphate (7) induced platelet shape change and aggregation and inhibited PGE1-induced increase in platelet cyclic AMP. On the contrary, the corresponding 2-phenylethynyladenosine di- (6) and triphosphate (8) did not induce platelet shape change or aggregation, but inhibited platelet aggregation induced by ADP.

Published
2005

46. N<SUP>6</SUP>-Alkyl-2-alkynyl Derivatives of Adenosine as Potent and Selective Agonists at the Human Adenosine A<INF>3</INF> Receptor and a Starting Point for Searching A<INF>2B</INF> Ligands

Author

Volpini, R., Costanzi, S., Lambertucci, C., Taffi, S., Vittori, S., Klotz, K.-N., and Cristalli, G.

Abstract

A series of N6-alkyl-2-alkynyl derivatives of adenosine (Ado) have been synthesized and evaluated for their affinity at human A1, A2A, and A3 receptors and for their potency at A2B adenosine receptor subtypes. The corresponding 2-(1-alkynyl) derivatives of 5‘-N-ethylcarboxamidoadenosine (NECA) and Ado are used as reference compounds. Binding studies demonstrated that the activities of 2-alkynylAdos were slightly increased for the adenosine A1 receptor and slightly decreased for both A3 and A2B subtypes compared to those of their corresponding NECA derivatives, whereas the A2A receptor affinities of the two series of nucleosides were similar. The presence of a methyl group on N6 of the 2-alkynyladenosines, inducing an increase in affinity at the human A3 receptor and a decrease at the other subtypes, resulted in an increase in A3 selectivity. In particular, 2-phenylethynyl-N6-methylAdo (8b) showed an A3 affinity in the low nanomolar range (Ki(A3) = 3.4 nM), with a A1/A3 and A2A/A3 selectivity of about 500 and 2500, respectively. These findings motivated us to search for the preparation of new selective radioligands for the A3 subtype; hence, a procedure to introduce a tritiated alkylamino group in these molecules was carried out. As far as the potency at the A2B receptor, the type of 2-alkynyl chain and the presence of the ethylcarboxamido group on the sugar seem to be very important; in fact, the (S)-2-phenylhydroxypropynylNECA [(S)-PHPNECA, 1e, EC50(A2B) = 0.22 μM] proved to be one of the most potent A2B agonist reported so far. On the other hand, the (S)-2-phenylhydroxypropynyl-N6-ethylAdo (9e, EC50(A2B) = 0.73 μM) showed a significantly increase of potency at the A2B subtype in comparison with the N6-methyl, N6-isopropyl, and the unsubstituted adenosine derivatives, although it resulted in being less potent than (S)-PHPNECA (1e, EC50(A2B) = 0.22 μM). These observations suggest that the introduction of an ethyl group in the N6-position and an ethylcarboxamido substituent in the 4‘-position of (S)-2-phenylhydroxypropynyladenosine could lead to a compound endowed with high potency at the A2B receptor.

Published
2002
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47. Synthesis and NMR-Driven Conformational Analysis of Taxol Analogues Conformationally Constrained on the C13 Side Chain

Author

Barboni, L., Lambertucci, C., Appendino, G., Velde, D. G. Vander, Himes, R. H., Bombardelli, E., Wang, M., and Snyder, J. P.

Abstract

Analogues of Taxol (paclitaxel) with the side chain conformationally restricted by insertion of a carbon linker between the 2‘-carbon and the ortho-position of the 3‘-phenyl ring were synthesized. Biological evaluation of these new taxoids showed that activity was dependent on the length of the linker and the configuration at C2‘ and C3‘. Two analogues in the homo series, 9a and 24a, showed tubulin binding and cytotoxicity comparable to that of Taxol. NAMFIS (NMR analysis of molecular flexibility in solution) deconvolution of the averaged 2-D NMR spectra for 9a yields seven conformations. Within the latter set, the hydrophobically collapsed “nonpolar” and “polar” classes are represented by one conformation each with predicted populations of 12−15%. The five remaining conformers, however, are extended, two of which correspond to the T-conformation (47% of the total population). The latter superimpose well with the recently proposed T-Taxol binding conformer in β-tubulin. The results provide evidence for the existence of two previously unrecognized structural features that support Taxol-like activity:  (1) a reduced torsion angle between C2‘ and C3‘ and (2) an orthogonal arrangement of the mean plane through C1‘, C2‘ and the 2‘-hydroxyl and the 3‘-phenyl plane, the latter ring bisected by the former plane. By contrast, epimerization at 2‘,3‘ and homologation of the tether to CH2−CH2 were both detrimental for activity. The decreased activity of these analogues is apparently due to configurational and steric factors, respectively.

Published
2001

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