Your search keyword '"Infantas, Pineda de Las"' showing total 3 results

1. Synthesis and Biological Evaluation of Novel N<SUP>6</SUP>-[4-(Substituted)sulfonamidophenylcarbamoyl]adenosine-5‘-uronamides as A<INF>3</INF> Adenosine Receptor Agonists

Author

Baraldi, P. G., Fruttarolo, F., Tabrizi, M. A., Romagnoli, R., Preti, D., Bovero, A., Infantas, Pineda de Las, J., M., Moorman, A., Varani, K., and Borea, P. A.

Abstract

A new series of 1-deoxy-1-[(6-(4-(substituted-aminosulfonyl)phenyl)amino)carbonylamino-9H-purin-9-yl]-N-ethyl-β-d-ribofuranuronamides (83−102) have been synthesized and tested at the human A3 adenosine receptor subtype. All the derivatives described in this work displayed affinity versus this receptor in the nanomolar range and good selectivity versus A1 adenosine receptor subtype, confirming that the p-sulfonamido moiety positively affected the activity of the molecules. The best substituents at the sulfonamido nucleus were found to be small alkyl groups, like methyl, isopropyl, ethyl, or allyl moieties (compounds 96−100), whereas monosubstitution at the amino group led to a decrease in A3 affinity values. The selectivity versus A1 adenosine receptor subtype is increased when the amino group in the sulfonamido core is represented by a hydrogenated heterocyclic ring like piperidine, morpholine, or pyrroline. Bulky groups, like adamantane and alkyl chains with more than four carbon atoms, are detrimental for the affinity and the selectivity of the A3 adenosine receptor agonists described here.

Published

2004

2. Design, Synthesis, and Biological Activity of Hybrid Compounds between Uramustine and DNA Minor Groove Binder Distamycin A

Author

Baraldi, P. G., Romagnoli, R., Guadix, A. E., Infantas, Pineda de las, J., M., Gallo, M. A., Espinosa, A., Martinez, A., Bingham, J. P., and Hartley, J. A.

Abstract

The design, synthesis, characterization, DNA binding properties, and cytotoxic activity of a novel series of hybrids, namely, a molecular combination of the natural antibiotic distamycin A and the antineoplastic agent uramustine, are reported, and the structure−activity relationships are discussed. This homologous series 29−34 consisted of the minor groove binder distamycin A joined to uramustine (uracil mustard) by suitable aliphatic carboxylic acid moieties containing a flexible polymethylene chain that is variable in length [(CH2)n, where n = 1−6). All the hybrid compounds in this series exhibit enhanced activity compared to both distamycin A and uramustine derivatives 22−27 used for conjugation, giving IC50 values in the range 7.26−0.07 μM following a 1 h exposure of human leukemic K562 cells, with maximal activity shown when n = 6. The distance between the uramustine and distamycin frame is crucial for the cytotoxicity, with compounds having linker lengths of four to six being at least 20-fold more cytotoxic than liker lengths one to three. Taq polymerase stop experiments demonstrated selective covalent binding of uramustine−distamycin hybrids to A/T rich DNA sequences, which was again more efficent with compounds 32−34 with a longer linker length. Two consequences can be derived from our study:  (a) the distamycin moiety directs binding to the minor groove of A/T rich DNA sequences and, consequently, is responsible for the alkylation regioselectivity found in footprinting studies; (b) the higher flexibility due to a longer linker between the distamycin and uracil moieties allows the formation of complexes with the mustard moiety situated more deeply in the minor groove and, hence, with better alkylating properties.

Published

2002

3. Synthesis and Biological Activity of a New Series of N<SUP>6</SUP>-Arylcarbamoyl, 2-(Ar)alkynyl-N<SUP>6</SUP>-arylcarbamoyl, and N<SUP>6</SUP>-Carboxamido Derivatives of Adenosine-5‘-N-ethyluronamide as A<INF>1</INF> and A<INF>3</INF> Adenosine Receptor Agonists

Author

Baraldi, P. G., Cacciari, B., Infantas, Pineda de Las, J., M., Romagnoli, R., Spalluto, G., Volpini, R., Costanzi, S., Vittori, S., Cristalli, G., Melman, N., Park, K.-S., Ji, X.-d., and Jacobson, K. A.

Abstract

A new series of 1-(6-amino-9H-purin-9-yl)-1-deoxy-N-ethyl-β-d-ribofuranuronamide-bearing N-arylureas or N-arylcarboxamido groups at the purine 6 position and N-arylureas combined with halogens or alkynyl chains at the 2 position have been synthesized and tested for affinity at A1 and A2A adenosine receptors in rat brain membranes and at cloned rat A3 receptors expressed in CHO cells. The derivatives contained the 5‘ substituent found in the potent, nonselective agonist 1-(6-amino-9H-purin-9-yl)-1-deoxy-N-ethyl-β-d-ribofuranuronamide (NECA). While the carboxamido derivatives (9−13) showed affinity for A1 receptors, the urea derivatives (30−45) showed different degrees of affinity and selectivity for the A3 adenosine receptor subtype. In particular the derivative bearing a p-sulfonamidophenyl-urea at the 6 position, 31 showed a high affinity (Ki = 9 nM) and selectivity for the A3 receptors compared to that of the reference compound 1-[6-[[(3-iodophenyl)methyl]amino]-9H-purin-9-yl]-1-deoxy-N-methyl-β-d-ribofuranuronamide (IB-MECA). Furthermore, the importance of the stereochemistry in the interaction of these ligands at the rat A3 adenosine receptors has been evaluated by introducing a chiral chain at the 6 position. The introduction of halogens or alkynyl chains at the purine 2 position of selected ureas did not give the expected enhancement of potency at A2A and/or A3 receptors but rather showed a dramatic reduction of A2A affinity, resulting in compounds with good A2A/A3 selectivity. For example, the 2-(3-hydroxy-3-phenyl-1-propyn-1-yl)-6-(4-methoxyphenylurea) derivative 61 showed the capability to bind simultaneously to A1 and A3 receptor subtypes, excluding the A2A receptor. Compound 31 was shown to be an agonist, 9-fold more potent than NECA, at A3 receptors in rat RBL-2H3 mast cell membranes through stimulation of binding of [³⁵S]GTP-γ-S.

Published

1998