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1. Water-Soluble Pyrazolo[4,3-e][1,2,4]triazolo[1,5-c]pyrimidines as Human A(3) Adenosine Receptor Antagonists

Author

Baraldi PG, Saponaro G, Romagnoli R, Aghazadeh Tabrizi M, Baraldi S, Moorman AR, Cosconati S, Gessi S, Merighi S, Varani K, Borea PA, Preti D., DI MARO, SALVATORE, MARINELLI, LUCIANA, NOVELLINO, ETTORE, Baraldi, Pg, Saponaro, G, Romagnoli, R, Aghazadeh Tabrizi, M, Baraldi, S, Moorman, Ar, Cosconati, S, DI MARO, Salvatore, Marinelli, Luciana, Gessi, S, Merighi, S, Varani, K, Borea, Pa, Preti, D., Novellino, Ettore, Cosconati, Sandro, and Marinelli, L

Subjects
Aqueous solution, Pyrimidine, Molecular model, Chemistry, Stereochemistry, Medicinal chemistry, Adenosine receptor, chemistry.chemical_compound, Water soluble, Drug Discovery, Molecular Medicine, Moiety, Solubility, IC50
Abstract

A relevant problem of the pyrazolo[4,3-e][1,2,4]triazolo[1,5-c]pyrimidine nucleus, an attractive scaffold for the preparation of adenosine receptor antagonists, is the low water solubility. We originally functionalized the C 5 position with a salifiable 4-pyridylcarbamoyl moiety that conferred good water solubility at low pH ( 515, IC 50(hA 2B) > 5 μM) showed a solubility of 8 mg/mL at physiological pH and gave a stable aqueous system suitable for intravenous infusion. Molecular modeling studies were helpful in rationalizing the available structure-activity relationships and the selectivity profile of the new ligands. © 2012 American Chemical Society.

Published
2012

9. Cannabinoid CB(2) receptor attenuates morphine-induced inflammatory responses in activated microglial cells.

Author

Merighi S, Gessi S, Varani K, Fazzi D, Mirandola P, Borea PA, Merighi, Stefania, Gessi, Stefania, Varani, Katia, Fazzi, Debora, Mirandola, Prisco, and Borea, Pier Andrea

Abstract

Background and Purpose: Among several pharmacological properties, analgesia is the most common feature shared by either opioid or cannabinoid systems. Cannabinoids and opioids are distinct drug classes that have been historically used separately or in combination to treat different pain states. In the present study, we characterized the signal transduction pathways mediated by cannabinoid CB(2) and µ-opioid receptors in quiescent and LPS-stimulated murine microglial cells.Experimental Approach: We examined the effects of µ-opioid and CB(2) receptor stimulation on phosphorylation of MAPKs and Akt and on IL-1β, TNF-α, IL-6 and NO production in primary mouse microglial cells.Key Results: Morphine enhanced release of the proinflammatory cytokines, IL-1β, TNF-α, IL-6, and of NO via µ-opioid receptor in activated microglial cells. In contrast, CB(2) receptor stimulation attenuated morphine-induced microglial proinflammatory mediator increases, interfering with morphine action by acting on the Akt-ERK1/2 signalling pathway.Conclusions and Implications: Because glial activation opposes opioid analgesia and enhances opioid tolerance and dependence, we suggest that CB(2) receptors, by inhibiting microglial activity, may be potential targets to increase clinical efficacy of opioids. [ABSTRACT FROM AUTHOR]

Published
2012
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10. A3 Receptors Are Overexpressed in Pleura from Patients with Mesothelioma and Reduce Cell Growth via Akt/Nuclear Factor-{kappa}B Pathway.

Author

Varani K, Maniero S, Vincenzi F, Targa M, Stefanelli A, Maniscalco P, Martini F, Tognon M, and Borea PA

Abstract

Rationale: A strong link has been established between exposure to asbestos and increased risk for pleural malignant mesothelioma (MM). Adenosine plays a key role in inflammatory processes and cancer, where it is involved in the regulation of cell death and proliferation. Objectives: The primary aim of this study was to investigate the presence of adenosine receptors (ARs) in human MM pleura (MMP) and healthy mesothelial pleura (HMP). To shed some light on the interaction between adenosine and MM, the presence and functionality of ARs were explored in human healthy mesothelial cells (HMC) and in malignant mesothelioma cells (MMC). Methods: ARs were analyzed by using reverse transcriptase-polymerase chain reaction, Western blotting, and saturation binding assays. HMC were treated with crocidolite asbestos, which is the principal risk factor for MM. The role of A(3)ARs on these cellular models, evaluating cAMP production, Akt phosphorylation, and nuclear factor (NF)-[kappa]B activation, was investigated. The dual effect of A(3)AR stimulation on healthy and cancer cell growth was studied by means of proliferation, apoptosis, and cytotoxicity assays. Measurements and Main Results: A(3)AR was up-regulated by 2.5-fold (P < 0.01) in MMP when compared with HMP. Stimulation of A(3)ARs decreased proliferation and exerted a cytotoxic and proapoptotic effect on MMC and on HMC exposed to asbestos and tumor necrosis factor-[alpha], but not on HMC with an involvement of the deregulation of Akt/NF-[kappa]B cell survival pathway. Conclusions: These new findings suggest that A(3)AR could represent a pharmacological target to prevent tumor development after asbestos exposure and to treat full-blown MM. [ABSTRACT FROM AUTHOR]

Published
2011
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11. Normalization of A(2A) and A(3) adenosine receptor up-regulation in rheumatoid arthritis patients by treatment with anti-tumor necrosis factor alpha but not methotrexate.

Author

Varani K, Massara A, Vincenzi F, Tosi A, Padovan M, Trotta F, and Borea PA

Abstract

OBJECTIVE: To investigate A(1), A(2A), A(2B), and A(3) adenosine receptors in lymphocytes and neutrophils from patients with early rheumatoid arthritis (ERA) as well as from RA patients treated with methotrexate (MTX) or anti-tumor necrosis factor alpha (anti-TNFalpha), as compared with those in age-matched healthy controls, and to examine correlations between the status and functionality of adenosine receptors and TNFalpha release and NF-kappaB activation. METHODS: Adenosine receptors were analyzed by saturation binding assays and Western blot analyses. We investigated the potency of typical A(2A) and A(3) agonists in the production of cAMP in control subjects, ERA patients, and RA patients treated with MTX or anti-TNFalpha. In a separate cohort of RA patients, TNFalpha release and NF-kappaB activation were evaluated in plasma and nuclear extracts, respectively. RESULTS: In ERA patients, we found a high density and altered functionality of A(2A) and A(3) receptors. The binding and functional parameters of A(2A) and A(3) receptors normalized after anti-TNFalpha, but not MTX, treatment. TNFalpha release was increased in ERA patients and in MTX-treated RA patients, whereas in anti-TNFalpha-treated RA patients, release was comparable to that in the controls. NF-kappaB activation was elevated in ERA patients and in MTX-treated RA patients. Anti-TNFalpha treatment mediated decreased levels of NF-kappaB activation. CONCLUSION: A(2A) and A(3) receptor up-regulation in ERA patients and in MTX-treated RA patients was associated with high levels of TNFalpha and NF-kappaB activation. Treatment with anti-TNFalpha normalized A(2A) and A(3) receptor expression and functionality. This new evidence of A(2A) and A(3) receptor involvement opens the possibility of exploiting their potential role in human diseases characterized by a marked inflammatory component. [ABSTRACT FROM AUTHOR]

Published
2009
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12. Adenosine analogs and electromagnetic fields inhibit prostaglandin E2 release in bovine synovial fibroblasts.

Author

De Mattei M, Varani K, Masieri FF, Pellati A, Ongaro A, Fini M, Cadossi R, Vincenzi F, Borea PA, Caruso A, De Mattei, M, Varani, K, Masieri, F F, Pellati, A, Ongaro, A, Fini, M, Cadossi, R, Vincenzi, F, Borea, P A, and Caruso, A

Abstract

Objective: To investigate the role of adenosine analogs and electromagnetic field (EMF) stimulation on prostaglandin E(2) (PGE(2)) release and cyclooxygenase-2 (COX-2) expression in bovine synovial fibroblasts (SFs).Methods: SFs isolated from synovia were cultured in monolayer. Saturation and binding experiments were performed by using typical adenosine agonists: N6-cyclohexyladenosine (CHA, A(1)), 2-[p-(2-carboxyethyl)-phenetyl-amino]-5'-N-ethylcarboxamidoadenosine (CGS 21680, A(2A)), 5'-N-ethylcarboxamidoadenosine (NECA, non-selective), N6-(3-iodobenzyl)2-chloroadenosine-5'-N-methyluronamide (Cl-IB-MECA, A(3)). SFs were treated with TNF-alpha (10 ng/ml) and lipopolysaccharide (LPS) (1 microg/ml) to activate inflammatory response. Adenosine analogs were added to control and TNF-alpha- or LPS-treated cultures both in the absence and in the presence of adenosine deaminase (ADA) which is used to deplete endogenous adenosine. Parallel cultures were exposed to EMFs (75 Hz, 1.5 mT) during the period in culture (24h). PGE(2) release was measured by immunoassay. COX-2 expression was evaluated by RT-PCR.Results: TNF-alpha and LPS stimulated PGE(2) release. All adenosine agonists, except for Cl-IB-MECA, significantly inhibited PGE(2) production. EMFs inhibited PGE(2) production in the absence of adenosine agonists and increased the effects of CHA, CGS 21680 and NECA. In ADA, the inhibition on PGE(2) release induced by CHA, CGS and NECA was stronger than in the absence of ADA and the EMF-inhibitory effect was lost. Changes in PGE(2) levels were associated to modification of COX-2 expression.Conclusions: This study supports anti-inflammatory activities of A(1) and A(2A) adenosine receptors and EMFs in bovine SFs. EMF activity appears mediated by an EMF-induced up-regulation of A(2A) receptors. Biophysical and/or pharmacological modulation of adenosine pathways may play an important role to control joint inflammation. [ABSTRACT FROM AUTHOR]

Published
2009
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13. Pharmacological characterization of P2X1 and P2X3 purinergic receptors in bovine chondrocytes.

Author

Varani K, De Mattei M, Vincenzi F, Tosi A, Gessi S, Merighi S, Pellati A, Masieri F, Ongaro A, Borea PA, Varani, K, De Mattei, M, Vincenzi, F, Tosi, A, Gessi, S, Merighi, S, Pellati, A, Masieri, F, Ongaro, A, and Borea, P A

Abstract

Objective: The aim of the present study is that of characterizing, for the first time in a quantitative way, from a biochemical, physico chemical and functional point of view P2X(1) and P2X(3) purinergic receptors in bovine chondrocytes. The affinity and the potency of typical purinergic ligands were studied through competition binding experiments and their role in modulating chondrocyte actvities was investigated by analyzing nitric oxide (NO) and prostaglandin E2 (PGE(2)) release.Methods: Saturation, competition binding experiments, western blotting and immunohistochemistry assays on the P2X(1) and P2X(3) purinergic receptors in bovine chondrocytes were performed. Thermodynamic analysis of the P2X(1) and P2X(3) purinergic binding was studied to investigate the forces driving drug-receptor coupling. In the functional assays (NO and PGE(2) release) the potency of purinergic agonists and antagonists was evaluated.Results: Bovine chondrocytes expressed P2X(1) and P2X(3) purinergic receptors and thermodynamic parameters indicated that purinergic binding is enthalpy- and entropy-driven for agonists and totally entropy-driven for antagonists. Typical purinergic agonists such as adenosine 5'-triphosphate (ATP) and alpha,beta-methyleneATP were able to increase NO and PGE(2) release. A purinergic antagonist, A317491, was able to block the stimulatory effect on functional experiments mediated by the agonists.Conclusions: These data demonstrate for the first time the presence of functional P2X(1) and P2X(3) purinergic receptors in bovine chondrocytes. Agonists and antagonists are thermodynamically discriminated and are able to modulate functional responses such as NO and PGE(2) release. These results suggest the potential role of novel purinergic antagonists in the treatment of pathophysiological diseases linked to the inflammation and involved in articular cartilage resorption. [ABSTRACT FROM AUTHOR]

Published
2008
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14. Alteration of adenosine receptors in patients with chronic obstructive pulmonary disease.

Author

Varani K, Caramori G, Vincenzi F, Adcock I, Casolari P, Leung E, MacLennan S, Gessi S, Morello S, Barnes PJ, Ito K, Chung KF, Cavallesco G, Azzena G, Papi A, and Borea PA

Abstract

RATIONALE: Chronic obstructive pulmonary disease (COPD) is the fourth leading cause of mortality worldwide. Adenosine is an inflammatory regulator that acts through four distinct receptors to mediate pro- and antiinflammatory effects. OBJECTIVES: The primary aim of this study was to investigate the expression, affinity, and density of adenosine receptors in peripheral lung parenchyma from age-matched smokers with COPD (n = 14) and smokers with normal lung function (control group; n = 20). METHODS: Adenosine receptors were analyzed by immunohistochemistry and saturation binding assays using typical antagonist radioligands. RESULTS: A(1), A(2A), A(2B), and A(3) receptors were expressed in different cells in peripheral lung parenchyma. The affinity of A(1), A(2A), and A(3) receptors was significantly decreased in patients with COPD compared with the control group (K(D)[A(1)] = 3.15 +/- 0.19 vs. 1.70 +/- 0.14 nM; K(D)[A(2A)] = 7.88 +/- 0.68 vs. 1.87 +/- 0.09 nM; K(D)[A(3)] = 9.34 +/- 0.27 vs. 4.41 +/- 0.25 nM; p < 0.01), whereas their density was increased (Bmax[A(1)] = 53 +/- 4 vs. 32 +/- 3 fmol/mg protein; Bmax[A(2A)] = 852 +/- 50 vs. 302 +/- 12 fmol/mg protein; Bmax[A(3)] = 2,078 +/- 108 vs. 770 +/- 34 fmol/mg protein; p < 0.01). The affinity of A(2B) receptors was not altered, but the density was significantly decreased in patients with COPD compared with the control group (Bmax = 66 +/- 5 vs. 189 +/- 16 fmol/mg protein; p < 0.01). A significant correlation was found between the affinity and density of the adenosine receptors and the FEV(1)/FVC ratio. CONCLUSIONS: This is the first report showing the presence of adenosine receptors in lung parenchyma in subjects with COPD compared with control smokers. These novel findings strengthen the hypothesis of a potential role played by adenosine receptors in the pathogenesis of COPD. [ABSTRACT FROM AUTHOR]

Published
2006
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22. Design, synthesis, and biological evaluation of novel 2-((2-(4-(substituted)phenylpiperazin-1-yl)ethyl)amino)-5'-N-ethylcarboxamidoadenosines as potent and selective agonists of the A2A adenosine receptor

Author

Pier Giovanni Baraldi, Sandro Cosconati, Stefania Baraldi, Pier Andrea Borea, Romeo Romagnoli, Ettore Novellino, Mojgan Aghazadeh Tabrizi, Giulia Saponaro, Agostino Bruno, Annalisa Ravani, Katia Varani, Delia Preti, Fabrizio Vincenzi, Preti, D, Baraldi, Pg, Saponaro, G, Romagnoli, R, Aghazadeh Tabrizi, M, Baraldi, S, Cosconati, Sandro, Bruno, A, Novellino, E, Vincenzi, F, Ravani, A, Borea, Pa, and Varani, K.

Subjects
Agonist, Adenosine A2 Receptor Agonists, Adenosine-5'-(N-ethylcarboxamide), Animals, CHO Cells, Chemistry Techniques, Synthetic, Crystallography, X-Ray, Drug Design, Drug Evaluation, Preclinical, Humans, Molecular Docking Simulation, Receptor, Adenosine A2A, Structure-Activity Relationship, medicine.drug_class, Stereochemistry, Pharmacology, NO, Adenosine A2A, Cricetulus, Drug Discovery, medicine, Potency, Structure–activity relationship, Selective receptor modulator, Receptor, Crystallography, Chemistry, Chinese hamster ovary cell, Synthetic, Chemistry Techniques, Adenosine receptor, Preclinical, Docking (molecular), X-Ray, Drug Evaluation, Molecular Medicine
Abstract

Stimulation of A(2A) adenosine receptors (AR) promotes anti-inflammatory responses in animal models of allergic rhinitis, asthma, chronic obstructive pulmonary disease, and rheumatic diseases. Herein we describe the results of a research program aimed at identifying potent and selective agonists of the A(2A)AR as potential anti-inflammatory agents. The recent crystallographic analysis of A(2A)AR agonists and antagonists in complex with the receptor provided key information on the structural determinants leading to receptor activation or blocking. In light of this, we designed a new series of 2-((4-aryl(alkyl)piperazin-1-yl)alkylamino)-5'-N-ethylcarboxamidoadenosines with high A(2A)AR affinity, activation potency and selectivity obtained by merging distinctive structural elements of known agonists and antagonists of the investigated target. Docking-based SAR optimization allowed us to identify compound 42 as one of the most potent and selective A(2A) agonist discovered so far (K-i hA(2A)AR = 4.8 nM, EC50 hA(2A)AR = 4.9 nM, K-i hA(1)AR > 10.000 nM, K-i hA(3)AR = 1487 nM, EC50 hA(2B)AR > 10 000 nM).

Published
2015

23. Design, synthesis, and pharmacological characterization of indol-3-ylacetamides, indol-3-yloxoacetamides, and indol-3-ylcarboxamides: potent and selective CB2 cannabinoid receptor inverse agonists

Author

Alessia Ligresti, Valentina Pedani, Francesca Guida, Katia Varani, Vincenzo Di Marzo, Nicolò Pesco, Federico Corelli, Simone Brogi, Claudia Mugnaini, Chiara Falciani, Serena Pasquini, Andrea Tafi, Pier Andrea Borea, Sabatino Maione, Livio Luongo, Pasquini, S, Mugnaini, C, Ligresti, A, Tafi, A, Brogi, S, Falciani, C, Pedani, V, Pesco, N, Guida, Francesca, Luongo, Livio, Varani, K, Borea, Pa, Maione, Sabatino, Di Marzo, V, and Corelli, F.

Subjects
Models, Molecular, Agonist, CB2 cannabinoid agonists, Indoles, Cannabinoid receptor, Drug Inverse Agonism, Cannabinoid Receptor Modulators, medicine.drug_class, Stereochemistry, medicine.medical_treatment, cAMP assays, Pain, Carboxamide, CHO Cells, Pharmacology, Receptor, Cannabinoid, CB2, Mice, Radioligand Assay, Structure-Activity Relationship, Cricetulus, cannabinoid receptors, Cricetinae, Drug Discovery, Cyclic AMP, medicine, Cannabinoid receptor type 2, Animals, Combinatorial Chemistry Techniques, Humans, Immunologic Factors, Inverse agonist, Receptor, Pain Measurement, Inflammation, binding experiments, Chemistry, Amides, HEK293 Cells, Drug Design, Molecular Medicine, lipids (amino acids, peptides, and proteins), Cannabinoid
Abstract

In our search for new cannabinoid receptor modulators, we describe herein the design and synthesis of three sets of indole-based ligands characterized by an acetamide, oxalylamide, or carboxamide chain, respectively. Most of the compounds showed affinity for CB2 receptors in the nanomolar range, with K(i) values spanning 3 orders of magnitude (377-0.37 nM), and moderate to good selectivity over CB1 receptors. Their in vitro functional activity as inverse agonists was confirmed in vivo in the formalin test of acute peripheral and inflammatory pain in mice, in which compounds 10a and 11e proved to be able to reverse the effect of the CB2 selective agonist COR167.

Published
2012

24. New 2-heterocyclyl-imidazo[2,1-i]purin-5-one derivatives as potent and selective human A3 adenosine receptor antagonists

Author

Giulia Saponaro, Katia Varani, Luciana Marinelli, Abdel Naser Zaid, Pier Giovanni Baraldi, Allan R. Moorman, Sandro Cosconati, Mojgan Aghazadeh Tabrizi, Ettore Novellino, Romeo Romagnoli, Salvatore Di Maro, Stefania Baraldi, Pier Andrea Borea, Delia Preti, Baraldi, Pg, Preti, D, Zaid, An, Saponaro, G, Tabrizi, Ma, Baraldi, S, Romagnoli, R, Moorman, Ar, Varani, K, Cosconati, Sandro, DI MARO, Salvatore, Marinelli, L, Novellino, E, Borea, Pa, Pier Giovanni, Baraldi, Delia, Preti, Abdel Naser, Zaid, Giulia, Saponaro, Mojgan Aghazadeh, Tabrizi, Stefania, Baraldi, Romeo, Romagnoli, Allan R., Moorman, Katia, Varani, Sandro, Cosconati, Marinelli, Luciana, Novellino, Ettore, and Pier Andrea, Borea

Subjects
Models, Molecular, Molecular model, Stereochemistry, Molecular Sequence Data, Adenosine A3 Receptor Antagonists, A3R antagonist, CHO Cells, Ligands, Receptor, Adenosine A2B, Transfection, Radioligand Assay, Structure-Activity Relationship, Cricetulus, Cricetinae, Drug Discovery, Cyclic AMP, Animals, Humans, Amino Acid Sequence, adenosine receptor, IC50, adenosine, Ligand, Chemistry, Receptor, Adenosine A3, Stereoisomerism, A3 ADENOSINE RECEPTOR, Affinities, Adenosine receptor, Purines, Molecular Medicine, Selectivity, Antagonism, Sequence Alignment
Abstract

A series of 4-allyl/benzyl-7,8-dihydro-8-methyl/ethyl-2-[(substituted) isoxazol/pyrazol-3/5-yl]-1H-imidazo[2,1-i]purin-5(4H)-ones has been synthesized and evaluated in radioligand binding assays to determine their affinities at the human A 1, A 2A, and A 3 adenosine receptors. Efficacy at the hA 2B AR and antagonism of selected ligands at the hA 3 AR were also assessed through cAMP experiments. All of the synthesized molecules exhibited high affinity at the hA 3 AR (K i values ranging from 1.46 to 44.8 nM), as well as remarkable selectivity versus A 1, A 2A, and A 2B AR subtypes. Compound (R)-4-allyl-8-ethyl-7,8-dihydro-2-(3-methoxy-1-methyl-1H- pyrazol-5-yl)-1H-imidazo[2,1-i]purin-5(4H)-one (R-33) was found to be the most potent and selective ligand of the series (K i hA 3 = 1.46 nM, K i hA 2A/K i hA 3 > 3425; IC 50 hA 2B/K i hA 3 > 3425; K i hA 1/K i hA 3 = 1729). Molecular modeling studies were helpful in rationalizing the available structure-activity relationships along with the selectivity profiles of the new series of ligands. © 2011 American Chemical Society.

Published
2011

25. Synthesis and pharmacology of 6-substituted benztropines: discovery of novel dopamine uptake inhibitors possessing low binding affinity to the dopamine transporter

Author

Riccardo Rondanin, Marinella Roberti, Marcello Rossi, Silvia Marino, Valerio Bertolasi, Stefania Merighi, Daniele Simoni, Stefania Grimaudo, Daniela Pizzirani, Anna Siniscalchi, Pier Andrea Borea, Katia Varani, Manlio Tolomeo, Stefania Gessi, Francesco Paolo Invidiata, Riccardo Baruchello, Sabrina Cavallini, Clementina Bianchi, SIMONI D, ROSSI M, BERTOLASI V, ROBERTI M, PIZZIRANI D, RONDANIN R, BARUCHELLO R, INVIDIATA FP, TOLOMEO M, GRIMAUDO S, MERIGHI S, VARANI K, GESSI S, BOREA PA, MARINO S, CAVALLINI S, BIANCHI C, SINISCALCHI A, Simoni D., Rossi M., Bertolasi V., Roberti M., Pizzirani D., Rondanin R., Baruchello R., Invidiata F. P., Tolomeo M., Grimaudo S., Merighi S., Varani K., Gessi S., Borea P. A., Marino S., Cavallini S., Bianchi C., and Siniscalchi A.

Subjects
Stereochemistry, Dopamine, Dopamine Plasma Membrane Transport Proteins, Molecular Conformation, Nerve Tissue Proteins, In Vitro Techniques, Binding, Competitive, Dopamine Plasma Membrane Transport Protein, Radioligand Assay, Structure-Activity Relationship, chemistry.chemical_compound, Dopamine Uptake Inhibitors, Cocaine, triple reuptake, Drug Discovery, medicine, Animals, Structure–activity relationship, Dopamine transporter, Benztropine, Nerve Endings, Membrane Glycoproteins, biology, Putamen, Membrane Transport Proteins, Stereoisomerism, Tropane, Biological activity, Corpus Striatum, Rats, chemistry, biology.protein, Molecular Medicine, Tropanes, medicine.drug
Abstract

A series of 6alpha- and 6beta-substituted benztropines were synthesized. A marked enantioselectivity was observed for the 6beta-methoxylated benztropines, the (1R)-isomers being more potent than the corresponding (1S) compounds. The racemic 6alpha-methoxy-3-(4',4' '-difluorodiphenylmethoxy)tropane (5 g) was the most potent compound. It has been found that modifications at the 6-position of benztropine might reduce the DAT binding affinity, maintaining otherwise a significant dopamine uptake inhibitory activity. A reinvestigation of the absolute configuration of 6beta-methoxytropinone proved the 6R configuration for the (+)-enantiomer.

Published
2005

26. Synthesis, biological activity and molecular modeling investigation of new pyrazolo[4,3-e]1,2,4-triazolo[1,5-c]pyrimidine derivatives as human A3 adenosine receptor antagonists

Author

Pier Andrea Borea, Barbara Cacciari, Stefano Moro, Karl-Norbert Klotz, Giampiero Spalluto, Giorgia Pastorin, Stefania Gessi, Katia Varani, Pier Giovanni Baraldi, Tatiana Da Ros, Baraldi, Pg, Cacciari, B, Moro, S, Spalluto, Giampiero, Pastorin, G, DA ROS, Tatiana, Klotz, Kn, Varani, K, Gessi, S, and Borea, Pa

Subjects
Models, Molecular, Pyrimidine, Stereochemistry, CHO Cells, Transfection, Chemical synthesis, Protein Structure, Secondary, chemistry.chemical_compound, Radioligand Assay, Structure-Activity Relationship, Cricetinae, Drug Discovery, medicine, Cyclic AMP, Structure–activity relationship, Animals, Humans, Receptor, Receptor, Adenosine A3, Receptors, Purinergic P1, Biological activity, Adenosine receptor, Adenosine, Pyrimidines, chemistry, Purinergic P1 Receptor Antagonists, adenosine, Molecular Medicine, medicine.drug
Abstract

A new series of pyrazolotriazolopyrimidines bearing different substitutions on the phenylcarbamoyl moieties at the N5 position, being highly potent and selective human A(3) adenosine receptor antagonists, is described. The compounds represent an extension and an improvement of our previous work on this class of compounds (J. Med. Chem. 1999, 42, 4473-4478; J. Med. Chem. 2000, 43, 4768-4780). All the synthesized compounds showed A(3) adenosine receptor affinity in the subnanomolar range and high levels of selectivity in radioligand binding assays at the human A(1), A(2A), A(2B), and A(3) adenosine receptors. In particular, the effect of the substitution and its position on the phenyl ring have been studied. From binding data, it is evident that the unsubstituted derivatives on the phenyl ring (e.g., compound 59, hA(3) = 0.16 nM, hA(1)/hA(3) = 3713, hA(2A)/hA(3) = 2381, hA(2B)/hA(3) = 1388) showed the best profile in terms of affinity and selectivity at the human A(3) adenosine receptors. The introduction of a sulfonic acid moiety at the para position on the phenyl ring was attempted in order to design water soluble derivatives. However, this substitution led to a dramatic decrease of affinity at all four adenosine receptor subtypes. A computer-generated model of the human A(3) receptor was built and analyzed to better interpret these results, demonstrating that steric control, in particular at the para position on the phenyl ring, plays a fundamental role in the receptor interaction. Some of the synthesized compounds proved to be full antagonists in a specific functional model, where the inhibition of cAMP-generation by IB-MECA was measured in membranes of CHO cells stably transfected with the human A(3) receptor with IC(50) values in the nanomolar range, with a statistically significative linear relationship with the binding data.

Published
2002

27. 7-Substituted-5-amino-2-(2-furyl)-pyrazolo[4,3-e]1,2,4-triazolo[1,5-c]pyrimidines as A2A adenosine receptor antagonists: a study on the importance of modifications at the side chain on the activity and solubility

Author

Katia Varani, Angela Monopoli, Romeo Romagnoli, Ennio Ongini, Pier Giovanni Baraldi, Barbara Cacciari, Giampiero Spalluto, Pier Andrea Borea, Baraldi, Pg, Cacciari, B, Romagnoli, R, Spalluto, Giampiero, Monopoli, A, Ongini, E, Varani, K, and Borea, Pa

Subjects
Receptor, Adenosine A2A, Stereochemistry, Substituent, Pyrazole, Binding, Competitive, Chemical synthesis, SCH-58261, Radioligand Assay, Structure-Activity Relationship, chemistry.chemical_compound, Drug Discovery, medicine, Humans, Moiety, Furans, chemistry.chemical_classification, Receptors, Purinergic P1, Aromatic amine, Adenosine, Adenosine receptor, Pyrimidines, Purinergic P1 Receptor Antagonists, Solubility, chemistry, Drug Design, Molecular Medicine, Chromatography, Thin Layer, medicine.drug
Abstract

It was demonstrated in the early 1990s that adenosine exerts many physiological functions through the interaction with four different receptors, named A1, A2A, A2B, and A3. In the past few years, our group has been involved in the development of A2A antagonists, which led to the synthesis of SCH 58261 (1), the first potent and selective adenosine A2A antagonist, which has been widely used as a reference compound. In this paper, we present an extended series of pyrazolotriazolopyrimidines synthesized with the aim to investigate the influence of the substitutions on the pyrazole ring. The choice of the substituents was based on their capability to improve water solubility while retaining high affinity and selectivity at the human A2A adenosine receptor subtype. In this series, some structural characteristics that are important for activity, i.e., tricyclic structure, free amino group at 5-position, furan ring, and substituent at 7-position on the pyrazole moiety, have been maintained. We focused our attention on the nature of the phenyl ring substituent to improve water solubility. Following this strategy, we developed new compounds with good affinity and selectivity for A2A adenosine receptors, such as 8d (K(i) 0.12 nM; hA1/hA2A ratio = 1025; R(m) = 2.8), 8h (K(i) 0.22; hA1/hA2A ratio = 9818; R(m) = 3.4), 8i (K(i) 0.18 nM; hA1/hA2A ratio = 994; R(m) = 2.8), 8k (K(i) 0.13 nM; hA1/hA2A ratio = 4430; R(m) = 3.6), and 14b (K(i) 0.19 nM; hA1/hA2A ratio = 2273; R(m) = 2.7). All the new synthesized compounds have no significant interaction with either A2B or A3 receptor subtypes. This new series of compounds deeply enlightens some structural requirements to display high affinity and selectivity for the A2A adenosine receptor subtype, although our goal of identifying new compounds with increased water solubility was not completely achieved. On this basis, other strategies will be devised to improve this class of compounds with a profile that appears to be promising for treatment of neurodegenerative disorders, such as Parkinson's disease.

Published
2002

28. Pyrazolo[4,3-e]1,2,4-triazolo[1,5-c]pyrimidine derivatives as highly potent and selective human A(3) adenosine receptor antagonists: influence of the chain at the N(8) pyrazole nitrogen

Author

Stefania Gessi, Karl-Norbert Klotz, Pier Giovanni Baraldi, Pier Andrea Borea, Barbara Cacciari, Edward Leung, Giampiero Spalluto, Stefania Merighi, Katia Varani, Stefano Moro, Romeo Romagnoli, Baraldi, Pg, Cacciari, B, Romagnoli, R, Spalluto, Giampiero, Moro, S, Klotz, Kn, Leung, E, Varani, K, Merighi, S, Gessi, S, and Borea, Pa

Subjects
Models, Molecular, Pyrimidine, Stereochemistry, CHO Cells, Pyrazole, chemistry.chemical_compound, Radioligand Assay, Structure-Activity Relationship, Cricetinae, Drug Discovery, Cyclic AMP, Structure–activity relationship, Animals, Humans, Receptor, Molecular Structure, Ligand binding assay, Receptor, Adenosine A3, Adenosine receptor, Pyrimidines, chemistry, Purinergic P1 Receptor Antagonists, Molecular Medicine, Pyrazoles, Pharmacophore
Abstract

An enlarged series of pyrazolotriazolopyrimidines previously reported, in preliminary form (Baraldi et al. J. Med. Chem. 1999, 42, 4473-4478), as highly potent and selective human A(3) adenosine receptor antagonists is described. The synthesized compounds showed A(3) adenosine receptor affinity in the sub-nanomolar range and high levels of selectivity evaluated in radioligand binding assays at human A(1), A(2A), A(2B), and A(3) adenosine receptors. In particular, the effect of the chain at the N(8) pyrazole nitrogen was analyzed. This study allowed us to identify the derivative with the methyl group at the N(8) pyrazole combined with the 4-methoxyphenylcarbamoyl moiety at the N(5) position as the compound with the best binding profile in terms of both affinity and selectivity (hA(3) = 0.2 nM, hA(1)/hA(3) = 5485, hA(2A)/hA(3) = 6950, hA(2B)/hA(3) = 1305). All the compounds proved to be full antagonists in a specific functional model where the inhibition of cAMP generation by IB-MECA was measured in membranes of CHO cells stably transfected with the human A(3) receptor. The new compounds are among the most potent and selective A(3) antagonists so far described. The derivatives with higher affinity at human A(3) adenosine receptors proved to be antagonists, in the cAMP assay, capable of inhibiting the effect of IB-MECA with IC(50) values in the nanomolar range, with a trend strictly similar to that observed in the binding assay. Also a molecular modeling study was carried out, with the aim to identify possible pharmacophore maps. In fact, a sterically controlled structure-activity relationship was found for the N(8) pyrazole substituted derivatives, showing a correlation between the calculated molecular volume of pyrazolo[4,3-e]1,2, 4-triazolo[1,5-c]pyrimidine derivatives and their experimental K(i) values.

Published
2000

30. Strategies for Drug Delivery into the Brain: A Review on Adenosine Receptors Modulation for Central Nervous System Diseases Therapy.

Author

Fernandez M, Nigro M, Travagli A, Pasquini S, Vincenzi F, Varani K, Borea PA, Merighi S, and Gessi S

Abstract

The blood-brain barrier (BBB) is a biological barrier that protects the central nervous system (CNS) by ensuring an appropriate microenvironment. Brain microvascular endothelial cells (ECs) control the passage of molecules from blood to brain tissue and regulate their concentration-versus-time profiles to guarantee proper neuronal activity, angiogenesis and neurogenesis, as well as to prevent the entry of immune cells into the brain. However, the BBB also restricts the penetration of drugs, thus presenting a challenge in the development of therapeutics for CNS diseases. On the other hand, adenosine, an endogenous purine-based nucleoside that is expressed in most body tissues, regulates different body functions by acting through its G-protein-coupled receptors (A1, A2A, A2B and A3). Adenosine receptors (ARs) are thus considered potential drug targets for treating different metabolic, inflammatory and neurological diseases. In the CNS, A1 and A2A are expressed by astrocytes, oligodendrocytes, neurons, immune cells and ECs. Moreover, adenosine, by acting locally through its receptors A1 and/or A2A, may modulate BBB permeability, and this effect is potentiated when both receptors are simultaneously activated. This review showcases in vivo and in vitro evidence supporting AR signaling as a candidate for modifying endothelial barrier permeability in the treatment of CNS disorders.

Published
2023
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31. Pharmacology of Adenosine Receptors: Recent Advancements.

Author

Vincenzi F, Pasquini S, Contri C, Cappello M, Nigro M, Travagli A, Merighi S, Gessi S, Borea PA, and Varani K

Abstract

Adenosine receptors (ARs) are widely acknowledged pharmacological targets yet are still underutilized in clinical practice. Their ubiquitous distribution in almost all cells and tissues of the body makes them, on the one hand, excellent candidates for numerous diseases, and on the other hand, intrinsically challenging to exploit selectively and in a site-specific manner. This review endeavors to comprehensively depict the substantial advancements witnessed in recent years concerning the development of drugs that modulate ARs. Through preclinical and clinical research, it has become evident that the modulation of ARs holds promise for the treatment of numerous diseases, including central nervous system disorders, cardiovascular and metabolic conditions, inflammatory and autoimmune diseases, and cancer. The latest studies discussed herein shed light on novel mechanisms through which ARs exert control over pathophysiological states. They also introduce new ligands and innovative strategies for receptor activation, presenting compelling evidence of efficacy along with the implicated signaling pathways. Collectively, these emerging insights underscore a promising trajectory toward harnessing the therapeutic potential of these multifaceted targets.

Published
2023
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32. MAM-2201 acute administration impairs motor, sensorimotor, prepulse inhibition, and memory functions in mice: a comparison with its analogue AM-2201.

Author

Corli G, Tirri M, Bilel S, Arfè R, Coccini T, Roda E, Marchetti B, Vincenzi F, Zauli G, Borea PA, Locatelli CA, Varani K, and Marti M

Subjects
Male, Mice, Humans, Animals, Indoles pharmacology, Receptor, Cannabinoid, CB1, Receptor, Cannabinoid, CB2, Prepulse Inhibition, Cannabinoids pharmacology
Abstract

Rationale: 1-[(5-fluoropentyl)-1H-indol-3-yl](4-methyl-1-naphthalenyl) methanone (MAM-2201) is a potent synthetic cannabinoid receptor agonist illegally marketed in "spice" products and as "synthacaine" for its psychoactive effects. It is a naphthoyl-indole derivative which differs from its analogue 1-[(5-Fluoropentyl)-1H-indol-3-yl](1-naphthylenyl) methanone (AM-2201) by the presence of a methyl substituent on carbon 4 (C-4) of the naphthoyl moiety. Multiple cases of intoxication and impaired driving have been linked to AM-2201 and MAM-2201 consumption., Objectives: This study aims to investigate the in vitro (murine and human cannabinoid receptors) and in vivo (CD-1 male mice) pharmacodynamic activity of MAM-2201 and compare its effects with those induced by its desmethylated analogue, AM-2201., Results: In vitro competition binding studies confirmed that MAM-2201 and AM-2201 possess nanomolar affinity for both CD-1 murine and human CB 1 and CB 2 receptors, with preference for the CB 1 receptor. In agreement with the in vitro binding data, in vivo studies showed that MAM-2201 induces visual, acoustic, and tactile impairments that were fully prevented by pretreatment with CB 1 receptor antagonist/partial agonist AM-251, indicating a CB 1 receptor mediated mechanism of action. Administration of MAM-2201 also altered locomotor activity and PPI responses of mice, pointing out its detrimental effect on motor and sensory gating functions and confirming its potential use liability. MAM-2201 and AM-2201 also caused deficits in short- and long-term working memory., Conclusion: These findings point to the potential public health burden that these synthetic cannabinoids may pose, with particular emphasis on impaired driving and workplace performance., (© 2023. The Author(s).)

Published
2023
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33. Caffeine for Prevention of Alzheimer's Disease: Is the A 2A Adenosine Receptor Its Target?

Author

Merighi S, Travagli A, Nigro M, Pasquini S, Cappello M, Contri C, Varani K, Vincenzi F, Borea PA, and Gessi S

Subjects
Humans, Caffeine pharmacology, Caffeine therapeutic use, Coffee metabolism, Receptors, Purinergic P1, Alzheimer Disease drug therapy, Alzheimer Disease prevention & control, Cognitive Dysfunction drug therapy, Neuroprotective Agents pharmacology, Neuroprotective Agents therapeutic use
Abstract

Alzheimer's disease (AD) is the most prevalent kind of dementia with roughly 135 million cases expected in the world by 2050. Unfortunately, current medications for the treatment of AD can only relieve symptoms but they do not act as disease-modifying agents that can stop the course of AD. Caffeine is one of the most widely used drugs in the world today, and a number of clinical studies suggest that drinking coffee may be good for health, especially in the fight against neurodegenerative conditions such as AD. Experimental works conducted "in vivo" and "in vitro" provide intriguing evidence that caffeine exerts its neuroprotective effects by antagonistically binding to A 2A receptors (A 2A Rs), a subset of GPCRs that are triggered by the endogenous nucleoside adenosine. This review provides a summary of the scientific data supporting the critical role that A 2A Rs play in memory loss and cognitive decline, as well as the evidence supporting the protective benefits against neurodegeneration that may be attained by caffeine's antagonistic action on these receptors. They are a novel and fascinating target for regulating and enhancing synaptic activity, achieving symptomatic and potentially disease-modifying effects, and protecting against neurodegeneration.

Published
2023
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34. Update on the recent development of allosteric modulators for adenosine receptors and their therapeutic applications.

Author

Pasquini S, Contri C, Cappello M, Borea PA, Varani K, and Vincenzi F

Abstract

Adenosine receptors (ARs) have been identified as promising therapeutic targets for countless pathological conditions, spanning from inflammatory diseases to central nervous system disorders, from cancer to metabolic diseases, from cardiovascular pathologies to respiratory diseases, and beyond. This extraordinary therapeutic potential is mainly due to the plurality of pathophysiological actions of adenosine and the ubiquitous expression of its receptors. This is, however, a double-edged sword that makes the clinical development of effective ligands with tolerable side effects difficult. Evidence of this is the low number of AR agonists or antagonists that have reached the market. An alternative approach is to target allosteric sites via allosteric modulators, compounds endowed with several advantages over orthosteric ligands. In addition to the typical advantages of allosteric modulators, those acting on ARs could benefit from the fact that adenosine levels are elevated in pathological tissues, thus potentially having negligible effects on normal tissues where adenosine levels are maintained low. Several A 1 and various A 3 AR allosteric modulators have been identified so far, and some of them have been validated in different preclinical settings, achieving promising results. Less fruitful, instead, has been the discovery of A 2A and A 2B AR allosteric modulators, although the results obtained up to now are encouraging. Collectively, data in the literature suggests that allosteric modulators of ARs could represent valuable pharmacological tools, potentially able to overcome the limitations of orthosteric ligands., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Pasquini, Contri, Cappello, Borea, Varani and Vincenzi.)

Published
2022
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35. In Vivo Bio-Activation of JWH-175 to JWH-018: Pharmacodynamic and Pharmacokinetic Studies in Mice.

Author

Tirri M, Arfè R, Bilel S, Corli G, Marchetti B, Fantinati A, Vincenzi F, De-Giorgio F, Camuto C, Mazzarino M, Barbieri M, Gaudio RM, Varani K, Borea PA, Botrè F, and Marti M

Subjects
Animals, Cannabinoid Receptor Agonists pharmacology, Humans, Indoles chemistry, Male, Mice, Receptor, Cannabinoid, CB1, Cannabinoids chemistry, Cannabinoids pharmacology, Naphthalenes chemistry
Abstract

3-(1-Naphthalenylmethyl)-1-pentyl-1H-indole (JWH-175) is a synthetic cannabinoid illegally marketed for its psychoactive cannabis-like effects. This study aimed to investigate and compare in vitro and in vivo pharmacodynamic activity of JWH-175 with that of 1-naphthalenyl (1-pentyl-1H-indol-3-yl)-methanone (JWH-018), as well as evaluate the in vitro (human liver microsomes) and in vivo (urine and plasma of CD-1 male mice) metabolic profile of JWH-175. In vitro binding studies showed that JWH-175 is a cannabinoid receptor agonist less potent than JWH-018 on mouse and human CB1 and CB2 receptors. In agreement with in vitro data, JWH-175 reduced the fESPS in brain hippocampal slices of mice less effectively than JWH-018. Similarly, in vivo behavioral studies showed that JWH-175 impaired sensorimotor responses, reduced breath rate and motor activity, and increased pain threshold to mechanical stimuli less potently than JWH-018. Metabolic studies demonstrated that JWH-175 is rapidly bioactivated to JWH-018 in mice blood, suggesting that in vivo effects of JWH-175 are also due to JWH-018 formation. The pharmaco-toxicological profile of JWH-175 was characterized for the first time, proving its in vivo bio-activation to the more potent agonist JWH-018. Thus, it highlighted the great importance of investigating the in vivo metabolism of synthetic cannabinoids for both clinical toxicology and forensic purposes.

Published
2022
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36. A 2A Adenosine Receptor: A Possible Therapeutic Target for Alzheimer's Disease by Regulating NLRP3 Inflammasome Activity?

Author

Merighi S, Nigro M, Travagli A, Pasquini S, Borea PA, Varani K, Vincenzi F, and Gessi S

Subjects
Amyloid beta-Peptides metabolism, Humans, NLR Family, Pyrin Domain-Containing 3 Protein metabolism, Alzheimer Disease drug therapy, Alzheimer Disease etiology, Alzheimer Disease pathology, Inflammasomes metabolism, Receptors, Adenosine A2 metabolism, Receptors, Adenosine A2 therapeutic use
Abstract

The A2A adenosine receptor, a member of the P1 purinergic receptor family, plays a crucial role in the pathophysiology of different neurodegenerative illnesses, including Alzheimer’s disease (AD). It regulates both neurons and glial cells, thus modulating synaptic transmission and neuroinflammation. AD is a complex, progressive neurological condition that is the leading cause of dementia in the world’s old population (>65 years of age). Amyloid peptide-β extracellular accumulation and neurofibrillary tangles constitute the principal etiologic tracts, resulting in apoptosis, brain shrinkage, and neuroinflammation. Interestingly, a growing body of evidence suggests a role of NLRP3 inflammasome as a target to treat neurodegenerative diseases. It represents a tripartite multiprotein complex including NLRP3, ASC, and procaspase-1. Its activation requires two steps that lead with IL-1β and IL-18 release through caspase-1 activation. NLRP3 inhibition provides neuroprotection, and in recent years adenosine, through the A2A receptor, has been reported to modulate NLRP3 functions to reduce organ damage. In this review, we describe the role of NLRP3 in AD pathogenesis, both alone and in connection to A2A receptor regulation, in order to highlight a novel approach to address treatment of AD.

Published
2022
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37. Pathophysiological Role and Medicinal Chemistry of A 2A Adenosine Receptor Antagonists in Alzheimer's Disease.

Author

Merighi S, Borea PA, Varani K, Vincenzi F, Travagli A, Nigro M, Pasquini S, Suresh RR, Kim SW, Volkow ND, Jacobson KA, and Gessi S

Subjects
Amyloid beta-Peptides metabolism, Animals, Chemistry, Pharmaceutical, Hippocampus metabolism, Humans, Purinergic P1 Receptor Antagonists metabolism, Receptor, Adenosine A2A metabolism, Alzheimer Disease drug therapy, Alzheimer Disease metabolism
Abstract

The A 2A adenosine receptor is a protein belonging to a family of four GPCR adenosine receptors. It is involved in the regulation of several pathophysiological conditions in both the central nervous system and periphery. In the brain, its localization at pre- and postsynaptic level in striatum, cortex, hippocampus and its effects on glutamate release, microglia and astrocyte activation account for a crucial role in neurodegenerative diseases, including Alzheimer's disease (AD). This ailment is considered the main form of dementia and is expected to exponentially increase in coming years. The pathological tracts of AD include amyloid peptide-β extracellular accumulation and tau hyperphosphorylation, causing neuronal cell death, cognitive deficit, and memory loss. Interestingly, in vitro and in vivo studies have demonstrated that A 2A adenosine receptor antagonists may counteract each of these clinical signs, representing an important new strategy to fight a disease for which unfortunately only symptomatic drugs are available. This review offers a brief overview of the biological effects mediated by A 2A adenosine receptors in AD animal and human studies and reports the state of the art of A 2A adenosine receptor antagonists currently in clinical trials. As an original approach, it focuses on the crucial role of pharmacokinetics and ability to pass the blood-brain barrier in the discovery of new agents for treating CNS disorders. Considering that A 2A receptor antagonist istradefylline is already commercially available for Parkinson's disease treatment, if the proof of concept of these ligands in AD is confirmed and reinforced, it will be easier to offer a new hope for AD patients.

Published
2022
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38. Adenosine Receptors in Neuropsychiatric Disorders: Fine Regulators of Neurotransmission and Potential Therapeutic Targets.

Author

Pasquini S, Contri C, Merighi S, Gessi S, Borea PA, Varani K, and Vincenzi F

Subjects
Animals, Humans, Mental Disorders metabolism, Mental Disorders pathology, Nervous System Diseases metabolism, Nervous System Diseases pathology, Adenosine therapeutic use, Mental Disorders drug therapy, Nervous System Diseases drug therapy, Receptors, Purinergic P1 chemistry, Receptors, Purinergic P1 metabolism
Abstract

Adenosine exerts an important role in the modulation of central nervous system (CNS) activity. Through the interaction with four G-protein coupled receptor (GPCR) subtypes, adenosine subtly regulates neurotransmission, interfering with the dopaminergic, glutamatergic, noradrenergic, serotoninergic, and endocannabinoid systems. The inhibitory and facilitating actions of adenosine on neurotransmission are mainly mediated by A 1 and A 2A adenosine receptors (ARs), respectively. Given their role in the CNS, ARs are promising therapeutic targets for neuropsychiatric disorders where altered neurotransmission represents the most likely etiological hypothesis. Activating or blocking ARs with specific pharmacological agents could therefore restore the balance of altered neurotransmitter systems, providing the rationale for the potential treatment of these highly debilitating conditions. In this review, we summarize and discuss the most relevant studies concerning AR modulation in psychotic and mood disorders such as schizophrenia, bipolar disorders, depression, and anxiety, as well as neurodevelopment disorders such as autism spectrum disorder (ASD), fragile X syndrome (FXS), attention-deficit hyperactivity disorder (ADHD), and neuropsychiatric aspects of neurodegenerative disorders.

Published
2022
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39. A 2A Adenosine Receptor Antagonists in Neurodegenerative Diseases.

Author

Merighi S, Borea PA, Varani K, Vincenzi F, Jacobson KA, and Gessi S

Subjects
Adenosine A2 Receptor Antagonists pharmacology, Adenosine A2 Receptor Antagonists therapeutic use, Amyloid beta-Peptides, Animals, Caffeine therapeutic use, Humans, Purinergic P1 Receptor Antagonists therapeutic use, Receptor, Adenosine A2A, Alzheimer Disease drug therapy, Neurodegenerative Diseases drug therapy
Abstract

Background: Alzheimer's disease (AD) is the most common form of dementia worldwide, with approximately 6 million cases reported in America in 2020. The clinical signs of AD include cognitive dysfunction, apathy, anxiety and neuropsychiatric signs, and pathogenetic mechanisms that involve amyloid peptide-β extracellular accumulation and tau hyperphosphorylation. Unfortunately, current drugs to treat AD can provide only symptomatic relief but are not disease-modifying molecules able to revert AD progression. The endogenous modulator adenosine, through A 2A receptor activation, plays a role in synaptic loss and neuroinflammation, which are crucial for cognitive impairment and memory damage., Objective: In this review, recent advances covering A 2A adenosine receptor antagonists will be extensively reviewed, providing a basis for the rational design of future A 2A inhibitors., Methods: Herein, the literature on A 2A adenosine receptors and their role in synaptic plasticity and neuroinflammation, as well as the effects of A 2A antagonism in animal models of AD and in humans, are reviewed. Furthermore, current chemical and structure-based strategies are presented., Results: Caffeine, the most widely consumed natural product stimulant and an A 2A antagonist, improves human memory. Similarly, synthetic A 2A receptor antagonists, as described in this review, may provide a means to fight AD., Conclusion: This review highlights the clinical potential of A 2A adenosine receptor antagonists as a novel approach to treat patients with AD., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.net.)

Published
2022
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40. A 2A Adenosine Receptor as a Potential Biomarker and a Possible Therapeutic Target in Alzheimer's Disease.

Author

Gessi S, Poloni TE, Negro G, Varani K, Pasquini S, Vincenzi F, Borea PA, and Merighi S

Subjects
Adenosine metabolism, Alzheimer Disease metabolism, Alzheimer Disease therapy, Biomarkers metabolism, Brain metabolism, Cerebral Cortex metabolism, Entorhinal Cortex metabolism, Glutamic Acid metabolism, Hippocampus metabolism, Humans, Neuronal Plasticity physiology, Receptor, Adenosine A2A genetics, Receptor, Adenosine A2A metabolism, Receptors, N-Methyl-D-Aspartate, Alzheimer Disease genetics, Receptor, Adenosine A2A physiology
Abstract

Alzheimer's disease (AD) is one of the most common neurodegenerative pathologies. Its incidence is in dramatic growth in Western societies and there is a need of both biomarkers to support the clinical diagnosis and drugs for the treatment of AD. The diagnostic criteria of AD are based on clinical data. However, it is necessary to develop biomarkers considering the neuropathology of AD. The A 2A receptor, a G-protein coupled member of the P1 family of adenosine receptors, has different functions crucial for neurodegeneration. Its activation in the hippocampal region regulates synaptic plasticity and in particular glutamate release, NMDA receptor activation and calcium influx. Additionally, it exerts effects in neuroinflammation, regulating the secretion of pro-inflammatory cytokines. In AD patients, its expression is increased in the hippocampus/entorhinal cortex more than in the frontal cortex, a phenomenon not observed in age-matched control brains, indicating an association with AD pathology. It is upregulated in peripheral blood cells of patients affected by AD, thus reflecting its increase at central neuronal level. This review offers an overview on the main AD biomarkers and the potential role of A 2A adenosine receptor as a new marker and therapeutic target.

Published
2021
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41. Adenosine and Inflammation: Here, There and Everywhere.

Author

Pasquini S, Contri C, Borea PA, Vincenzi F, and Varani K

Subjects
Adenosine metabolism, Animals, Humans, Inflammation metabolism, Inflammatory Bowel Diseases immunology, Inflammatory Bowel Diseases metabolism, Ligands, Lung Diseases immunology, Lung Diseases metabolism, Models, Biological, Models, Immunological, Neoplasms immunology, Neoplasms metabolism, Neuroimmunomodulation, Osteoarthritis immunology, Osteoarthritis metabolism, Receptors, Purinergic P1 immunology, Receptors, Purinergic P1 metabolism, Rheumatic Diseases immunology, Rheumatic Diseases metabolism, Adenosine immunology, Inflammation immunology
Abstract

Adenosine is a ubiquitous endogenous modulator with the main function of maintaining cellular and tissue homeostasis in pathological and stress conditions. It exerts its effect through the interaction with four G protein-coupled receptor (GPCR) subtypes referred as A 1 , A 2A , A 2B , and A 3 adenosine receptors (ARs), each of which has a unique pharmacological profile and tissue distribution. Adenosine is a potent modulator of inflammation, and for this reason the adenosinergic system represents an excellent pharmacological target for the myriad of diseases in which inflammation represents a cause, a pathogenetic mechanism, a consequence, a manifestation, or a protective factor. The omnipresence of ARs in every cell of the immune system as well as in almost all cells in the body represents both an opportunity and an obstacle to the clinical use of AR ligands. This review offers an overview of the cardinal role of adenosine in the modulation of inflammation, showing how the stimulation or blocking of its receptors or agents capable of regulating its extracellular concentration can represent promising therapeutic strategies for the treatment of chronic inflammatory pathologies, neurodegenerative diseases, and cancer.

Published
2021
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43. Upregulation of Cortical A2A Adenosine Receptors Is Reflected in Platelets of Patients with Alzheimer's Disease.

Author

Merighi S, Battistello E, Casetta I, Gragnaniello D, Poloni TE, Medici V, Cirrincione A, Varani K, Vincenzi F, Borea PA, and Gessi S

Subjects
Aged, Aged, 80 and over, Female, Humans, Male, Up-Regulation, Alzheimer Disease blood, Biomarkers blood, Blood Platelets metabolism, Cerebral Cortex metabolism, Receptor, Adenosine A2A metabolism
Abstract

Background: Alzheimer's disease (AD) is a neurodegenerative pathology covering about 70%of all cases of dementia. Adenosine, a ubiquitous nucleoside, plays a key role in neurodegeneration, through interaction with four receptor subtypes. The A2A receptor is upregulated in peripheral blood cells of patients affected by Parkinson's and Huntington's diseases, reflecting the same alteration found in brain tissues. However, whether these changes are also present in AD pathology has not been determined., Objective: In this study we verified any significant difference between AD cases and controls in both brain and platelets and we evaluated whether peripheral A2A receptors may reflect the status of neuronal A2A receptors., Methods: We evaluated the expression of A2A receptors in frontal white matter, frontal gray matter, and hippocampus/entorhinal cortex, in postmortem AD patients and control subjects, through [3H]ZM 241385 binding experiments. The same analysis was performed in peripheral platelets from AD patients versus controls., Results: The expression of A2A receptors in frontal white matter, frontal gray matter, and hippocampus/entorhinal cortex, revealed a density (Bmax) of 174±29, 219±33, and 358±84 fmol/mg of proteins, respectively, in postmortem AD patients in comparison to 104±16, 103±19, and 121±20 fmol/mg of proteins in controls (p < 0.01). The same trend was observed in peripheral platelets from AD patients versus controls (Bmax of 214±17 versus 95±4 fmol/mg of proteins, respectively, p < 0.01)., Conclusion: AD subjects show significantly higher A2A receptor density than controls. Values on platelets seem to correlate with those in the brain supporting a role for A2A receptor as a possible marker of AD pathology and drug target for novel therapies able to modify the progression of dementia.

Published
2021
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45. Targeting Adenosine Receptors: A Potential Pharmacological Avenue for Acute and Chronic Pain.

Author

Vincenzi F, Pasquini S, Borea PA, and Varani K

Subjects
Acute Disease, Animals, Chronic Pain metabolism, Chronic Pain prevention & control, Humans, Ligands, Neuralgia metabolism, Allosteric Regulation, Neuralgia prevention & control, Purinergic P1 Receptor Agonists pharmacology, Receptor, Adenosine A3 metabolism, Receptors, Purinergic P1 metabolism
Abstract

Adenosine is a purine nucleoside, responsible for the regulation of multiple physiological and pathological cellular and tissue functions by activation of four G protein-coupled receptors (GPCR), namely A 1 , A 2A , A 2B , and A 3 adenosine receptors (ARs). In recent years, extensive progress has been made to elucidate the role of adenosine in pain regulation. Most of the antinociceptive effects of adenosine are dependent upon A 1 AR activation located at peripheral, spinal, and supraspinal sites. The role of A 2A AR and A 2B AR is more controversial since their activation has both pro- and anti-nociceptive effects. A 3 AR agonists are emerging as promising candidates for neuropathic pain. Although their therapeutic potential has been demonstrated in diverse preclinical studies, no AR ligands have so far reached the market. To date, novel pharmacological approaches such as adenosine regulating agents and allosteric modulators have been proposed to improve efficacy and limit side effects enhancing the effect of endogenous adenosine. This review aims to provide an overview of the therapeutic potential of ligands interacting with ARs and the adenosinergic system for the treatment of acute and chronic pain.

Published
2020
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46. Pulsed Electromagnetic Fields Stimulate HIF-1α-Independent VEGF Release in 1321N1 Human Astrocytes Protecting Neuron-Like SH-SY5Y Cells from Oxygen-Glucose Deprivation.

Author

Vincenzi F, Pasquini S, Setti S, Salati S, Cadossi R, Borea PA, and Varani K

Subjects
Astrocytes metabolism, Astrocytes radiation effects, Cell Hypoxia, Cell Survival, Cells, Cultured, Gene Expression Regulation, Humans, Hypoxia-Inducible Factor 1, alpha Subunit genetics, Neuroblastoma etiology, Neuroblastoma metabolism, Neuroblastoma pathology, Protective Agents, Signal Transduction, Vascular Endothelial Growth Factor A genetics, Astrocytes cytology, Electromagnetic Fields, Glucose deficiency, Hypoxia-Inducible Factor 1, alpha Subunit metabolism, Neuroblastoma prevention & control, Oxygen metabolism, Vascular Endothelial Growth Factor A metabolism
Abstract

Pulsed electromagnetic fields (PEMFs) are emerging as an innovative, non-invasive therapeutic option in different pathological conditions of the central nervous system, including cerebral ischemia. This study aimed to investigate the mechanism of action of PEMFs in an in vitro model of human astrocytes, which play a key role in the events that occur following ischemia. 1321N1 cells were exposed to PEMFs or hypoxic conditions and the release of relevant neurotrophic and angiogenic factors, such as VEGF, EPO, and TGF-β1, was evaluated by means of ELISA or AlphaLISA assays. The involvement of the transcription factor HIF-1α was studied by using the specific inhibitor chetomin and its expression was measured by flow cytometry. PEMF exposure induced a time-dependent, HIF-1α-independent release of VEGF from 1321N1 cells. Astrocyte conditioned medium derived from PEMF-exposed astrocytes significantly reduced the oxygen-glucose deprivation-induced cell proliferation and viability decrease in the neuron-like cells SH-SY5Y. These findings contribute to our understanding of PEMFs action in neuropathological conditions and further corroborate their therapeutic potential in cerebral ischemia.

Published
2020
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47. Pharmacological data of cannabidiol- and cannabigerol-type phytocannabinoids acting on cannabinoid CB 1 , CB 2 and CB 1 /CB 2 heteromer receptors.

Author

Navarro G, Varani K, Lillo A, Vincenzi F, Rivas-Santisteban R, Raïch I, Reyes-Resina I, Ferreiro-Vera C, Borea PA, Sánchez de Medina V, Nadal X, and Franco R

Subjects
Animals, Binding Sites, Binding, Competitive, Biosensing Techniques, CHO Cells, Cannabidiol metabolism, Cannabinoids metabolism, Cricetulus, Cyclic AMP metabolism, Dose-Response Relationship, Drug, Drug Inverse Agonism, Extracellular Signal-Regulated MAP Kinases metabolism, Fluorescence Resonance Energy Transfer, HEK293 Cells, Humans, Ligands, Phosphorylation, Protein Binding, Radioligand Assay, Receptor, Cannabinoid, CB1 metabolism, Receptor, Cannabinoid, CB2 metabolism, Signal Transduction, beta-Arrestins metabolism, Cannabidiol pharmacology, Cannabinoids pharmacology, Receptor, Cannabinoid, CB1 agonists, Receptor, Cannabinoid, CB2 agonists
Abstract

Background: Recent approved medicines whose active principles are Δ 9 Tetrahidrocannabinol (Δ 9 -THC) and/or cannabidiol (CBD) open novel perspectives for other phytocannabinoids also present in Cannabis sativa L. varieties. Furthermore, solid data on the potential benefits of acidic and varinic phytocannabinoids in a variety of diseases are already available. Mode of action of cannabigerol (CBG), cannabidiolic acid (CBDA), cannabigerolic acid (CBGA), cannabidivarin (CBDV) and cannabigerivarin (CBGV) is, to the very least, partial., Hypothesis/purpose: Cannabinoid CB 1 or CB 2 receptors, which belong to the G-protein-coupled receptor (GPCR) family, are important mediators of the action of those cannabinoids. Pure CBG, CBDA, CBGA, CBDV and CBGV from Cannabis sativa L. are differentially acting on CB 1 or CB 2 cannabinoid receptors., Study Design: Determination of the affinity of phytocannabinoids for cannabinoid receptors and functional assessment of effects promoted by these compounds when interacting with cannabinoid receptors., Methods: A heterologous system expressing the human versions of CB 1 and/or CB 2 receptors was used. Binding to membranes was measured using radioligands and binding to living cells using a homogenous time resolved fluorescence resonance energy transfer (HTRF) assay. Four different functional outputs were assayed: determination of cAMP levels and of extracellular-signal-related-kinase phosphorylation, label-free dynamic mass redistribution (DMR) and ß-arrestin recruitment., Results: Affinity of cannabinoids depend on the ligand of reference and may be different in membranes and in living cells. All tested phytocannabinoids have agonist-like behavior but behaved as inverse-agonists in the presence of selective receptor agonists. CBGV displayed enhanced potency in many of the functional outputs. However, the most interesting result was a biased signaling that correlated with differential affinity, i.e. the overall results suggest that the binding mode of each ligand leads to specific receptor conformations underlying biased signaling outputs., Conclusion: Results here reported and the recent elucidation of the three-dimensional structure of CB 1 and CB 2 receptors help understanding the mechanism of action that might be protective and the molecular drug-receptor interactions underlying biased signaling., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published
2020
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48. The Detrimental Action of Adenosine on Glutamate-Induced Cytotoxicity in PC12 Cells Can Be Shifted towards a Neuroprotective Role through A 1 AR Positive Allosteric Modulation.

Author

Vincenzi F, Pasquini S, Gessi S, Merighi S, Romagnoli R, Borea PA, and Varani K

Subjects
Adenosine A1 Receptor Antagonists pharmacology, Adenosine A2 Receptor Antagonists pharmacology, Adenosine-5'-(N-ethylcarboxamide) pharmacology, Allosteric Regulation drug effects, Animals, Carbazoles pharmacology, Caspases metabolism, Cell Death drug effects, Colforsin pharmacology, Membrane Potential, Mitochondrial drug effects, PC12 Cells, Piperazines pharmacology, Pyrroles pharmacology, Quinazolines pharmacology, Rats, Reactive Oxygen Species metabolism, Receptors, Adenosine A2 metabolism, Thiophenes pharmacology, Triazoles pharmacology, Adenosine pharmacology, Glutamic Acid toxicity, Neuroprotection drug effects, Receptor, Adenosine A1 metabolism
Abstract

Glutamate cytotoxicity is implicated in neuronal death in different neurological disorders including stroke, traumatic brain injury, and neurodegenerative diseases. Adenosine is a nucleoside that plays an important role in modulating neuronal activity and its receptors have been identified as promising therapeutic targets for glutamate cytotoxicity. The purpose of this study is to elucidate the role of adenosine and its receptors on glutamate-induced injury in PC12 cells and to verify the protective effect of the novel A 1 adenosine receptor positive allosteric modulator, TRR469. Flow cytometry experiments to detect apoptosis revealed that adenosine has a dual role in glutamate cytotoxicity, with A 2A and A 2B adenosine receptor (AR) activation exacerbating and A 1 AR activation improving glutamate-induced cell injury. The overall effect of endogenous adenosine in PC12 cells resulted in a facilitating action on glutamate cytotoxicity, as demonstrated by the use of adenosine deaminase and selective antagonists. However, enhancing the action of endogenous adenosine on A 1 ARs by TRR469 completely abrogated glutamate-mediated cell death, caspase 3/7 activation, ROS production, and mitochondrial membrane potential loss. Our results indicate a novel potential therapeutic strategy against glutamate cytotoxicity based on the positive allosteric modulation of A 1 ARs.

Published
2020
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49. Adenosinergic System Involvement in Ischemic Stroke Patients' Lymphocytes.

Author

Pasquini S, Vincenzi F, Casetta I, Laudisi M, Merighi S, Gessi S, Borea PA, and Varani K

Subjects
5'-Nucleotidase metabolism, Adenosine physiology, Aged, Aged, 80 and over, Antigens, CD metabolism, Apyrase metabolism, Brain Ischemia metabolism, Female, GPI-Linked Proteins metabolism, Humans, Ischemic Stroke immunology, Ischemic Stroke physiopathology, Male, Membrane Proteins, Phosphoproteins, Receptors, Purinergic P1 metabolism, Receptors, Purinergic P1 physiology, Stroke metabolism, Adenosine metabolism, Ischemic Stroke metabolism, Lymphocytes metabolism
Abstract

Adenosine modulates many physiological processes through the interaction with adenosine receptors (ARs) named as A 1 , A 2A , A 2B, and A 3 ARs. During ischemic stroke, adenosine mediates neuroprotective and anti-inflammatory effects through ARs activation. One of the dominant pathways generating extracellular adenosine involves the dephosphorylation of ATP by ecto-nucleotidases CD39 and CD73, which efficiently hydrolyze extracellular ATP to adenosine. The aim of the study is to assess the presence of ARs in lymphocytes from ischemic stroke patients compared to healthy subjects and to analyze changes in CD39 and CD73 expression in CD4 + and CD8 + lymphocytes. Saturation binding experiments revealed that A 2A ARs affinity and density were significantly increased in ischemic stroke patients whilst no differences were found in A 1 , A 2B, and A 3 ARs. These results were also confirmed in reverse transcription (RT)-polymerase chain reaction (PCR) assays where A 2A AR mRNA levels of ischemic stroke patients were higher than in control subjects. In flow cytometry experiments, the percentage of CD73 + cells was significantly decreased in lymphocytes and in T-lymphocyte subclasses CD4 + and CD8 + obtained from ischemic stroke patients in comparison with healthy individuals. These data corroborate the importance of the adenosinergic system in ischemic stroke and could open the way to more targeted therapeutic approaches and biomarker development for ischemic stroke., Competing Interests: The authors declare no conflict of interest.

Published
2020
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50. Signaling pathways involved in anti-inflammatory effects of Pulsed Electromagnetic Field in microglial cells.

Author

Merighi S, Gessi S, Bencivenni S, Battistello E, Vincenzi F, Setti S, Cadossi M, Borea PA, Cadossi R, and Varani K

Subjects
Adenylyl Cyclase Inhibitors pharmacology, Adenylyl Cyclases metabolism, Animals, Caspase 1 metabolism, Cell Line, Cytokines metabolism, Electromagnetic Fields, Interleukin-6 metabolism, Janus Kinases antagonists & inhibitors, Janus Kinases metabolism, Lipopolysaccharides toxicity, MAP Kinase Signaling System drug effects, Mice, Microglia drug effects, Microglia enzymology, Microglia metabolism, Mitogen-Activated Protein Kinase 3 antagonists & inhibitors, Mitogen-Activated Protein Kinase 3 metabolism, Phagocytosis drug effects, Phagocytosis radiation effects, Protein Kinase C-delta antagonists & inhibitors, Protein Kinase C-delta metabolism, Protein Kinase C-epsilon antagonists & inhibitors, Protein Kinase C-epsilon metabolism, Proto-Oncogene Proteins c-akt metabolism, Reactive Oxygen Species metabolism, Reactive Oxygen Species radiation effects, Signal Transduction drug effects, Signal Transduction radiation effects, Type C Phospholipases antagonists & inhibitors, Type C Phospholipases metabolism, p38 Mitogen-Activated Protein Kinases antagonists & inhibitors, p38 Mitogen-Activated Protein Kinases metabolism, Inflammation metabolism, Interleukin-1beta metabolism, MAP Kinase Signaling System radiation effects, Microglia radiation effects, Tumor Necrosis Factor-alpha metabolism
Abstract

Literature studies suggest important protective effects of low-frequency, low-energy pulsed electromagnetic fields (PEMFs) on inflammatory pathways affecting joint and cerebral diseases. However, it is not clear on which bases they affect neuroprotection and the mechanism responsible is yet unknown. Therefore the aim of this study was to identify the molecular targets of PEMFs anti-neuroinflammatory action. The effects of PEMF exposure in cytokine production by lipopolysaccharide (LPS)-activated N9 microglial cells as well as the pathways involved, including adenylyl cyclase (AC), phospholipase C (PLC), protein kinase C epsilon (PKC-ε) and delta (PKC-δ), p38, ERK1/2, JNK1/2 mitogen activated protein kinases (MAPK), Akt and caspase 1, were investigated. In addition, the ability of PEMFs to modulate ROS generation, cell invasion and phagocytosis, was addressed. PEMFs reduced the LPS-increased production of TNF-α and IL-1β in N9 cells, through a pathway involving JNK1/2. Furthermore, they decreased the LPS-induced release of IL-6, by a mechanism not dependent on AC, PLC, PKC-ε, PKC-δ, p38, ERK1/2, JNK1/2, Akt and caspase 1. Importantly, a significant effect of PEMFs in the reduction of crucial cell functions specific of microglia like ROS generation, cell invasion and phagocytosis was found. PEMFs inhibit neuroinflammation in N9 cells through a mechanism involving, at least in part, the activation of JNK MAPK signalling pathway and may be relevant to treat a variety of diseases characterized by neuroinflammation., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published
2020
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