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204. Procaine antidepressant effect

Author

Del Buono, C., primary, Malcangio, M., additional, Zevgoli, S., additional, Ghelardini, C., additional, Giotti, A., additional, Malmberg-Aiello, P., additional, Meini, S., additional, and Bartolini, A., additional

Published
1988
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217. α-2 agonists induce amnesia through activation of the Gi-protein signalling pathway

Author

Galeotti, N., Bartolini, A., and Ghelardini, C.

Subjects
*ANALGESIA, *AMNESIA, *DISSOCIATIVE disorders, *OLIGONUCLEOTIDES
Abstract

The post-receptorial mechanism of the amnesic action of the α2-agonists clonidine and guanabenz was investigated in the mouse passive avoidance test. Animals were i.c.v. injected with pertussis toxin (PTX) or with antisense oligonucleotides, complementary to the sequence of the α-subunit mRNA of Gi1, Gi2, Gi3, Go1 and Go2 proteins. The administration of PTX (0.25 μg per mouse i.c.v.) reversed the amnesia induced by both α2-agonists. Similarly, anti-Giα1 (6.25–12.5 μg per mouse i.c.v.), anti-Giα3 (3.12–12.5 μg per mouse i.c.v.), anti-Goα1 (12.5–25 μg per mouse i.c.v.) antagonised the detrimental effect induced by clonidine and guanabenz. By contrast, pretreatment with anti-Giα2 (3.12–25 μg per mouse i.c.v.) and anti-Goα2 (12.5–25 μg per mouse i.c.v.) never modified the impairment of memory processes induced by the α2-agonists. At the highest effective doses, none of the compounds used impaired motor coordination (rota rod test), nor modified spontaneous motility and inspection activity, (hole board test). These results indicate the involvement of Gi1, Gi3, and Go1, but not Gi2 and Go2, protein subtypes in the transduction mechanism responsible for the induction of amnesia by clonidine and guanabenz. [Copyright &y& Elsevier]

Published
2004
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218. Diphenhydramine-induced amnesia is mediated by Gi-protein activation

Author

Galeotti, N., Bartolini, A., and Ghelardini, C.

Subjects
*AMNESIA, *G proteins, *MEMORY, *PERTUSSIS toxin
Abstract

The effect of the i.c.v. administration of antisense oligodeoxynucleotides directed against the α subunit of different Gi-proteins (anti-Giα1, anti-Giα2, anti-Giα3, anti-Goα1, anti-Goα2) on the amnesia induced by the H1-antihistamine diphenhydramine (20 mg kg−1 s.c.) was evaluated in the mouse passive avoidance test. Pretreatment with anti-Giα1 (12.5–25 μg per mouse i.c.v.) and anti-Giα2 (25 μg per mouse i.c.v.), administered 24 and 18 h before test, prevented antihistamine-induced amnesia. By contrast, pretreatment with an anti-Giα3 (25 μg per mouse i.c.v.), anti-Goα1 (25 μg per mouse i.c.v.) and anti-Goα2 (25 μg per mouse i.c.v.) did not modify the detrimental effect induced by diphenhydramine. At the highest effective doses, none of the compounds used impaired motor coordination, as revealed by the rota rod test, nor modified spontaneous motility and inspection activity, as revealed by the hole board test.These results suggest the important role played by the Gi1- and Gi2-protein pathway in the transduction mechanism involved in the impairment of memory processes produced by the H1-antihistamine diphenhydramine. [Copyright &y& Elsevier]

Published
2003
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219. Anti-mu opioid antiserum against the third external loop of the cloned mu-opioid receptor acts as a mu receptor neutral antagonist

Author

Guarna, M., Bartolini, A., Ghelardini, C., Galeotti, N., Bracci, L., Stefano, G.B., and Bianchi, E.

Subjects
*OPIOIDS, *SERUM, *MORPHINE, *LIGANDS (Biochemistry)
Abstract

The region from the third external loop to the C terminus of MOR-1 appeared to be critical to the selective binding of MOR-1 ligands as DAMGO and morphine to MOR-1. To study the pharmacological properties of the third extracellular loop an antibody was raised in rabbits against the sequence 304–316 which is unique to MOR-1 and includes the third external loop; the anti-MOR-1 antibody was affinity purified against the immunogen sequence and characterized by [3H]DAMGO and Western blotting; [3H]DPDPE binding assay remained unchanged in the presence of the antibody. Anti-MOR-1 IgG was characterized as a neutral antagonist in Chinese hamster ovary (CHO) cells hyperexpressing constitutively active MOR-1s; in fact, anti-MOR-1 IgG completely reversed the inhibition induced by the MOR-1 agonist endomorphin1, endomorphin2, DAMGO and morphine on forskolin stimulated cyclic AMP (cAMP) accumulation and attenuated both the action of the selective MOR-1 agonist DAMGO to increase [35S]GTPγS binding and the action of the MOR-1 inverse agonist beta-chlornaltrexamine (CNA) to decrease [35S]GTPγS binding. Radioligand binding assay using membrane suspensions from CHO cells hyperexpressing MOR-1 revealed a significant decreased binding affinity and capacity of all the tested MOR-1 selective ligands after preincubation with anti-MOR-1 IgG. Therefore, the third extracellular loop of MOR-1 appeared to be a key element for the binding of MOR-1 ligands. [Copyright &y& Elsevier]

Published
2003
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220. The reduction of food intake induced in mice by benzylamine and its derivatives.

Author

Raimondi, L., Banchelli, G., Ghelardini, C., and Pirisino, R.

Subjects
*INGESTION, *MONOAMINE oxidase, *ENZYMES, *POTASSIUM channels, *MICE
Abstract

Characterisation of the pharmacological profile of non-physiological amine oxidase substrates could help to identify the endogenous role of this class of enzymes. Previous studies have suggested that benzylamine, a common non-physiological substrate for monoamine and tissue-bound or soluble benzylamine oxidases, could behave as a potassium channel blocking agent. Potassium channel blockers are known to modify several forms of animal behaviour including food consumption. To characterise further the pharmacological profile of benzylamine and the role of amine oxidases, we have studied the effect of benzylamine on mice food intake. Our results confirm that benzylamine produces a reduction in mice feeding in a similar manner to that obtained by amphetamine. The anorectic effect of benzylamine and amphetamine in mice was potentiated by pretreatment with amine oxidase inhibitors. In addition, the introduction of substituents in the aromatic ring of benzylamine did not produce compounds with a higher anorectic potency than the one measured with benzylamine. [ABSTRACT FROM AUTHOR]

Published
2003
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221. Central Cholinergic Challenging of Migraine by Testing Second-Generation Anticholinesterase Drugs.

Author

Nicolodi, M., Galeotti, N., Ghelardini, C., Bartolini, A., and Sicuteri, F.

Subjects
*CHOLINESTERASE inhibitors, *MIGRAINE, *HEADACHE treatment, *ANALGESICS
Abstract

The antinociceptive activity of donepezil, a novel cholinesterase inhibitor, was investigated in the mouse hot plate test. Donepezil (5 to 10 mg kg- 1 i.p.) induced a dose-dependent antinociception that reached its maximum effect 15 minutes after injection. Donepezil antinociception was prevented by the antimuscarinic drug scopolamine. At analgesic doses, donepezil did not alter gross animal behavior. These results indicate that donepezil is endowed by muscarinic antinociceptive properties, suggesting this compound as a potential therapeutic approach for the treatment of painful pathologies. Therefore, we investigated donepezil's effect in migraine. Donepezil (5 mg per os, evening assumption) was effective as a prophylatic agent in patients suffering from migraine with or without aura by reducing the number of hours with pain, the number of attacks, and the severity of the pain attack. The efficacy of donepezil was compared with that of the β-blocker propranolol (40 mg bid per os), showing higher activity. Response rates of a large-sized open study devoid of entry criteria regarding migraine subtypes suggest the drug as an excellent prophylactic compound for migraine in general practice. Clinical results also indicate that the activation of the cholinergic system can represent a novel prophylactic approach to migraine. [ABSTRACT FROM AUTHOR]

Published
2002
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223. Environmental training is beneficial to clinical symptoms and cortical presynaptic defects in mice suffering from experimental autoimmune encephalomyelitis.

Author

Bonfiglio, T., Olivero, G., Vergassola, M., Di Cesare Mannelli, L., Pacini, A., Iannuzzi, F., Summa, M., Bertorelli, R., Feligioni, M., Ghelardini, C., and Pittaluga, A.

Subjects
*PRESYNAPTIC receptors, *AUTOIMMUNE diseases, *ENCEPHALOMYELITIS, *LABORATORY mice, *CLINICAL trials
Abstract

Abstract The effect of "prophylactic" environmental stimulation on clinical symptoms and presynaptic defects in mice suffering from the experimental autoimmune encephalomyelitis (EAE) at the acute stage of disease (21 ± 1 days post immunization, d.p.i.) was investigated. In EAE mice raised in an enriched environment (EE), the clinical score was reduced when compared to EAE mice raised in standard environment (SE).Concomitantly, gain of weight and increased spontaneous motor activity and curiosity were observed, suggesting increased well-being in mice. Impaired glutamate exocytosis and cyclic adenosine monophosphate (cAMP) production in cortical terminals of SE-EAE mice were evident at 21 ± 1 d.p.i.. Differently, the 12 mM KCl-evoked glutamate exocytosis from cortical synaptosomes of EE-EAE mice was comparable to that observed in SE and EE-control mice, but significantly higher than that in SE-EAE mice. Similarly, the 12 mM KCl-evoked cAMP production in EE-EAE mice cortical synaptosomes recovered to the level observed in SE and EE-control mice. MUNC-18 and SNAP25 contents, but not Syntaxin-1a and Synaptotagmin 1 levels, were increased in cortical synaptosomes from EE-EAE mice when compared to SE-EAE mice. Circulating IL-1β was increased in the spinal cord, but not in the cortex, of SE-EAE mice, and it did not recover in EE-EAE mice. Inflammatory infiltrates were reduced in the cortex but not in the spinal cord of EE-EAE mice. Demyelination was observed in the spinal cord; EE significantly diminished it. We conclude that "prophylactic" EE is beneficial to synaptic derangements and preserves glutamate transmission in the cortex of EAE mice. This article is part of the Special Issue entitled "Neurobiology of Environmental Enrichment". Graphical abstract Image 1 Highlights • Enriched environment (EE) ameliorates clinical score and behaviours in EAE mice. • Inflammatory infiltrates and spinal demyelination are reduced in EE-EAE mice. • EE preserves glutamate exocytosis efficiency from cortical terminals. • cAMP production from cortical synaptosomes is unaltered in trained EAE mice. • EE increases the expression of MUNC-18 and SNAP-25 in the cortex. [ABSTRACT FROM AUTHOR]

Published
2019
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224. In vitro and in vivo characterization of the bifunctional μ and δ opioid receptor ligand UFP-505.

Author

Dietis, N., Niwa, H., Tose, R., McDonald, J., Ruggieri, V., Filaferro, M., Vitale, G., Micheli, L., Ghelardini, C., Salvadori, S., Calo, G., Guerrini, R., Rowbotham, D. J., and Lambert, D. G.

Subjects
*OPIOID peptides, *OPIOID receptors, *ANALGESICS, *PHARMACOLOGY, *MORPHINE
Abstract

Background and Purpose: Targeting more than one opioid receptor type simultaneously may have analgesic advantages in reducing side-effects. We have evaluated the mixed μ opioid receptor agonist/ δ opioid receptor antagonist UFP-505 in vitro and in vivo.Experimental Approach: We measured receptor density and function in single μ, δ and μ /δ receptor double expression systems. GTPγ35 S binding, cAMP formation and arrestin recruitment were measured. Antinociceptive activity was measured in vivo using tail withdrawal and paw pressure tests following acute and chronic treatment. In some experiments, we collected tissues to measure receptor densities.Key Results: UFP-505 bound to μ receptors with full agonist activity and to δ receptors as a low efficacy partial agonist At μ, but not δ receptors, UFP-505 binding recruited arrestin. Unlike morphine, UFP-505 treatment internalized μ receptors and there was some evidence for internalization of δ receptors. Similar data were obtained in a μ /δ receptor double expression system. In rats, acute UFP-505 or morphine, injected intrathecally, was antinociceptive. In tissues harvested from these experiments, μ and δ receptor density was decreased after UFP-505 but not morphine treatment, in agreement with in vitro data. Both morphine and UFP-505 induced significant tolerance.Conclusions and Implications: In this study, UFP-505 behaved as a full agonist at μ receptors with variable activity at δ receptors. This bifunctional compound was antinociceptive in rats after intrathecal administration. In this model, dual targeting provided no advantages in terms of tolerance liability.Linked Articles: This article is part of a themed section on Emerging Areas of Opioid Pharmacology. To view the other articles in this section visit http://onlinelibrary.wiley.com/doi/10.1111/bph.v175.14/issuetoc. [ABSTRACT FROM AUTHOR]

Published
2018
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225. Selective HCN1 block as a strategy to control oxaliplatin-induced neuropathy.

Author

Resta, F., Micheli, L., Laurino, A., Spinelli, V., Mello, T., Sartiani, L., Di Cesare Mannelli, L., Cerbai, E., Ghelardini, C., Romanelli, M.N., Mannaioni, G., and Masi, A.

Subjects
*OXALIPLATIN, *NEUROPATHY, *CANCER chemotherapy, *CYCLIC nucleotides, *CANCER treatment, *DRUG side effects
Abstract

Chemotherapy-Induced Peripheral Neuropathy (CIPN) is the most frequent adverse effect of pharmacological cancer treatments. The occurrence of neuropathy prevents the administration of fully-effective drug regimen, affects negatively the quality of life of patients, and may lead to therapy discontinuation. CIPN is currently treated with anticonvulsants, antidepressants, opioids and non-opioid analgesics, all of which are flawed by insufficient anti-hyperalgesic efficacy or addictive potential. Understandably, developing new drugs targeting CIPN-specific pathogenic mechanisms would dramatically improve efficacy and tolerability of anti-neuropathic therapies. Neuropathies are associated to aberrant excitability of DRG neurons due to the alteration in the expression or function of a variety of ion channels. In this regard, Hyperpolarization-activated Cyclic Nucleotide-gated (HCN) channels are overexpressed in inflammatory and neuropathic pain states, and HCN blockers have been shown to reduce neuronal excitability and to ameliorate painful states in animal models. However, HCN channels are critical in cardiac action potential, and HCN blockers used so far in pre-clinical models do not discriminate between cardiac and non-cardiac HCN isoforms. In this work, we show an HCN current gain of function in DRG neurons from oxaliplatin-treated rats. Biochemically, we observed a downregulation of HCN2 expression and an upregulation of the HCN regulatory beta-subunit MirP1. Finally, we report the efficacy of the selective HCN1 inhibitor MEL57A in reducing hyperalgesia and allodynia in oxaliplatin-treated rats without cardiac effects. In conclusion, this study strengthens the evidence for a disease-specific role of HCN1 in CIPN, and proposes HCN1-selective inhibitors as new-generation pain medications with the desired efficacy and safety profile. [ABSTRACT FROM AUTHOR]

Published
2018
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226. Persulfidation of mitoKv7.4 channels contributes to the cardioprotective effects of the H2S-donor Erucin against ischemia/reperfusion injury.

Author

Testai, L., Montanaro, R., Flori, L., Pagnotta, E., Vellecco, V., Gorica, E., Ugolini, L., Righetti, L., Brancaleone, V., Bucci, M., Piragine, E., Martelli, A., Di Cesare Mannelli, L., Ghelardini, C., and Calderone, V.

Subjects
*MYOCARDIAL reperfusion, *REPERFUSION injury, *ISCHEMIA, *POTASSIUM channels, *MYOCARDIAL infarction, *MEMBRANE potential
Abstract

[Display omitted] Hydrogen sulfide (H 2 S) is a gasotransmitter deeply involved in cardiovascular homeostasis and implicated in the myocardial protection against ischemia/reperfusion. The post-translational persulfidation of cysteine residues has been identified as the mechanism through which H 2 S regulates a plethora of biological targets. Erucin (ERU) is an isothiocyanate produced upon hydrolysis of the glucosinolate glucoerucin, presents in edible plants of Brassicaceae family, such as Eruca sativa Mill., and it has emerged as a slow and long-lasting H 2 S-donor. In this study the cardioprotective profile of ERU has been investigated and the action mechanism explored, focusing on the possible role of the recently identified mitochondrial Kv7.4 (mitoKv7.4) potassium channels. Interestingly, ERU showed to release H 2 S and concentration-dependently protected H9c2 cells against H 2 O 2 -induced oxidative damage. Moreover, in in vivo model of myocardial infarct ERU showed protective effects, reducing the extension of ischemic area, the levels of troponin I and increasing the amount of total AnxA1, as well as co-related inflammatory outcomes. Conversely, the pre-treatment with XE991, a blocker of Kv7.4 channels, abolished them. In isolated cardiac mitochondria ERU exhibited the typical profile of a mitochondrial potassium channels opener, in particular, this isothiocyanate produced a mild depolarization of mitochondrial membrane potential, a reduction of calcium accumulation into the matrix and finally a flow of potassium ions. Finally, mitoKv7.4 channels were persulfidated in ERU-treated mitochondria. ERU modulates the cardiac mitoKv7.4 channels and this mechanism may be relevant for cardioprotective effects. [ABSTRACT FROM AUTHOR]

Published
2023
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228. Increase of neurofilament-H protein in sensory neurons in antiretroviral neuropathy: Evidence for a neuroprotective response mediated by the RNA-binding protein HuD.

Author

Sanna, M.D., Peroni, D., Mello, T., Ghelardini, C., Quattrone, A., and Galeotti, N.

Subjects
*CYTOPLASMIC filaments, *SENSORY neurons, *ANTIRETROVIRAL agents, *NEUROPROTECTIVE agents, *RNA-binding proteins, *NUCLEOSIDE reverse transcriptase inhibitors
Abstract

Nucleoside reverse transcriptase inhibitors (NRTIs) are key components of HIV/AIDS treatment to reduce viral load. However, antiretroviral toxic neuropathy has become a common peripheral neuropathy among HIV/AIDS patients leading to discontinuation of antiretroviral therapy, for which the underlying pathogenesis is uncertain. This study examines the role of neurofilament (NF) proteins in the spinal dorsal horn, DRG and sciatic nerve after NRTI neurotoxicity in mice treated with zalcitabine (2′,3′-dideoxycitidine; ddC). ddC administration up-regulated NF-M and pNF-H proteins with no effect on NF-L. The increase of pNF-H levels was counteracted by the silencing of HuD, an RNA binding protein involved in neuronal development and differentiation. Sciatic nerve sections of ddC exposed mice showed an increased axonal caliber, concomitantly to a pNF-H up-regulation. Both events were prevented by HuD silencing. pNF-H and HuD colocalize in DRG and spinal dorsal horn axons. However, the capability of HuD to bind NF mRNA was not demonstrated, indicating the presence of an indirect mechanism of control of NF expression by HuD. RNA immunoprecipitation experiments showed the capability of HuD to bind the BDNF mRNA and the administration of an anti-BDNF antibody prevented pNF-H increase. These data indicate the presence of a HuD – BDNF – NF-H pathway activated as a regenerative response to the axonal damage induced by ddC treatment to counteract the antiretroviral neurotoxicity. Since analgesics clinically used to treat neuropathic pain are ineffective on antiretroviral neuropathy, a neuroregenerative strategy might represent a new therapeutic opportunity to counteract neurotoxicity and avoid discontinuation or abandon of NRTI therapy. [ABSTRACT FROM AUTHOR]

Published
2016
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229. Development of solid lipid nanoparticles as carriers for improving oral bioavailability of glibenclamide.

Author

Gonçalves, L.M.D., Maestrelli, F., Di Cesare Manelli, L., Ghelardini, C., Almeida, A.J., and Mura, P.

Subjects
*NANOMEDICINE, *DRUG development, *DRUG carriers, *ORAL drug administration, *BIOAVAILABILITY, *GLIBENCLAMIDE
Abstract

A solid lipid nanoparticle (SLN) formulation was developed with the aim of improving the oral bioavailability and the therapeutic effectiveness of glibenclamide (GLI), a poorly water-soluble drug used in the treatment of type 2 diabetes. The SLN was prepared using different lipid components (Precirol® and Compritol®) and preparation procedures. Precirol-based SLN, obtained with the emulsion of solvent evaporation technique gave the best results and was selected for drug loading. Addition of lecithin to the SLN core or PEG coating was effective in increasing the nanoparticles stability in simulated gastric solution. Both such formulations were stable after one month storage at 5 ± 3 °C, exhibited the absence of in vitro cytotoxicity, and presented a similar in vitro prolonged-release, reaching 100% release after 24 h. The lecithin-containing GLI-loaded SLN formulation, selected for in vivo studies in virtue of its higher EE% than the PEG-coated formulation (70.3% vs 19.6%), showed a significantly stronger hypoglycemic effect with respect to the drug alone, in terms of both shorter onset time and longer duration of the effect. These positive results indicated that the proposed SLN approach was successful in improving GLI oral bioavailability, confirming its potential as an effective delivery system for a suitable therapy of diabetes. [ABSTRACT FROM AUTHOR]

Published
2016
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230. Spinal RyR2 pathway regulated by the RNA-binding protein HuD induces pain hypersensitivity in antiretroviral neuropathy.

Author

Sanna, M.D., Peroni, D., Quattrone, A., Ghelardini, C., and Galeotti, N.

Subjects
*PAIN, *ANTIRETROVIRAL agents, *NEUROPATHY, *SENSORY neurons, *AIDS, *INTRACELLULAR calcium
Abstract

The antiretroviral toxic neuropathy, a distal sensory polyneuropathy associated with antiretroviral treatment, is a frequently occurring neurological complication during treatment of patients with AIDS and often leads to discontinuation of antiretroviral therapy. The mechanisms by which antiretroviral drugs contribute to the development of neuropathic pain are not known. Using drugs that reduce intracellular calcium ions (Ca 2 + ), we investigated the hypothesis that altered cytosolic Ca 2 + concentration contributes to the 2′,3′-dideoxycytidine (ddC)-evoked painful neuropathy. Administration of ddC induced mechanical and cold allodynia, which were abolished by intrathecal administration of TMB-8, a blocker of Ca 2 + release from intracellular stores, and by ryanodine, a RyR antagonist. Treatment with the IP3R antagonist heparin prevented mechanical allodynia with no effect on thermal response. To further clarify the pathway involved, we investigated the role of HuD, a RNA binding protein involved in neuronal function. HuD silencing reverted both mechanical and cold allodynia inducing, a phenotype comparable to that of ryanodine-exposed mice. HuD binding to the RyR2 mRNA, the most abundant RyR isoform in the spinal cord, was demonstrated and RyR2 silencing prevented the ddC-induced neuropathic pain. A positive regulation of gene expression on CaMKIIα by HuD was also observed, but sequestration of CaMKIIα had no effect on ddC-induced allodynia. The present findings identify a spinal RyR2 pathway activated in response to ddC administration, involving the binding activity on RyR2 mRNA by HuD. We propose the modulation of the RyR2 pathway as a therapeutic perspective in the management of antiretroviral painful neuropathy. [ABSTRACT FROM AUTHOR]

Published
2015
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231. Pharmacological Activities of Extracts and Compounds Isolated from Mediterranean Sponge Sources

Author

Lorenzo Di Cesare Mannelli, Fortunato Palma Esposito, Enrico Sangiovanni, Ester Pagano, Carmen Mannucci, Beatrice Polini, Carla Ghelardini, Mario Dell’Agli, Angelo Antonio Izzo, Gioacchino Calapai, Donatella de Pascale, Paola Nieri, Mannelli, L. D. C., Esposito, F. P., Sangiovanni, E., Pagano, E., Mannucci, C., Polini, B., Ghelardini, C., Dell'Agli, M., Izzo, A. A., Calapai, G., de Pascale, D., and Nieri, P.

Subjects
Marine natural product, Pharmaceutical Science, marine natural products, Review, antimicrobials, marine pharmacology, RS1-441, blue biotechnology, Pharmacy and materia medica, Mediterranean sponges, antiproliferative, Drug Discovery, Mediterranean Sea, Molecular Medicine, Anti-inflammatory, Antimicrobials, Antiproliferative, Blue biotechnology, Marine natural products, Marine pharmacology, Medicine, Antimicrobial, anti-inflammatory
Abstract

Marine pharmacology is an exciting and growing discipline that blends blue biotechnology and natural compound pharmacology together. Several sea-derived compounds that are approved on the pharmaceutical market were discovered in sponges, marine organisms that are particularly rich in bioactive metabolites. This paper was specifically aimed at reviewing the pharmacological activities of extracts or purified compounds from marine sponges that were collected in the Mediterranean Sea, one of the most biodiverse marine habitats, filling the gap in the literature about the research of natural products from this geographical area. Findings regarding different Mediterranean sponge species were individuated, reporting consistent evidence of efficacy mainly against cancer, infections, inflammatory, and neurological disorders. The sustainable exploitation of Mediterranean sponges as pharmaceutical sources is strongly encouraged to discover new compounds.

Published
2021

232. The RNA-binding protein HuD promotes spinal GAP43 overexpression in antiretroviral-induced neuropathy.

Author

Sanna, M.D., Quattrone, A., Mello, T., Ghelardini, C., and Galeotti, N.

Subjects
*CARRIER proteins, *ANTIRETROVIRAL agents, *NEUROPATHY, *RNA analysis, *NUCLEOSIDE reverse transcriptase inhibitors, *ALLERGIES
Abstract

Nucleoside reverse transcriptase inhibitors (NRTIs) are known to produce painful neuropathies and to enhance states of pain hypersensitivity produced by HIV-1 infection in patients with AIDS leading to discontinuation of antiretroviral therapy, thus limiting viral suppression strategies. The mechanisms by which NRTIs contribute to the development of neuropathic pain are not known. In the current study, we tested the hypothesis that HuD, an RNA binding protein known to be an essential promoter of neuronal differentiation and survival, might be involved in the response to NRTI-induced neuropathy. Antiretroviral neuropathy was induced by a single intraperitoneal administration of 2′,3′-dideoxycytidine (ddC) in mice. HuD was physiologically expressed in the cytoplasm of the soma and in axons of neurons within DRG and spinal cord and was considerably overexpressed following ddC treatment. ddC up-regulated spinal GAP43 protein, a marker of neuroregeneration, and this increase was counteracted by HuD silencing. GAP43 and HuD colocalize in DRG and spinal dorsal horn (SDH) axons and administration of an anti-GAP43 antibody aggravated the ddC-induced axonal damage. The administration of a protein kinase C (PKC) inhibitor or the PKCγ silencing prevented both HuD and GAP43 increased expression. Conversely, treatment with the PKC activator PDBu potentiated HuD and GAP43 overexpression, demonstrating the presence of a spinal PKC-dependent HuD–GAP43 pathway activated by ddC. These results indicated that HuD recruitment and GAP43 protein increase are mechanistically linked events involved in the response to antiretroviral-induced neurodegenerative processes. [ABSTRACT FROM AUTHOR]

Published
2014
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233. Development and characterization of functionalized niosomes for brain targeting of dynorphin-B.

Author

Bragagni, M., Mennini, N., Furlanetto, S., Orlandini, S., Ghelardini, C., and Mura, P.

Subjects
*DYNORPHINS, *NEUROPEPTIDES, *OPIOID receptors, *CENTRAL nervous system, *ANALGESICS, *BLOOD-brain barrier, *VESICLES (Cytology)
Abstract

Abstract: A niosomal formulation, functionalized with N-palmitoylglucosamine, was developed as potential brain targeted delivery system of dynorphin-B. In fact, this endogenous neuropeptide, selective agonist of k opioid receptors, is endowed with relevant pharmacological activities on the central nervous system, including a marked antinociceptive effect, but is unable to cross the blood brain barrier (BBB), thus requiring intracerebroventricular administration. Statistical design of experiments was utilized for a systematic evaluation of the influence of variations of the relative amounts of the components of the vesicle membrane (Span 60, cholesterol and SolulanC24) on vesicle mean diameter, polydispersity index and drug entrapment efficiency, chosen as the responses to optimize. A Scheffé simplex-centroid design was used to obtain the coefficients of the postulated mathematical model. The study of the response surface plots revealed that variations of the considered factors had different effects on the selected responses. The desirability function enabled for finding the optimal mixture composition, which represented the best compromise to simultaneously optimize all the three responses. The experimental values obtained with the optimized formulation were very similar to the predicted ones, proving the validity of the proposed regression model. The optimized niosomal formulation of dynorphin-B administered intravenously to mice (100mg/kg) showed a pronounced antinociceptive effect, significantly higher (P <0.05) than that given by i.v. administration of the simple solution of the peptide at the same concentration, proving its effectiveness in enabling the peptide brain delivery. These positive results suggest that the proposed approach could be successfully extended to other neuro-active peptides exerting a strong central action, even at low doses, but unable to cross the BBB. [Copyright &y& Elsevier]

Published
2014
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234. The novel anti-inflammatory agent VA694, endowed with both NO-releasing and COX2-selective inhibiting properties, exhibits NO-mediated positive effects on blood pressure, coronary flow and endothelium in an experimental model of hypertension and endothelial dysfunction.

Author

Martelli, A., Testai, L., Anzini, M., Cappelli, A., Di Capua, A., Biava, M., Poce, G., Consalvi, S., Giordani, A., Caselli, G., Rovati, L., Ghelardini, C., Patrignani, P., Sautebin, L., Breschi, M.C., and Calderone, V.

Subjects
*ANTI-inflammatory agents, *GASTROINTESTINAL system physiology, *NITRIC oxide synthesis, *BLOOD pressure, *CORONARY circulation, *ENDOTHELIUM physiology, *CYCLOOXYGENASE 2 inhibitors
Abstract

Abstract: Selective cyclooxygenase 2 (COX2) inhibitors (COXIBs) are effective anti-inflammatory and analgesic drugs with improved gastrointestinal (GI) safety compared to nonselective nonsteroidal anti-inflammatory drugs known as traditional (tNSAIDs). However, their use is associated with a cardiovascular (CV) hazard (i.e. increased incidence of thrombotic events and hypertension) due to the inhibition of COX2-dependent vascular prostacyclin. Aiming to design COX2-selective inhibitors with improved CV safety, new NO-releasing COXIBs (NO-COXIBs) have been developed. In these hybrid drugs, the NO-mediated CV effects are expected to compensate for the COXIB-mediated inhibition of prostacyclin. This study evaluates the potential CV beneficial effects of VA694, a promising NO-COXIB, the anti-inflammatory effects of which have been previously characterized in several in vitro and in vivo experimental models. When incubated in hepatic homogenate, VA694 acted as a slow NO-donor. Moreover, it caused NO-mediated relaxant effects in the vascular smooth muscle. The chronic oral administration of VA694 to young spontaneously hypertensive rats (SHRs) significantly slowed down the age-related development of hypertension and was associated with increased plasma levels of nitrates, stable end-metabolites of NO. Furthermore, a significant improvement of coronary flow and a significant reduction of endothelial dysfunction were observed in SHRs submitted to chronic administration of VA694. In conclusion, VA694 is a promising COX2-inhibiting hybrid drug, showing NO releasing properties which may mitigate the CV deleterious effects associated with the COX2-inhibition. [Copyright &y& Elsevier]

Published
2013
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235. Oxaliplatin-induced oxidative stress in nervous system-derived cellular models: Could it correlate with in vivo neuropathy?

Author

Di Cesare Mannelli, L., Zanardelli, M., Failli, P., and Ghelardini, C.

Subjects
*OXALIPLATIN, *OXIDATIVE stress, *NERVOUS system, *NEUROPATHY, *PLATINUM, *ANTINEOPLASTIC agents
Abstract

Abstract: Oxaliplatin is a platinum-organic drug with antineoplastic properties used for colorectal cancer. With respect to the other platinum derivates oxaliplatin induces only a mild hematological and gastrointestinal toxicity. Its limiting side effect is its neurotoxicity, which results in a sensory neuropathy. Repeated oxaliplatin treatment in the rat led to a neuropathic pain characterized by a significant oxidative damage throughout the nervous system. The natural antioxidants silibinin and α-tocopherol reduce redox alteration and prevent pain. Starting from the “oxidative hypothesis” as a molecular basis of chemotherapy-induced neurotoxicity, we decided to explore deep inside the mechanisms of oxaliplatin neurotoxicity and search for a cellular system useful for screening antioxidant compounds that can reduce oxaliplatin neurotoxicity. Focusing on various constituents of the central nervous system, we used the neuronal-derived cell line SH-SY5Y and primary cultures of rat cortical astrocytes. Oxaliplatin significantly increased superoxide anion production and induced lipid peroxidation (malonyldialdehyde levels) and protein (carbonylated proteins) and DNA oxidation (8-OH-dG levels). Silibinin and α-tocopherol (10µM) were able to reduce the oxidative damage in both cell types. These antioxidants fully protected astrocytes from the caspase 3 apoptotic signaling activation induced by oxaliplatin. The damage prevention effects of silibinin and α-tocopherol on nervous system-derived cells did not interfere with the oxaliplatin antineoplastic in vitro mechanism as evaluated on a human colon adenocarcinoma cell line (HT29). Moreover, neither silibinin nor α-tocopherol modified the oxaliplatin-induced apoptosis in HT29 cells, suggesting a different antiapoptotic profile in normal vs tumoral cells for these antioxidant compounds. In conclusion, because data obtained in in vitro cellular models parallel the in vivo study we propose cell models to investigate oxaliplatin neurotoxicity and to screen possible therapeutic adjuvant agents. [Copyright &y& Elsevier]

Published
2013
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236. Palmitoylethanolamide Is a Disease-Modifying Agent in Peripheral Neuropathy: Pain Relief and Neuroprotection Share a PPAR-Alpha-Mediated Mechanism.

Author

Di Cesare Mannelli, L., D'Agostino, G., Pacini, A., Russo, R., Zanardelli, M., Ghelardini, C., and Calignano, A.

Subjects
*PERIPHERAL neuropathy, *ANALGESIA, *NEUROPROTECTIVE agents, *ANIMAL models in research, *AXONS, *MACROPHAGES
Abstract

Neuropathic syndromes which are evoked by lesions to the peripheral or central nervous system are extremely difficult to treat, and available drugs rarely joint an antihyperalgesic with a neurorestorative effect. N-Palmitoylethanolamine (PEA) exerts anti-nociceptive effects in several animal models and inhibits peripheral inflammation in rodents. Aimed to evaluate the antineuropathic properties of PEA, a damage of the sciatic nerve was induced in mice by chronic constriction injury (CCI) and a subcutaneous daily treatment with 30 mg kg-1 PEA was performed. On the day 14, PEA prevented pain threshold alterations. Histological studies highlighted that CCI induced oedema and an important infiltrate of CD86 positive cells in the sciatic nerve. Moreover, osmicated preparations revealed a decrease in axon diameter and myelin thickness. Repeated treatments with PEA reduced the presence of oedema and macrophage infiltrate, and a significant higher myelin sheath, axonal diameter, and a number of fibers were observable. In PPAR-α null mice PEA treatment failed to induce pain relief as well as to rescue the peripheral nerve from inflammation and structural derangement. These results strongly suggest that PEA, via a PPAR-α-mediated mechanism, can directly intervene in the nervous tissue alterations responsible for pain, starting to prevent macrophage infiltration. [ABSTRACT FROM AUTHOR]

Published
2013
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237. Influence of ring size on the cognition-enhancing activity of DM235 and MN19, two potent nootropic drugs

Author

Guandalini, L., Martini, E., Di Cesare Mannelli, L., Dei, S., Manetti, D., Scapecchi, S., Teodori, E., Ghelardini, C., and Romanelli, M.N.

Subjects
*NOOTROPIC agents, *DRUG synergism, *PIPERIDINE, *DRUG efficacy, *MOLECULAR structure, *LABORATORY mice
Abstract

Abstract: A series of analogs of DM235 and MN19, characterized by rings with different size, have been prepared and evaluated for their nootropic activity in the mouse passive-avoidance test. It was found that the optimal ring size for the analogs of DM235, showing endocyclic both amidic groups, is 6 or 7 atoms. For the compounds structurally related to MN19, carrying an exocyclic amide group, the piperidine ring is the moiety which gives the most interesting compounds. [Copyright &y& Elsevier]

Published
2012
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238. New “drug-in cyclodextrin-in deformable liposomes” formulations to improve the therapeutic efficacy of local anaesthetics

Author

Maestrelli, F., González-Rodríguez, M.L., Rabasco, A.M., Ghelardini, C., and Mura, P.

Subjects
*CYCLODEXTRINS in pharmaceutical technology, *LIPOSOMES, *ADMINISTRATION of anesthetics, *DRUG solubility, *DRUG efficacy, *LECITHIN, *LABORATORY rabbits, *CONFOCAL microscopy
Abstract

Abstract: The combined approach of cyclodextrin complexation and entrapment in liposomes was investigated to develop a topical formulation of local anaesthetics. For both benzocaine (BZC) and butamben (BTM), hydroxypropyl-β-cyclodextrin (HPβCD) was a better partner than βCD; drug–HPβCD coevaporated products showed the best solubility and dissolution properties, and were selected for loading into liposomes. Addition of stearylamine to the phosphatidylcholine–cholesterol mixture of the vesicle bilayer allowed obtainment of deformable liposomes with improved permeation and in vivo drug anaesthetic effect (P <0.05). Double-loaded deformable liposomes were obtained by adding the drug–HPβCD complex at its maximum aqueous solubility in the vesicles hydrophilic phase, and the remaining amount up to 1% as free drug in the lipophilic phase. The properties of double-loaded liposomes were compared with those of classic single-loaded ones, obtained by adding 1% free drug in the aqueous or lipophilic phase of the vesicles. Size, charge, morphology and entrapment efficiency of the different batches were investigated, respectively, by light scattering, confocal laser scanning microscopy and dialysis, while their therapeutic efficacy was evaluated in vivo on rabbits. For both drugs, double-loaded liposomes, exploiting the favourable effects of drug–CD complexation, allowed a significant (P <0.05) enhancement of intensity and duration of anaesthetic effect with respect to those single-loaded. [Copyright &y& Elsevier]

Published
2010
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239. Acetyl-l-carnitine increases artemin level and prevents neurotrophic factor alterations during neuropathy

Author

Vivoli, E., Di Cesare Mannelli, L., Salvicchi, A., Bartolini, A., Koverech, A., Nicolai, R., Benatti, P., and Ghelardini, C.

Subjects
*NEUROPATHY, *NEUROTROPIN, *CARNITINE, *NERVE growth factor, *BRAIN damage, *LABORATORY rats, *NEUROPROTECTIVE agents
Abstract

Abstract: Damages to the nervous system are the primarily cause of neuropathy and chronic pain. Current pharmacological treatments for neuropathic pain are not able to prevent or revert morphological and molecular consequences of tissue injury. On the other hand, many neurotrophins, like nerve growth factor (NGF), paired off restorative effects with hyperalgesia. Interestingly, the glial cell line–derived neurotrophic factors GDNF and Artemin (ARTN) seem to support neuron survival and to normalize abnormal pain behaviour. In the present research protein levels of NGF, GDNF and ARTN were evaluated in a rat model of peripheral neuropathy, the chronic constriction injury (CCI). NGF was increased by CCI in the ipsilateral dorsal root ganglia (DRG), in the spinal cord and in the periaqueductal grey matter (PAG). On the contrary, ARTN was decreased bilaterally in DRG, spinal cord and PAG. GDNF levels decreased in ipsilateral DRG, whereas the constriction did not modify its expression in the central nervous system districts. Repeated treatments with the antihyperalgesic and neuroregenerative compound acetyl-l-carnitine (ALCAR; 100 mgkg−1 i.p. twice daily for 15 days) was able to prevent the increase of NGF levels. In conditions of pain relief ALCAR normalized peripheral and central alterations of GDNF and ARTN levels. Characteristically, sham animals that underwent the same ALCAR treatment, showed increased levels of ARTN both in the DRG and in the spinal cord. These data offer a new point of view on the mechanism of the antihyperalgesic as well as the neuroprotective effect of ALCAR. [Copyright &y& Elsevier]

Published
2010
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241. Supraspinal role of protein kinase C in oxaliplatin-induced neuropathy in rat

Author

Norcini, M., Vivoli, E., Galeotti, N., Bianchi, E., Bartolini, A., and Ghelardini, C.

Subjects
*PROTEIN kinase C, *OXALIPLATIN, *NEUROPATHY, *LABORATORY rats, *HYPERALGESIA treatment, *PHOSPHORYLATION, *DRUG therapy, *METALS in medicine
Abstract

Abstract: Oxaliplatin is a platinum-based chemotherapy drug characterized by the development of a painful peripheral neuropathy which is reproduced in rodent animal models with features observed in humans. Our focus was to explore the alterations of intracellular second messengers at supraspinal level in oxaliplatin-induced mechanical hyperalgesia. In our experiments, chronic administration of oxaliplatin to rats induced mechanical hyperalgesia which lasted for many days. When the hyperalgesic rats were submitted to paw pressure test in the presence of selective PKC inhibitor Calphostin C supraspinally administered, hyperalgesic effect could be reversed showing that PKC activity in supraspinal brain regions is needed. Concurrently, oxaliplatin chronic treatment induced a specific upregulation of γ isoforms of PKC and increased phosphorylation of γ/ε PKC isoforms within thalamus and PAG. Phosphorylation was reversed when PKC activity was inhibited by Calphostin C. Distinct PKC-activated MAPK pathways, including p38MAPK, ERK1/2 and JNK, were investigated in chronic oxaliplatin rat. A dramatic phosphorylation increase, Calphostin C sensitive, could be observed in thalamus and PAG for p38MAPK. These data show that, in oxaliplatin-induced neuropathy, enhanced mechanical nociception is strictly correlated with increased phosphorylation of specific intracellular mediators in PAG and thalamus brain regions pointing to a role of these supraspinal centers in oxaliplatin-induced neuropathic pain mechanism. [Copyright &y& Elsevier]

Published
2009
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242. An antidepressant behaviour in mice carrying a gene-specific InsP3R1, InsP3R2 and InsP3R3 protein knockdown

Author

Galeotti, N., Vivoli, E., Norcini, M., Bartolini, A., and Ghelardini, C.

Subjects
*ANTIDEPRESSANTS, *AFFECTIVE disorders, *PATHOLOGICAL physiology, *MICE as carriers of disease, *PHOSPHOINOSITIDES, *HEPARIN, *OLIGONUCLEOTIDES
Abstract

Abstract: Evidence has accumulated for the involvement of Ca2+ in the pathophysiology of mood disorders. Elevations in both resting and stimulated intracellular Ca2+ levels in patients with affective disorders have been reported. The role of inositol-1,4,5-trisphosphate receptors (InsP3Rs), which allow mobilization of intracellular Ca2+ stores, was, then, investigated in the mouse forced swimming test. InsP3R antagonists (heparin, xestospongin C) as well as an inositol monophosphatase inhibitor (LiCl) showed an antidepressant activity of intensity comparable to clinically used antidepressants. InsP3Rl, InsP3R2 and InsP3R3 knockdown mice were obtained to investigate the role of InsP3R isoforms. We generated mice carrying a cerebral knockdown of InsP3Rl, InsP3R2 and InsP3R3 proteins by administering antisense oligonucleotides complementary to the sequence of InsP3Rl, InsP3R2 and InsP3R3. These antisense-treated mice showed a specific InsP3R protein level reduction in the mouse cerebral cortex and hippocampus, demonstrated by immunoblotting, immunoprecipitation and immunocytochemistry experiments. Knockdown mice for each InsP3R isoforms showed an antidepressant behaviour and the induced phenotype was reversible disappearing 7 days after the end of the treatment. The absence of impairment of locomotor activity and spontaneous mobility in InsP3R knockdown mice was revealed. These results indicate the involvement of the InsP3R-mediated pathway in the modulation of depressive conditions and may be useful for the development of new therapeutical strategies for the treatment of mood disorders. [Copyright &y& Elsevier]

Published
2008
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243. Type 1 and type 3 ryanodine receptors are selectively involved in muscarinic antinociception in mice: An antisense study

Author

Galeotti, N., Quattrone, A., Vivoli, E., Bartolini, A., and Ghelardini, C.

Subjects
*PHOSPHOINOSITIDES, *RODENTS, *MUSCARINIC receptors, *CHOLINERGIC receptors
Abstract

Abstract: The importance of an intracellular calcium content increase to obtain cholinergic antinociception was demonstrated. The physiological and pathological role of ryanodine receptors (RyRs), receptors involved in the mobilization of intracellular calcium stores, at the CNS level is poorly understood. The aim of the present study was, therefore, to investigate the role of supraspinal endoplasmic type 1, 2 and 3 RyR subtypes in muscarinic antinociception in conditions of acute thermal (hotplate test) and inflammatory (abdominal constriction test) pain. In the absence of isoform selective RyR antagonists, types 1, 2 and 3 RyR knockdown mice were obtained. Western blotting experiments were performed to quantify the RyR isoform protein levels in knockdown mice demonstrating a selective protein level reduction in knockdown animals. I.c.v. pretreatment with an antisense oligonucleotide (aODN) against type 1 or type 3 RyR prevented cholinergic antinociception in the hotplate test shifting to the right of the physostigmine dose-response curve. This antagonistic effect disappeared 7 days after the end of the aODN administration. Conversely, the physostigmine analgesia remained unmodified in type 2 RyR knockdown mice. Similar results were obtained in the abdominal constriction test. Mice undergoing aODN treatments showed neither alteration of animals'' gross behavior nor locomotor impairment (rota-rod and hole board tests). These results elucidate the intracellular mechanism underlying muscarinic antinociception. A selective involvement of RyR1 and RyR3 in supraspinal muscarinic analgesia was demonstrated whereas RyR2 appears not to play an essential role in acute thermal and inflammatory pain. [Copyright &y& Elsevier]

Published
2008
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244. Knockdown of the type 2 and 3 inositol 1,4,5-trisphosphate receptors suppresses muscarinic antinociception in mice

Author

Galeotti, N., Quattrone, A., Vivoli, E., Bartolini, A., and Ghelardini, C.

Subjects
*PHOSPHOINOSITIDES, *INOSITOL, *SUGARS, *NERVOUS system
Abstract

Abstract: The involvement of central endoplasmic inositol 1,4,5-trisphosphate receptors (IP3R) in muscarinic antinociception was investigated in the mouse hot plate test. Selective knockdown of type 1, 2 and 3 IP3R was obtained by means of an antisense oligonucleotide (aODN) strategy. A selective IP3R protein level reduction of approximately 30–50% produced by aODN administration for each receptor subtype investigated was demonstrated by Western blotting experiments. I.c.v. pretreatment with an aODN complementary to the sequence of the type 2 IP3R (0.1–3 nmol per mouse i.c.v.) prevented the antinociception induced by physostigmine (0.15 mg kg−1 s.c.) and oxotremorine (60 μg kg−1 s.c.). Similarly, an aODN against type 3 IP3R (0.1–3 nmol per mouse i.c.v.) antagonized cholinergic antinociception. A shift to the right of the physostigmine dose–response curve was obtained after anti-type 2 IP3R2 and anti-type 3 IP3R treatments. Conversely, pretreatment with an aODN complementary to the sequence of type 1 IP3R (0.1–5 nmol per mouse i.c.v.) did not modify the antinociception induced by physostigmine and oxotremorine. Mice undergoing treatment with aODNs did not show any impairment of the locomotor activity, spontaneous motility and exploratory activity as revealed by the rota-rod and hole board tests. These results indicate a selective involvement of type 2 and 3 IP3R in central muscarinic antinociception in mice. [Copyright &y& Elsevier]

Published
2007
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245. Methylamine-dependent release of nitric oxide and dopamine in the CNS modulates food intake in fasting rats.

Author

Raimondi, L, Alfarano, C, Pacini, A, Livi, S, Ghelardini, C, DeSiena, G, and Pirisino, R

Subjects
*INGESTION, *LABORATORY rats, *NITRIC oxide, *DOPAMINE, *APPETITE depressants
Abstract

Background and purpose:Methylamine is an endogenous aliphatic amine exhibiting anorexigenic properties in mice. The aim of this work was to show whether methylamine also modifies feeding behaviour in rats and, if so, to identify the mediator(s) responsible for such effects.Experimental approach:Microdialysis experiments with the probe inserted in the periventricular hypothalamic nucleus were carried out in 12 h starved, freely moving rats. Collected perfusate samples following methylamine injection (i.c.v.) were analysed for nitric oxide by chemiluminescence and for dopamine and 5-hydroxytryptamine content by HPLC. Kv1.6 potassium channel expression was reduced by antisense strategy and this decrease quantified by semi-quantitative RT-PCR analysis.Key results:Methylamine showed biphasic dose-related effects on rat feeding. At doses of 15–30 μg per rat, it was hyperphagic whereas higher doses (60–80 μg) were hypophagic. Methylamine stimulated central nitric oxide (+115% vs. basal) following hyperphagic and dopamine release (60% over basal values) at hypophagic doses, respectively. Treatment with L-NG-nitro-L-arginine-methyl ester (i.c.v. 2 μg 10 μl−1) or with α-methyl-p-tyrosine (i.p. 100 mg kg−1) before methylamine injection, reduced nitric oxide output and hyperphagia, or dopamine release and hypophagia respectively. Moreover, hypophagia and hyperphagia, as well as nitric oxide and dopamine release were significantly reduced by down-regulating brain Kv1.6 potassium channel expression.Conclusions and implications:The effects of methylamine on feeding depend on the hypothalamic release of nitric oxide and dopamine as a result of interaction at the Kv1.6 channels. The study of methylamine levels in the CNS may provide new perspectives on the physio-pathogy of alimentary behaviour.British Journal of Pharmacology (2007) 150, 1003–1010. doi:10.1038/sj.bjp.0707170; published online 5 March 2007 [ABSTRACT FROM AUTHOR]

Published
2007
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246. Should Patients Receiving ACE Inhibitors or Angiotensin Receptor Blockers be Switched to Other Antihypertensive Drugs to Prevent or Improve Prognosis of Novel Coronavirus Disease 2019 (COVID-19)?

Author

Filippo Drago, Patrizia Hrelia, Gianluca Trifirò, Marco Pistis, Annalisa Capuano, Giambattista Bonanno, Cristiano Chiamulera, Renato Bernardini, Luca Pani, Giuseppe Cirino, Nicoletta Brunello, Romano Danesi, Liberato Berrino, Antonio D'Avolio, Emilio Clementi, Giorgio Racagni, Maurizio Taglialatela, Alessandro Mugelli, Annamaria Luca, Carla Ghelardini, Francesco Scaglione, Salvatore Crisafulli, Marzia Del Re, Giuseppe Andò, Trifiro, G., Crisafulli, S., Ando, G., Racagni, G., Drago, F., Berrino, L., Re, M., Bernardini, R., Chiamulera, C., D'Avolio, A., Pani, L., Clementi, E., Capuano, A., Scaglione, F., Danesi, R., Cirino, G., Mugelli, A., Bonanno, G., Brunello, N., Luca, A., Hrelia, P., Pistis, M., Ghelardini, C., and Taglialatela, M.

Subjects
Coronavirus disease 2019 (COVID-19), Pneumonia, Viral, Pharmacology toxicology, Angiotensin-Converting Enzyme Inhibitors, Pharmacology, Toxicology, medicine.disease_cause, Article, Angiotensin Receptor Antagonists, Antihypertensive Agents, Betacoronavirus, Coronavirus Infections, Humans, Pandemics, Prognosis, Coronavirus, Diabetes Mellitus, Hypertension, Diabetes mellitus, Pandemic, Medicine, Pharmacology (medical), Viral, biology, SARS-CoV-2, business.industry, COVID-19, Pneumonia, biology.organism_classification, medicine.disease, Angiotensin Receptor Blockers, business
Published
2020

247. Erucin exhibits vasorelaxing effects and antihypertensive activity by H 2 S-releasing properties

Author

Eleonora Pagnotta, Lara Testai, Luisa Ugolini, Onorina L. Manzo, Mariarosaria Bucci, Lorenzo Di Cesare Mannelli, Eugenia Piragine, Maria Cristina Breschi, Valentina Citi, Luca Lazzeri, Alma Martelli, Carla Ghelardini, Vincenzo Calderone, Martelli, A, Piragine, E, Citi, V, Testai, L, Pagnotta, E, Ugolini, L, Lazzeri, L, Di Cesare Mannelli, L, Manzo, Ol, Bucci, M, Ghelardini, C, Breschi, Mc, and Calderone, V

Subjects
0301 basic medicine, Vasodilation, Pharmacology, Sulfides, 03 medical and health sciences, 0302 clinical medicine, Smooth muscle, In vivo, medicine, Animals, Erucin, H2S donor, antihypertensive effects, Antihypertensive Agents, Coronary flow, Induced vasodilatation, Rats, Coronary arteries, 030104 developmental biology, medicine.anatomical_structure, Vasoconstriction, Themed Section: Research Papers, Endothelium, Vascular, medicine.symptom, 030217 neurology & neurosurgery, Intracellular, Thiocyanates
Abstract

BACKGROUND AND PURPOSE: Hydrogen sulfide (H(2)S)‐releasing agents are viewed as potential antihypertensive drugs. Recently, natural isothiocyanates emerged as original H(2)S‐donor agents. Among them, erucin, present in some edible cruciferous plants, shows suitable H(2)S‐releasing properties and features of “druggability.” The aim of this work was to investigate the erucin‐mediated release of H(2)S inside vascular cells, its vasorelaxing effects, and activity on BP of normo and hypertensive animals. EXPERIMENTAL APPROACH: Intracellular H(2)S‐release and the hyperpolarizing effect of erucin were tested using fluorescent dye, in human aortic smooth muscle cells (HASMCs). Its direct vasorelaxing effect and ability to inhibit noradrenaline‐induced vasoconstriction were evaluated on endothelium‐intact or ‐denuded rat aortic rings. Its vasodilator properties were tested in coronary arteries using Langendorff‐perfused rat hearts. Finally, erucin's antihypertensive activity was evaluated in vivo in normotensive and spontaneously hypertensive rats (SHRs) by recording systolic BP using the tail‐cuff method. KEY RESULTS: Erucin induced the release of H(2)S inside HASMCs. Moreover, erucin hyperpolarized the membrane of HASMCs membrane in a concentration‐dependent manner. It induced vasodilatation of rat aortic rings, in endothelium‐denuded vessels. This effect was further improved by the presence of endothelial NO. When pre‐incubated with rat aortic rings, erucin induced concentration‐dependent inhibition of noradrenaline‐induced vasoconstriction. Erucin did not affect basal coronary flow but restored the flow to normal in pre‐contracted coronary vessels. Finally, in vivo, erucin decreased systolic BP in SHRs by about 25%, and restored the BP to values observed in normotensive rats. CONCLUSIONS AND IMPLICATIONS: Erucin is an H(2)S donor endowed with vasorelaxing and antihypertensive effects. LINKED ARTICLES: This article is part of a themed section on Hydrogen Sulfide in Biology & Medicine. To view the other articles in this section visit http://onlinelibrary.wiley.com/doi/10.1111/bph.v177.4/issuetoc

Published
2020

248. Endogenous morphine modulates acute thermonociception in mice.

Author

Guarna, M., Bianchi, E., Bartolini, A., Ghelardini, C., Galeotti, N., Bracci, L., Neri, C., Sonetti, D., and Stefano, G.

Subjects
*MORPHINE, *NOCICEPTORS
Abstract

The endogenous synthesis of morphine has been clearly demonstrated throughout the phylogenesis of the nervous system of mammals and lower animals. Endogenous morphine, serving as either a neurotransmitter or neurohormone, has been demonstrated in the nervous system of both verteb-rates and invertebrates. As one of the effects of exogenous morphine is the modulation of pain perception, we investigated the effects that the depletion of endogenous morphine had on nociceptive transmission. The immunoneutralization of endogenous morphine from brain extracellular spaces was obtained through the intracerebroventricular administration of affinity purified anti-morphine IgG to mice, which then underwent the hot plate test. Endogenous morphine immunoneutralization decreased thermal response latency and attenuated the anti-nociceptive effect of the mu selective agonist DAMGO in hot plate test suggesting that endogenous morphine is involved in pain modulation. [ABSTRACT FROM AUTHOR]

Published
2002
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