Your search keyword '"Claudia Cristiano"' showing total 70 results

1. Paclitaxel binds and activates C5aR1: A new potential therapeutic target for the prevention of chemotherapy-induced peripheral neuropathy and hypersensitivity reactions

Author

Laura Brandolini, Michele d’Angelo, Rubina Novelli, Vanessa Castelli, Cristina Giorgio, Anna Sirico, Pasquale Cocchiaro, Francesco D’Egidio, Elisabetta Benedetti, Claudia Cristiano, Antonella Bugatti, Anna Ruocco, Pier Giorgio Amendola, Carmine Talarico, Candida Manelfi, Daniela Iaconis, Andrea Beccari, Andreza U. Quadros, Thiago M. Cunha, Arnaldo Caruso, Roberto Russo, Annamaria Cimini, Andrea Aramini, and Marcello Allegretti

Subjects

Cytology, QH573-671

Abstract

Abstract Chemotherapy-induced peripheral neuropathy (CIPN) and hypersensitivity reactions (HSRs) are among the most frequent and impairing side effects of the antineoplastic agent paclitaxel. Here, we demonstrated that paclitaxel can bind and activate complement component 5a receptor 1 (C5aR1) and that this binding is crucial in the etiology of paclitaxel-induced CIPN and anaphylaxis. Starting from our previous data demonstrating the role of interleukin (IL)-8 in paclitaxel-induced neuronal toxicity, we searched for proteins that activate IL-8 expression and, by using the Exscalate platform for molecular docking simulations, we predicted the high affinity of C5aR1 with paclitaxel. By in vitro studies, we confirmed the specific and competitive nature of the C5aR1-paclitaxel binding and found that it triggers intracellularly the NFkB/P38 pathway and c-Fos. In F11 neuronal cells and rat dorsal root ganglia, C5aR1 inhibition protected from paclitaxel-induced neuropathological effects, while in paclitaxel-treated mice, the absence (knock-out mice) or the inhibition of C5aR1 significantly ameliorated CIPN symptoms—in terms of cold and mechanical allodynia—and reduced the chronic pathological state in the paw. Finally, we found that C5aR1 inhibition can counteract paclitaxel-induced anaphylactic cytokine release in macrophages in vitro, as well as the onset of HSRs in mice. Altogether these data identified C5aR1 as a key mediator and a new potential pharmacological target for the prevention and treatment of CIPN and HSRs induced by paclitaxel.

Published

2022

2. Obesity medication lorcaserin activates brainstem GLP-1 neurons to reduce food intake and augments GLP-1 receptor agonist induced appetite suppression

Author

Stefan Wagner, Daniel I. Brierley, Alasdair Leeson-Payne, Wanqing Jiang, Raffaella Chianese, Brian Y.H. Lam, Georgina K.C. Dowsett, Claudia Cristiano, David Lyons, Frank Reimann, Fiona M. Gribble, Pablo B. Martinez de Morentin, Giles S.H. Yeo, Stefan Trapp, and Lora K. Heisler

Subjects

Lorcaserin, Liraglutide, Preproglucagon, Nucleus tractus solitarii, Brainstem, Serotonin 2C receptor, Internal medicine, RC31-1245

Abstract

Objective: Overweight and obesity are endemic in developed countries, with a substantial negative impact on human health. Medications developed to treat obesity include agonists for the G-protein coupled receptors glucagon-like peptide-1 (GLP-1R; e.g. liraglutide), serotonin 2C (5-HT2CR; e.g, lorcaserin), and melanocortin4 (MC4R) which reduce body weight primarily by suppressing food intake. However, the mechanisms underlying the therapeutic food intake suppressive effects are still being defined and were investigated here. Methods: We profiled PPG neurons in the nucleus of the solitary tract (PPGNTS) using single nucleus RNA sequencing (Nuc-Seq) and histochemistry. We next examined the requirement of PPGNTS neurons for obesity medication effects on food intake by virally ablating PPGNTS neurons. Finally, we assessed the effects on food intake of the combination of liraglutide and lorcaserin. Results: We found that 5-HT2CRs, but not GLP-1Rs or MC4Rs, were widespread in PPGNTS clusters and that lorcaserin significantly activated PPGNTS neurons. Accordingly, ablation of PPGNTS neurons prevented the reduction of food intake by lorcaserin but not MC4R agonist melanotan-II, demonstrating the functional significance of PPGNTS 5-HT2CR expression. Finally, the combination of lorcaserin with GLP-1R agonists liraglutide or exendin-4 produced greater food intake reduction as compared to either monotherapy. Conclusions: These findings identify a necessary mechanism through which obesity medication lorcaserin produces its therapeutic benefit, namely brainstem PPGNTS neurons. Moreover, these data reveal a strategy to augment the therapeutic profile of the current frontline treatment for obesity, GLP-1R agonists, via coadministration with 5-HT2CR agonists.

Published

2023

3. 2-Pentadecyl-2-oxazoline ameliorates memory impairment and depression-like behaviour in neuropathic mice: possible role of adrenergic alpha2- and H3 histamine autoreceptors

Author

Serena Boccella, Francesca Guida, Monica Iannotta, Fabio Arturo Iannotti, Rosmara Infantino, Flavia Ricciardi, Claudia Cristiano, Rosa Maria Vitale, Pietro Amodeo, Ida Marabese, Carmela Belardo, Vito de Novellis, Salvatore Paino, Enza Palazzo, Antonio Calignano, Vincenzo Di Marzo, Sabatino Maione, and Livio Luongo

Subjects

Neuropathic pain, Depression, Cognitive impairments, H3 receptors, Locus coeruleus, Mice, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Neuropathic pain (NP) remains an untreatable disease due to the complex pathophysiology that involves the whole pain neuraxis including the forebrain. Sensory dysfunctions such as allodynia and hyperalgesia are only part of the symptoms associated with neuropathic pain that extend to memory and affectivity deficits. The development of multi-target molecules might be a promising therapeutic strategy against the symptoms associated with NP. 2-pentadecyl-2-oxazoline (PEA-OXA) is a plant-derived agent, which has shown effectiveness against chronic pain and associated neuropsychiatric disorders. The molecular mechanisms by which PEA-OXA exerts its effects are, however, only partially known. In the current study, we show that PEA-OXA, besides being an alpha2 adrenergic receptor antagonist, also acts as a modulator at histamine H3 receptors, and report data on its effects on sensory, affective and cognitive symptoms associated with the spared nerve injury (SNI) model of neuropathic pain in mice. Treatment for 14 days with PEA-OXA after the onset of the symptoms associated with neuropathic pain resulted in the following effects: (i) allodynia was decreased; (ii) affective/cognitive impairment associated with SNI (depression, spatial, and working memories) was counteracted; (iii) long-term potentiation in vivo in the lateral entorhinal cortex-dentate gyrus (perforant pathway, LPP) was ameliorated, (iv) hippocampal glutamate, GABA, histamine, norepinephrine and dopamine level alterations after peripheral nerve injury were reversed, (v) expression level of the TH positive neurons in the Locus Coeruleus were normalized. Thus, a 16-day treatment with PEA-OXA alleviates the sensory, emotional, cognitive, electrophysiological and neurochemical alterations associated with SNI-induced neuropathic pain.

Published

2021

4. Design, synthesis and in vitro and in vivo biological evaluation of flurbiprofen amides as new fatty acid amide hydrolase/cyclooxygenase-2 dual inhibitory potential analgesic agents

Author

Alessandro Deplano, Jessica Karlsson, Federica Moraca, Mona Svensson, Claudia Cristiano, Carmine Marco Morgillo, Christopher J. Fowler, Roberto Russo, Bruno Catalanotti, and Valentina Onnis

Subjects

flurbiprofen amides, faah inhibition, fatty acid amide hydrolase, endocannabinoid, cyclooxygenase, non-steroidal anti-inflammatory drugs, hyperalgesia, allodynia, Therapeutics. Pharmacology, RM1-950

Abstract

Compounds combining dual inhibitory action against FAAH and cyclooxygenase (COX) may be potentially useful analgesics. Here, we describe a novel flurbiprofen analogue, N-(3-bromopyridin-2-yl)-2-(2-fluoro-(1,1'-biphenyl)-4-yl)propanamide (Flu-AM4). The compound is a competitive, reversible inhibitor of FAAH with a Ki value of 13 nM and which inhibits COX activity in a substrate-selective manner. Molecular modelling suggested that Flu-AM4 optimally fits a hydrophobic pocket in the ACB region of FAAH, and binds to COX-2 similarly to flurbiprofen. In vivo studies indicated that at a dose of 10 mg/kg, Flu-AM4 was active in models of prolonged (formalin) and neuropathic (chronic constriction injury) pain and reduced the spinal expression of iNOS, COX-2, and NFκB in the neuropathic model. Thus, the present study identifies Flu-AM4 as a dual-action FAAH/substrate-selective COX inhibitor with anti-inflammatory and analgesic activity in animal pain models. These findings underscore the potential usefulness of such dual-action compounds.

Published

2021

5. Correction to: 2-Pentadecyl-2-oxazoline ameliorates memory impairment and depression-like behaviour in neuropathic mice: possible role of adrenergic alpha2- and H3 histamine autoreceptors

Author

Serena Boccella, Francesca Guida, Monica Iannotta, Fabio Arturo Iannotti, Rosmara Infantino, Flavia Ricciardi, Claudia Cristiano, Rosa Maria Vitale, Pietro Amodeo, Ida Marabese, Carmela Belardo, Vito de Novellis, Salvatore Paino, Enza Palazzo, Antonio Calignano, Vincenzo Di Marzo, Sabatino Maione, and Livio Luongo

Subjects

Neurology. Diseases of the nervous system, RC346-429

Abstract

An amendment to this paper has been published and can be accessed via the original article.

Published

2021

6. Butyrate Improves Neuroinflammation and Mitochondrial Impairment in Cerebral Cortex and Synaptic Fraction in an Animal Model of Diet-Induced Obesity

Author

Gina Cavaliere, Angela Catapano, Giovanna Trinchese, Fabiano Cimmino, Eduardo Penna, Amelia Pizzella, Claudia Cristiano, Adriano Lama, Marianna Crispino, and Maria Pina Mollica

Subjects

oxidative stress, neuroinflammation, mitochondrial function, butyrate, Therapeutics. Pharmacology, RM1-950

Abstract

Neurodegenerative diseases (NDDs) are characterized by cognitive impairment and behavioural abnormalities. The incidence of NDDs in recent years has increased globally and the pathological mechanism is not fully understood. To date, plentiful evidence has showed that metabolic alterations associated with obesity and related issues such as neuroinflammation, oxidative stress and mitochondrial dysfunction may represent an important risk factor, linking obesity and NDDs. Numerous studies have indicated a correlation between diet and brain activities. In this context, a key role is played by mitochondria located in the synaptic fraction; indeed, it has been shown that high-fat diets cause their dysfunction, affecting synaptic plasticity. In this scenario, the use of natural molecules that improve brain mitochondrial function represents an important therapeutic approach to treat NDDs. Recently, it was demonstrated that butyrate, a short-chain fatty acid is capable of counteracting obesity in an animal model, modulating mitochondrial function. The aim of this study has been to evaluate the effects of butyrate on neuroinflammatory state, oxidative stress and mitochondrial dysfunction in the brain cortex and in the synaptic fraction of a mouse model of diet-induced obesity. Our data have shown that butyrate partially reverts neuroinflammation and oxidative stress in the brain cortex and synaptic area, improving mitochondrial function and efficiency.

Published

2022

7. The Hepatic Mitochondrial Alterations Exacerbate Meta-Inflammation in Autism Spectrum Disorders

Author

Giovanna Trinchese, Fabiano Cimmino, Gina Cavaliere, Angela Catapano, Chiara Fogliano, Adriano Lama, Claudio Pirozzi, Claudia Cristiano, Roberto Russo, Lidia Petrella, Rosaria Meli, Giuseppina Mattace Raso, Marianna Crispino, Bice Avallone, and Maria Pina Mollica

Subjects

autism spectrum disorders, inflammation, liver, mitochondrial dysfunction, Therapeutics. Pharmacology, RM1-950

Abstract

The role of the liver in autism spectrum disorders (ASD), developmental disabilities characterized by impairments in social interactions and repetitive behavioral patterns, has been poorly investigated. In ASD, it has been shown a dysregulation of gut–brain crosstalk, a communication system able to influence metabolic homeostasis, as well as brain development, mood and cognitive functions. The liver, with its key role in inflammatory and metabolic states, represents the crucial metabolic organ in this crosstalk. Indeed, through the portal vein, the liver receives not only nutrients but also numerous factors derived from the gut and visceral adipose tissue, which modulate metabolism and hepatic mitochondrial functions. Here, we investigated, in an animal model of ASD (BTBR mice), the involvement of hepatic mitochondria in the regulation of inflammatory state and liver damage. We observed increased inflammation and oxidative stress linked to hepatic mitochondrial dysfunction, steatotic hepatocytes, and marked mitochondrial fission in BTBR mice. Our preliminary study provides a better understanding of the pathophysiology of ASD and could open the way to identifying hepatic mitochondria as targets for innovative therapeutic strategies for the disease.

Published

2022

8. Ultra-micronized palmitoylethanolamide rescues the cognitive decline-associated loss of neural plasticity in the neuropathic mouse entorhinal cortex-dentate gyrus pathway

Author

Serena Boccella, Claudia Cristiano, Rosaria Romano, Monica Iannotta, Carmela Belardo, Antonio Farina, Francesca Guida, Fabiana Piscitelli, Enza Palazzo, Mariacristina Mazzitelli, Roberta Imperatore, Lea Tunisi, Vito de Novellis, Luigia Cristino, Vincenzo Di Marzo, Antonio Calignano, Sabatino Maione, and Livio Luongo

Subjects

Spared nerve injury, pamitoylethanolamide, long term potentiation, PPARα, cognitive performance, synaptogenesis, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Chronic pain is associated with cognitive deficits. Palmitoylethanolamide (PEA) has been shown to ameliorate pain and pain-related cognitive impairments by restoring glutamatergic synapses functioning in the spared nerve injury (SNI) of the sciatic nerve in mice. SNI reduced mechanical and thermal threshold, spatial memory and LTP at the lateral entorhinal cortex (LEC)-dentate gyrus (DG) pathway. It decreased also postsynaptic density, volume and dendrite arborization of DG and increased the expression of metabotropic glutamate receptor 1 and 7 (mGluR1 and mGluR7), of the GluR1, GluR1s845 and GluR1s831 subunits of AMPA receptor and the levels of glutamate in the DG. The level of the endocannabinoid 2-arachidonoylglycerol (2-AG) was instead increased in the LEC. Chronic treatment with PEA, starting from when neuropathic pain was fully developed, was able to reverse mechanical allodynia and thermal hyperalgesia, memory deficit and LTP in SNI wild type, but not in PPARα null, mice. PEA also restored the level of glutamate and the expression of phosphorylated GluR1 subunits, postsynaptic density and neurogenesis. Altogether, these results suggest that neuropathic pain negatively affects cognitive behavior and related LTP, glutamatergic synapse and synaptogenesis in the DG. In these conditions PEA treatment alleviates pain and cognitive impairment by restoring LTP and synaptic maladaptative changes in the LEC-DG pathway. These outcomes open new perspectives for the use of the N-acylethanolamines, such as PEA, for the treatment of neuropathic pain and its central behavioural sequelae.

Published

2019

9. The Beneficial Effects of Ultramicronized Palmitoylethanolamide in the Management of Neuropathic Pain and Associated Mood Disorders Induced by Paclitaxel in Mice

Author

Claudia Cristiano, Carmen Avagliano, Mariarosaria Cuozzo, Fabrizio Maria Liguori, Antonio Calignano, and Roberto Russo

Subjects

paclitaxel, um-PEA, inflammation, neuropathic pain, behavior, cannabinoids, Microbiology, QR1-502

Abstract

Chemotherapy-induced peripheral neuropathy (CIPN) is a common complication of antineoplastic drugs, particularly paclitaxel (PTX). It can affect the quality of patients’ lives and increase the risk of developing mood disorders. Although several drugs are recommended, they yielded inconclusive results in clinical trials. The aim of the present work is to investigate whether the palmitoylethanolamide (PEA) would reduce PTX-induced CIPN and associated mood disorders. Moreover, the role PPAR-α and the endocannabinoid system will also be investigated. CIPN was induced by intraperitoneally injection of PTX (8 mg/kg) every other day for a week. PEA, 30 mg/kg, was orally administrated in a bioavailable form (i.e., ultramicronized PEA, um-PEA) one hour after the last PTX injection, for 7 days. In the antagonism experiments, AM281 (1 mg/kg) and GW6471 (2 mg/kg) were administrated 30 min before um-PEA. Our results demonstrated that um-PEA reduced the development of hypersensitivity with the effect being associated with the reduction in spinal and hippocampal pro-inflammatory cytokines, as well as antidepressive and anxiolytic effects. Moreover, the PPAR-α and CB1 receptor antagonists blocked the behavioral and antinociceptive effects of um-PEA. Our findings suggest that um-PEA is a promising adjunct in CIPN and associated mood disorders through the activation of PPAR-α, which influences the endocannabinoid system.

Published

2022

10. Analgesic and Anti-Inflammatory Effects of Perampanel in Acute and Chronic Pain Models in Mice: Interaction With the Cannabinergic System

Author

Carmen De Caro, Claudia Cristiano, Carmen Avagliano, Mariarosaria Cuozzo, Giovanna La Rana, Gabriella Aviello, Giovambattista De Sarro, Antonio Calignano, Emilio Russo, and Roberto Russo

Subjects

perampanel, AMPA receptor, pain, inflammation, CB1 receptor, Therapeutics. Pharmacology, RM1-950

Abstract

Pain conditions, such as neuropathic pain (NP) and persistent inflammatory pain are therapeutically difficult to manage. Previous studies have shown the involvement of glutamate receptor in pain modulation and in particular same of these showed the key role of the AMPA ionotropic glutamate receptor subtype. Antiseizure medications (ASMs) are often used to treat this symptom, however the effect of perampanel (PER), an ASM acting as selective, non-competitive inhibitor of the AMPA receptor on the management of pain has not well been investigated yet. Here we tested the potential analgesic and anti-inflammatory effects of PER, in acute and chronic pain models. PER was given orally either in acute (5 mg/kg) or repeated administration (3 mg/kg/d for 4 days). Pain response was assessed using models of nociceptive sensitivity, visceral and inflammatory pain, and mechanical allodynia and hyperalgesia induced by chronic constriction injury to the sciatic nerve. PER significantly reduced pain perception in all behavioral tests as well as CCI-induced mechanical allodynia and hyperalgesia in acute regimen (5 mg/kg). This effect was also observed after repeated treatment using the dose of 3 mg/kg/d. The antinociceptive, antiallodynic and antihyperalgesic effects of PER were attenuated when the CB1 antagonist AM251 (1 mg/kg/i.p.) was administered before PER treatment, suggesting the involvement of the cannabinergic system. Moreover, Ex vivo analyses showed that PER significantly increased CB1 receptor expression and reduced inflammatory cytokines (i.e. TNFα, IL-1β, and IL-6) in the spinal cord. In conclusion, these results extend our knowledge on PER antinociceptive and antiallodynic effects and support the involvement of cannabinergic system on its mode of action.

Published

2021

11. Galactosylated Prodrugs: A Strategy to Improve the Profile of Nonsteroidal Anti-Inflammatory Drugs

Author

Federica Sodano, Claudia Cristiano, Barbara Rolando, Elisabetta Marini, Loretta Lazzarato, Mariarosaria Cuozzo, Stefania Albrizio, Roberto Russo, and Maria Grazia Rimoli

Subjects

galactose, prodrug approach, NSAIDs, physicochemical characterization, stability, serum behavior, Medicine, Pharmacy and materia medica, RS1-441

Abstract

Carbohydrates are one of the most abundant and important classes of biomolecules. The variety in their structures makes them valuable carriers that can improve the pharmaceutical phase, pharmacokinetics and pharmacodynamics of well-known drugs. D-galactose is a simple, naturally occurring monosaccharide sugar that has been extensively studied for use as a carrier and has proven to be valuable in this role. With the aim of validating the galactose-prodrug approach, we have investigated the galactosylated prodrugs ibuprofen, ketoprofen, flurbiprofen and indomethacin, which we have named IbuGAL, OkyGAL, FluGAL and IndoGAL, respectively. Their physicochemical profiles in terms of lipophilicity, solubility and chemical stability have been evaluated at different physiological pH values, as have human serum stability and serum protein binding. Ex vivo intestinal permeation experiments were performed to provide preliminary insights into the oral bioavailability of the galactosylated prodrugs. Finally, their anti-inflammatory, analgesic and ulcerogenic activities were investigated in vivo in mice after oral treatment. The present results, taken together with those of previous studies, undoubtedly validate the galactosylated prodrug strategy as a problem-solving technique that can overcome the disadvantages of NSAIDs.

Published

2022

12. Fish Oil, Cannabidiol and the Gut Microbiota: An Investigation in a Murine Model of Colitis

Author

Cristoforo Silvestri, Ester Pagano, Sébastien Lacroix, Tommaso Venneri, Claudia Cristiano, Antonio Calignano, Olga A. Parisi, Angelo A. Izzo, Vincenzo Di Marzo, and Francesca Borrelli

Subjects

colitis, cannabinoid, gut-brain axis, fish oil, microbiome, Therapeutics. Pharmacology, RM1-950

Abstract

Inflammatory bowel disorders can be associated with alterations in gut microbiota (dysbiosis) and behavioral disturbances. In experimental colitis, administration of fish oil (FO) or cannabinoids, such as cannabidiol (CBD), reduce inflammation. We investigated the effect of combined FO/CBD administration on inflammation and dysbiosis in the dextran sulphate sodium (DSS) model of mouse colitis, which also causes behavioral disturbances. Colitis was induced in CD1 mice by 4% w/v DSS in drinking water for five consecutive days followed by normal drinking water. FO (20–75 mg/mouse) was administered once a day starting two days after DSS, whereas CBD (0.3–30 mg/kg), alone or after FO administration, was administered once a day starting 3 days after DSS, until day 8 (d8) or day 14 (d14). Inflammation was assessed at d8 and d14 (resolution phase; RP) by measuring the Disease Activity Index (DAI) score, change in body weight, colon weight/length ratio, myeloperoxidase activity and colonic interleukin (IL)-1β (IL-1β), IL-10, and IL-6 concentrations. Intestinal permeability was measured with the fluorescein isothiocyanate-dextran. Behavioral tests (novel object recognition (NOR) and light/dark box test) were performed at d8. Fecal microbiota composition was determined by ribosomal 16S DNA sequencing of faecal pellets at d8 and d14. DSS-induced inflammation was stronger at d8 and accompanied by anxiety-like behavior and impaired recognition memory. FO (35, 50, 75 mg/mouse) alone reduced inflammation at d8, whereas CBD alone produced no effect at any of the doses tested; however, when CBD (3, 10 mg/kg) was co-administered with FO (75 mg/mouse) inflammation was attenuated. FO (20 mg/mouse) and CBD (1 mg/kg) were ineffective when given alone, but when co-administered reduced all inflammatory markers and the increased intestinal permeability at both d8 and d14, but not the behavioral impairments. FO, CBD, and their combination affected gut bacteria taxa that were not affected by DSS per se. Akkermansia muciniphila, a species suggested to afford anti-inflammatory action in colitis, was increased by DSS only at d14, but its levels were significantly elevated by all treatments at d8. FO and CBD co-administered at per se ineffective doses reduce colon inflammation, in a manner potentially strengthened by their independent elevation of Akkermansia muciniphila.

Published

2020

13. Modulation of Pain Sensitivity by Chronic Consumption of Highly Palatable Food Followed by Abstinence: Emerging Role of Fatty Acid Amide Hydrolase

Author

Carlo Cifani, Carmen Avagliano, Emanuela Micioni Di Bonaventura, Maria Elena Giusepponi, Carmen De Caro, Claudia Cristiano, Giovanna La Rana, Luca Botticelli, Adele Romano, Antonio Calignano, Silvana Gaetani, Maria Vittoria Micioni Di Bonaventura, and Roberto Russo

Subjects

obesity, animal models, brain, high-fat diet, pain, Therapeutics. Pharmacology, RM1-950

Abstract

There is a strong relationship between palatable diet and pain sensitivity, and the cannabinoid and opioid systems might play an important role in this correlation. The palatable diet used in many animal models of obesity is the cafeteria (CAF) diet, based on human food with high sugar, salt, and fat content. In this study, we investigated whether long-term exposure to a CAF diet could modify pain sensitivity and explored the role of the cannabinergic system in this modification. Male Sprague–Dawley rats were divided into two groups: one fed with standard chow only (CO) and the other with extended access (EA) to a CAF diet. Hot plate and tail flick tests were used to evaluate pain sensitivity. At the end of a 40-day CAF exposure, EA rats showed a significant increase in the pain threshold compared to CO rats, finding probably due to up-regulation of CB1 and mu-opioid receptors. Instead, during abstinence from palatable foods, EA animals showed a significant increase in pain sensibility, which was ameliorated by repeated treatment with a fatty acid amide hydrolase inhibitor, PF-3845 (10 mg/kg, intraperitoneally), every other day for 28 days. Ex vivo analysis of the brains of these rats clearly showed that this effect was mediated by mu-opioid receptors, which were up-regulated following repeated treatment of PF-3845. Our data add to the knowledge about changes in pain perception in obese subjects, revealing a key role of CB1 and mu-opioid receptors and their possible pharmacological crosstalk and reinforcing the need to consider this modulation in planning effective pain management for obese patients.

Published

2020

14. Treatment With 2-Pentadecyl-2-Oxazoline Restores Mild Traumatic Brain Injury-Induced Sensorial and Neuropsychiatric Dysfunctions

Author

Serena Boccella, Monica Iannotta, Claudia Cristiano, Fabio Arturo Iannotti, Fabio Del Bello, Francesca Guida, Carmela Belardo, Rosmara Infantino, Flavia Ricciardi, Mario Giannella, Antonio Calignano, Vincenzo Di Marzo, Sabatino Maione, and Livio Luongo

Subjects

traumatic brain injury, behaviour, electrophyiology, pain, plant metabolite, Therapeutics. Pharmacology, RM1-950

Abstract

Traumatic brain injury (TBI) represents an important public health problem and is followed by neuroinflammation and neurological dysfunctions. It has been suggested that brain trauma is often associated to deep behavioral alterations and chronic pain-like syndrome. Despite inducing minimal brain damage, mild TBI (mTBI) leads to persistent behavioral changes, including anxiety, depression, social interaction impairment, and aggressiveness. The clinical management of these symptoms is still unsatisfactory and new pharmacological treatments are needed, especially for the aggressiveness and depression. In a mouse model of mTBI, we investigated the effect of 2-Pentadecyl-2-Oxazoline (PEA-OXA), a natural compound, that is a secondary metabolite, found in green and roasted coffee beans, on both the pain perception, and neuropsychiatric dysfunctions. We found that the compound acts as a α2 adrenergic antagonist and this mechanism is here described for the first time. Mild TBI mice, starting from 14-d post-trauma, developed anxious and aggressive behavior, whilst depressive-like behavior and impaired social interactions were observed from the 60th d onward. PEA-OXA normalized all the behavioral changes investigated. We also investigated the memory impairments through Morris Water Maze (MWM) test. Both sham and mTBI mice treated with PEA-OXA showed amelioration in the reversal task of the MWM. Nevertheless, the main symptom of the long-term mTBI is represented by the depressive-like behavior, which was completely reversed by PEA-OXA repeated administration. In humans, mTBI-induced depression precedes the appearance of dementias and is characterized by a massive deficit of GABAergic transmission in the cortices. We found that PEA-OXA normalized the GABA changes in the prefrontal cortex. In order to prove the α2-mediated effect of the PEA-OXA we have performed open field test in naïve animals by microinjecting into the medial prefrontal cortex the dexomedetomidine, a selective α2 agonist with or without PEA-OXA co-injection. We found that PEA-OXA antagonized the α2 agonist effect on the locomotor activity. Moreover, PEA-OXA microinjection into the medial prefrontal cortex induced an enhancement of dopamine release. Collectively, these data suggest that this natural compound, through its multi-target activity is able to: i) ameliorate behavioral alterations (i.e. depression), ii) selectively normalize cortical GABA levels, iii) rescue the impaired neuronal activity in the prefrontal cortex.

Published

2020

15. Behavioral, Anti-Inflammatory, and Neuroprotective Effects of a Novel FPR2 Agonist in Two Mouse Models of Autism

Author

Claudia Cristiano, Floriana Volpicelli, Marianna Crispino, Enza Lacivita, Roberto Russo, Marcello Leopoldo, Antonio Calignano, and Carla Perrone-Capano

Subjects

autism spectrum disorders, BTBR, VPA, behavior, neuroinflammation, hippocampus, Medicine, Pharmacy and materia medica, RS1-441

Abstract

Autism spectrum disorders (ASD) are a group of heterogeneous neurodevelopmental conditions characterized by social deficits, repetitive stereotyped behaviors, and altered inflammatory responses. Accordingly, children with ASD show decreased plasma levels of lipoxin A4 (LXA4), a mediator involved in the resolution of inflammation, which is the endogenous ligand of the formyl peptide receptor 2 (FPR2). To investigate the role of FPR2 in ASDs, we have used a new ureidopropanamide derivative able to activate the receptor, named MR-39. The effects of MR-39 (10 mg/kg, for 8 days) on hippocampal pro-inflammatory profile, neuronal plasticity, and social behavior were evaluated in two validated animal models of ASD: BTBR mouse strain and mice prenatally exposed to valproic acid (VPA). Primary cultures of hippocampal neurons from BTBR mice were also used to evaluate the effect of MR-39 on neurite elongation. Our results show that MR-39 treatment reduced several inflammatory markers, restored the low expression of LXA4, and modulated FPR2 expression in hippocampal tissues of both ASD animal models. These findings were accompanied by a significant positive effect of MR-39 on social behavioral tests of ASD mice. Finally, MR-39 stimulates neurite elongation in isolated hippocampal neurons of BTBR mice. In conclusion, these data indicate FPR2 as a potential target for an innovative therapeutical approach for the cure of ASD.

Published

2022

16. Ketogal Safety Profile in Human Primary Colonic Epithelial Cells and in Mice

Author

Federica Sodano, Bice Avallone, Monica Tizzano, Chiara Fogliano, Barbara Rolando, Elena Gazzano, Chiara Riganti, Salvatore Magliocca, Mariarosaria Cuozzo, Stefania Albrizio, Antonio Calignano, Claudia Cristiano, Roberto Russo, and Maria Grazia Rimoli

Subjects

ketorolac, ketogal, histological evaluation, colonic cytotoxicity, mitochondrial oxidative stress, Medicine, Pharmacy and materia medica, RS1-441

Abstract

In our previous studies, a ketorolac–galactose conjugate (ketogal) showed prolonged anti-inflammatory and analgesic activity, causing less gastric ulcerogenic effect and renal toxicity than its parent drug ketorolac. In order to demonstrate the safer profile of ketogal compared to ketorolac, histopathological changes in the small intestine and liver using three staining techniques before and after repeated oral administration in mice with ketorolac or an equimolecular dose of its galactosylated prodrug ketogal were assessed. Cytotoxicity and oxidative stress parameters were evaluated and compared in ketorolac- and ketogal-treated Human Primary Colonic Epithelial cells at different concentrations and incubation times. Evidence of mitochondrial oxidative stress was found after ketorolac treatment; this was attributable to altered mitochondrial membrane depolarization and oxidative stress parameters. No mitochondrial damage was observed after ketogal treatment. In ketorolac-treated mice, severe subepithelial vacuolation and erosion with inflammatory infiltrates and edematous area in the intestinal tissues were noted, as well as alterations in sinusoidal spaces and hepatocytes with foamy cytoplasm. In contrast, treatment with ketogal provided a significant improvement in the morphology of both organs. The prodrug clearly demonstrated a safer profile than its parent drug both in vitro and ex vivo, confirming that ketogal is a strategic alternative to ketorolac.

Published

2021

17. Lorcaserin improves glycemic control via a melanocortin neurocircuit

Author

Luke K. Burke, Emmanuel Ogunnowo-Bada, Teodora Georgescu, Claudia Cristiano, Pablo B. Martinez de Morentin, Lourdes Valencia Torres, Giuseppe D'Agostino, Christine Riches, Nicholas Heeley, Yue Ruan, Marcelo Rubinstein, Malcolm J. Low, Martin G. Myers, Justin J. Rochford, Mark L. Evans, and Lora K. Heisler

Subjects

5-HT2c receptor, Type 2 diabetes, Hypothalamus, Lorcaserin, Pro-opiomelanocortin (POMC), Melanocortin4 receptor (Mc4r), Internal medicine, RC31-1245

Abstract

Objective: The increasing prevalence of type 2 diabetes (T2D) and associated morbidity and mortality emphasizes the need for a more complete understanding of the mechanisms mediating glucose homeostasis to accelerate the identification of new medications. Recent reports indicate that the obesity medication lorcaserin, a 5-hydroxytryptamine (5-HT, serotonin) 2C receptor (5-HT2CR) agonist, improves glycemic control in association with weight loss in obese patients with T2D. Here we evaluate whether lorcaserin has an effect on glycemia without body weight loss and how this effect is achieved. Methods: Murine models of common and genetic T2D were utilized to probe the direct effect of lorcaserin on glycemic control. Results: Lorcaserin dose-dependently improves glycemic control in mouse models of T2D in the absence of reductions in food intake or body weight. Examining the mechanism of this effect, we reveal a necessary and sufficient neurochemical mediator of lorcaserin's glucoregulatory effects, brain pro-opiomelanocortin (POMC) peptides. To clarify further lorcaserin's therapeutic brain circuit, we examined the receptor target of POMC peptides. We demonstrate that lorcaserin requires functional melanocortin4 receptors on cholinergic preganglionic neurons (MC4RChAT) to exert its effects on glucose homeostasis. In contrast, MC4RChAT signaling did not impact lorcaserin's effects on feeding, indicating a divergence in the neurocircuitry underpinning lorcaserin's therapeutic glycemic and anorectic effects. Hyperinsulinemic-euglycemic clamp studies reveal that lorcaserin reduces hepatic glucose production, increases glucose disposal and improves insulin sensitivity. Conclusions: These data suggest that lorcaserin's action within the brain represents a mechanistically novel treatment for T2D: findings of significance to a prevalent global disease.

Published

2017

18. Effects of Chronic Oral Probiotic Treatment in Paclitaxel-Induced Neuropathic Pain

Author

Mariarosaria Cuozzo, Vanessa Castelli, Carmen Avagliano, Annamaria Cimini, Michele d’Angelo, Claudia Cristiano, and Roberto Russo

Subjects

chemotherapeutics, neuropathic pain, SLAB51, inflammation, gut integrity, spinal cord, Biology (General), QH301-705.5

Abstract

Chemotherapy-induced peripheral neuropathy (CIPN) represents one of the most prevalent and potentially disabling side effects due to the use of anticancer drugs, one of the primary neuropathies detected is peripheral neuropathy induced by administration of taxanes, including paclitaxel. It has been demonstrated that gut microbiota is crucial for the therapeutic effect of chemotherapeutic drugs for inhibiting tumor growth and contributed to the pathogenesis of the CIPN. The use of nutraceuticals has receiving growing attention from the research community due to their phytochemical, biological, and pharmacological properties. It has been demonstrated that probiotic formulations may both reduce inflammation and modulate the expression of pain receptors. Our studies tested the efficacy of a probiotic formulation, SLAB51, in preventing paclitaxel-induced neuropathy. Interestingly, our probiotic formulation was able to keep the gut integrity, preserving its functionality, in CIPN-mice, moreover, it prevented the mechanical and cold hypersensitivity induced in paclitaxel-mice. Additionally, ex-vivo analysis showed that in CIPN-mice the pro-biotic treatment increased the expression of opioid and cannabinoid receptors in spinal cord, it prevented in the reduction in nerve fiber damage in the paws and modulated the serum proinflammatory cytokines concentration. On basis of these data, the use of this specific probiotic formulation may represent a valid adjuvant agent to paclitaxel, useful and not toxic for long-lasting therapies.

Published

2021

19. Interplay Between Peripheral and Central Inflammation in Autism Spectrum Disorders: Possible Nutritional and Therapeutic Strategies

Author

Claudia Cristiano, Adriano Lama, Francesca Lembo, Maria P. Mollica, Antonio Calignano, and Giuseppina Mattace Raso

Subjects

ASDs, inflammation, obesity, gut-brain axis, therapeutics, Physiology, QP1-981

Abstract

Pre- and post-natal factors can affect brain development and function, impacting health outcomes with particular relevance to neurodevelopmental diseases, such as autism spectrum disorders (ASDs). Maternal obesity and its associated complications have been related to the increased risk of ASDs in offspring. Indeed, animals exposed to maternal obesity or high fat diets are prone to social communication impairment and repetitive behavior, the hallmarks of autism. During development, fatty acids and sugars, as well as satiety hormones, like insulin and leptin, and inflammatory factors related to obesity-induced low grade inflammation, could play a role in the impairment of neuroendocrine system and brain neuronal circuits regulating behavior in offspring. On the other side, post-natal factors, such as mode of delivery, stress, diet, or antibiotic treatment are associated to a modification of gut microbiota composition, perturbing microbiota-gut-brain axis. Indeed, the interplay between the gastrointestinal tract and the central nervous system not only occurs through neural, hormonal, and immune pathways, but also through microbe-derived metabolic products. The modification of unhealthy perinatal and postnatal environment, manipulation of gut microbiota, nutritional, and dietary interventions could represent possible strategies in preventing or limiting ASDs, through targeting inflammatory process and gut microbiota.

Published

2018

20. Peroxisome proliferator-activated receptor alpha plays a crucial role in behavioral repetition and cognitive flexibility in mice

Author

Giuseppe D'Agostino, Claudia Cristiano, David J. Lyons, Rita Citraro, Emilio Russo, Carmen Avagliano, Roberto Russo, Giuseppina Mattace Raso, Rosaria Meli, Giovambattista De Sarro, Lora K. Heisler, and Antonio Calignano

Subjects

Lipids, Nuclear receptor, Ketamine, Memory, Neurodevelopmental disorders, Stereotyped behavior, Internal medicine, RC31-1245

Abstract

Background/objectives: Nuclear peroxisome proliferator activated receptor-α (PPAR-α) plays a fundamental role in the regulation of lipid homeostasis and is the target of medications used to treat dyslipidemia. However, little is known about the role of PPAR-α in mouse behavior. Methods: To investigate the function of Ppar-α in cognitive functions, a behavioral phenotype analysis of mice with a targeted genetic disruption of Ppar-α was performed in combination with neuroanatomical, biochemical and pharmacological manipulations. The therapeutic exploitability of PPAR-α was probed in mice using a pharmacological model of psychosis and a genetic model (BTBR T + tf/J) exhibiting a high rate of repetitive behavior. Results: An unexpected role for brain Ppar-α in the regulation of cognitive behavior in mice was revealed. Specifically, we observed that Ppar-α genetic perturbation promotes rewiring of cortical and hippocampal regions and a behavioral phenotype of cognitive inflexibility, perseveration and blunted responses to psychomimetic drugs. Furthermore, we demonstrate that the antipsychotic and autism spectrum disorder (ASD) medication risperidone ameliorates the behavioral profile of Ppar-α deficient mice. Importantly, we reveal that pharmacological PPAR-α agonist treatment in mice improves behavior in a pharmacological model of ketamine-induced behavioral dysinhibition and repetitive behavior in BTBR T + tf/J mice. Conclusion: Our data indicate that Ppar-α is required for normal cognitive function and that pharmacological stimulation of PPAR-α improves cognitive function in pharmacological and genetic models of impaired cognitive function in mice. These results thereby reveal an unforeseen therapeutic application for a class of drugs currently in human use.

Published

2015

21. Ketogal: A Derivative Ketorolac Molecule with Minor Ulcerogenic and Renal Toxicity

Author

Roberto Russo, Carmen De Caro, Bice Avallone, Salvatore Magliocca, Maria Nieddu, Gianpiero Boatto, Roberta Troiano, Rosario Cuomo, Carla Cirillo, Carmen Avagliano, Claudia Cristiano, Giovanna La Rana, Giovanni Sarnelli, Antonio Calignano, and Maria G. Rimoli

Subjects

ketorolac, ketogal, analgesia, gastrointestinal toxicity, histological evaluation, PAS staining, Therapeutics. Pharmacology, RM1-950

Abstract

Ketorolac is a powerful non-steroidal anti-inflammatory drug (NSAID), with a great analgesic activity, present on the Italian market since 1991. Despite the excellent therapeutic activity, the chronic use of ketorolac has long been limited owing to the high incidence of gastrointestinal and kidney side events. In our previous study, we demonstrated that ketorolac–galactose conjugate (ketogal), synthesized and tested in a single-dose study, was able to reduce ulcerogenicity, while preserving the high pharmacological efficacy of its parent drug. In this paper, in order to verify the suitability of this compound, for repeated administration, ex vivo experiments on naïve mice were performed. Mice were treated for 5 or 7 days with the highest doses of two drugs (ketorolac 10 mg/kg and ketogal 16.3 mg/kg), and the expression of both gastric COX-1 and PGsyn was evaluated. Results showed that oral ketorolac treatment significantly reduced both enzymes; surprisingly, oral treatment with ketogal did not produce significant variation in the expression of the two constitutive enzymes. Moreover, histological experiments on stomach and kidneys clearly indicated that repeated administration of ketogal induced lower toxicity than ketorolac. At same time, in vivo results clearly showed that both ketorolac and ketogal had a similar therapeutic activity in a model of inflammation and in pain perception. These effects were accompanied by the reduction of enzyme expression such as COX-2 and iNOS, and by the modulation of levels of nuclear NF-κB and cytosolic IκB-α in the inflamed paws. These very encouraging results demonstrate for the first time that ketogal could represent a valid and novel therapeutic alternative to the ketorolac and might pave the way for clinical studies.

Published

2017

22. Appetite controlled by a cholecystokinin nucleus of the solitary tract to hypothalamus neurocircuit

Author

Giuseppe D'Agostino, David J Lyons, Claudia Cristiano, Luke K Burke, Joseph C Madara, John N Campbell, Ana Paula Garcia, Benjamin B Land, Bradford B Lowell, Ralph J Dileone, and Lora K Heisler

Subjects

feeding behavior, neuronal circuits, neuropeptides, Medicine, Science, Biology (General), QH301-705.5

Abstract

The nucleus of the solitary tract (NTS) is a key gateway for meal-related signals entering the brain from the periphery. However, the chemical mediators crucial to this process have not been fully elucidated. We reveal that a subset of NTS neurons containing cholecystokinin (CCKNTS) is responsive to nutritional state and that their activation reduces appetite and body weight in mice. Cell-specific anterograde tracing revealed that CCKNTS neurons provide a distinctive innervation of the paraventricular nucleus of the hypothalamus (PVH), with fibers and varicosities in close apposition to a subset of melanocortin-4 receptor (MC4RPVH) cells, which are also responsive to CCK. Optogenetic activation of CCKNTS axon terminals within the PVH reveal the satiating function of CCKNTS neurons to be mediated by a CCKNTS→PVH pathway that also encodes positive valence. These data identify the functional significance of CCKNTS neurons and reveal a sufficient and discrete NTS to hypothalamus circuit controlling appetite.

Published

2016

23. Obesity medication lorcaserin requires brainstem GLP-1 neurons to reduce food intake in mice

Author

Stefan Wagner, Daniel I. Brierley, Alasdair Leeson-Payne, Wanqing Jiang, Raffaella Chianese, Brian Y. H. Lam, Georgina K. C. Dowsett, Claudia Cristiano, David Lyons, Frank Reimann, Fiona M. Gribble, Giles S.H. Yeo, Stefan Trapp, and Lora K. Heisler

Abstract

Overweight and obesity are rapidly becoming the “new normal” in developed countries, which promotes a widespread negative impact on human health. Amongst recently developed obesity medications are the serotonin 2C receptor (5-HT2CR) agonist lorcaserin and glucagon-like peptide-1 receptor (GLP-1R) agonists, but the brain circuits employed by these medications to produce their therapeutic effects remain to be fully defined. 5-HT2CRs and GLP-1Rs are widely distributed in the brain, including in the key homeostatic region the nucleus of the solitary tract (NTS) where GLP-1 is produced by preproglucagon (PPGNTS) neurons. PPGNTS cells were profiled using histochemistry and single nucleus RNA sequencing (Nuc-Seq) of mouse brainstem. Transcriptomic analyses revealed 5-HT2CR expression was widespread in PPGNTS clusters. Demonstrating the functional significance of this co-expression, lorcaserin required PPGNTS to reduce food intake. Analysis of second order neurons revealed that local GLP1-R neurons within the NTS are necessary for 5-HT2CRNTS food intake suppression. In contrast, GLP-1RNTS were not required for GLP-1R agonist liraglutide and exendin-4’s short term feeding reduction, suggesting scope for lorcaserin and GLP1-R agonist combination therapy. In support of this, lorcaserin+liraglutide and lorcaserin+exendin-4 produced greater reductions in food intake when administered in combination as compared to monotherapies. These data provide insight into the therapeutic mechanisms of lorcaserin and identify a combination strategy to improve the therapeutic profile of lorcaserin and GLP1-R agonists.

Published

2022

24. The hepatic mitochondrial dysfunction and oxidative stress exacerbate meta-inflammation in autism spectrum disorders

Author

Giovanna Trinchese, Fabiano Cimmino, Gina Cavaliere, Angela Catapano, Chiara Fogliano, Adriano Lama, Claudio Pirozzi, Claudia Cristiano, Bice Avallone, and Maria Pina Mollica

Subjects

Physiology (medical), Biochemistry

Published

2023

25. Behavioral, Anti-Inflammatory, and Neuroprotective Effects of a Novel FPR2 Agonist in Two Mouse Models of Autism

Author

Claudia Cristiano, Floriana Volpicelli, Marianna Crispino, Enza Lacivita, Roberto Russo, Marcello Leopoldo, Antonio Calignano, Carla Perrone-Capano, Cristiano, C., Volpicelli, F., Crispino, M., Lacivita, E., Russo, R., Leopoldo, M., Calignano, A., and Perrone Capano, C.

Subjects

autism spectrum disorders, BTBR, VPA, behavior, neuroinflammation, hippocampus, Behavior, Hippocampu, Neuroinflammation, mental disorders, Drug Discovery, Pharmaceutical Science, Molecular Medicine, Autism spectrum disorder

Abstract

Autism spectrum disorders (ASD) are a group of heterogeneous neurodevelopmental conditions characterized by social deficits, repetitive stereotyped behaviors, and altered inflammatory responses. Accordingly, children with ASD show decreased plasma levels of lipoxin A4 (LXA4), a mediator involved in the resolution of inflammation, which is the endogenous ligand of the formyl peptide receptor 2 (FPR2). To investigate the role of FPR2 in ASDs, we have used a new ureidopropanamide derivative able to activate the receptor, named MR-39. The effects of MR-39 (10 mg/kg, for 8 days) on hippocampal pro-inflammatory profile, neuronal plasticity, and social behavior were evaluated in two validated animal models of ASD: BTBR mouse strain and mice prenatally exposed to valproic acid (VPA). Primary cultures of hippocampal neurons from BTBR mice were also used to evaluate the effect of MR-39 on neurite elongation. Our results show that MR-39 treatment reduced several inflammatory markers, restored the low expression of LXA4, and modulated FPR2 expression in hippocampal tissues of both ASD animal models. These findings were accompanied by a significant positive effect of MR-39 on social behavioral tests of ASD mice. Finally, MR-39 stimulates neurite elongation in isolated hippocampal neurons of BTBR mice. In conclusion, these data indicate FPR2 as a potential target for an innovative therapeutical approach for the cure of ASD.

Published

2021

26. Ketogal Safety Profile in Human Primary Colonic Epithelial Cells and in Mice

Author

Antonio Calignano, Roberto Russo, Monica Tizzano, Maria Grazia Rimoli, Stefania Albrizio, Barbara Rolando, Chiara Riganti, Elena Gazzano, Salvatore Magliocca, Chiara Fogliano, Bice Avallone, Mariarosaria Cuozzo, Federica Sodano, Claudia Cristiano, Sodano, F., Avallone, B., Tizzano, M., Fogliano, C., Rolando, B., Gazzano, E., Riganti, C., Magliocca, S., Cuozzo, M., Albrizio, S., Calignano, A., Cristiano, C., Russo, R., and Rimoli, M. G.

Subjects

histological evaluation, Pharmaceutical Science, ketorolac, ketogal, Pharmacology, medicine.disease_cause, Article, Pharmacy and materia medica, Oral administration, Drug Discovery, medicine, Mitochondrial oxida-tive stress, mitochondrial oxidative stress, Chemistry, Colonic cytotoxicity, Histological evaluation, Ketogal, Ketorolac, Prodrug, In vitro, Small intestine, RS1-441, body regions, medicine.anatomical_structure, colonic cytotoxicity, Toxicity, Molecular Medicine, Medicine, Ex vivo, Oxidative stress, medicine.drug

Abstract

In our previous studies, a ketorolac–galactose conjugate (ketogal) showed prolonged anti-inflammatory and analgesic activity, causing less gastric ulcerogenic effect and renal toxicity than its parent drug ketorolac. In order to demonstrate the safer profile of ketogal compared to ketorolac, histopathological changes in the small intestine and liver using three staining techniques before and after repeated oral administration in mice with ketorolac or an equimolecular dose of its galactosylated prodrug ketogal were assessed. Cytotoxicity and oxidative stress parameters were evaluated and compared in ketorolac- and ketogal-treated Human Primary Colonic Epithelial cells at different concentrations and incubation times. Evidence of mitochondrial oxidative stress was found after ketorolac treatment, this was attributable to altered mitochondrial membrane depolarization and oxidative stress parameters. No mitochondrial damage was observed after ketogal treatment. In ketorolac-treated mice, severe subepithelial vacuolation and erosion with inflammatory infiltrates and edematous area in the intestinal tissues were noted, as well as alterations in sinusoidal spaces and hepatocytes with foamy cytoplasm. In contrast, treatment with ketogal provided a significant improvement in the morphology of both organs. The prodrug clearly demonstrated a safer profile than its parent drug both in vitro and ex vivo, confirming that ketogal is a strategic alternative to ketorolac.

Published

2021

27. Ultra-micronized palmitoylethanolamide rescues the cognitive decline-associated loss of neural plasticity in the neuropathic mouse entorhinal cortex-dentate gyrus pathway

Author

Antonio Farina, Antonio Calignano, Carmela Belardo, Mariacristina Mazzitelli, Sabatino Maione, Lea Tunisi, Francesca Guida, Serena Boccella, Fabiana Piscitelli, Vito de Novellis, Luigia Cristino, Rosaria Romano, Claudia Cristiano, Monica Iannotta, Enza Palazzo, Roberta Imperatore, Vincenzo Di Marzo, Livio Luongo, Boccella, S., Cristiano, C., Romano, R., Iannotta, M., Belardo, C., Farina, A., Guida, F., Piscitelli, F., Palazzo, E., Mazzitelli, M., Imperatore, R., Tunisi, L., de Novellis, V., Cristino, L., Di Marzo, V., Calignano, A., Maione, S., Luongo, L., Boccella, S, Cristiano, C, Romano, R, Iannotta, M, Belardo, C, Farina, A, Guida, F, Piscitelli, F, Palazzo, E, Mazzitelli, M, Imperatore, R, Tunisi, L, de Novellis, V, Cristino, L, Di Marzo, V, Calignano, A, Maione, S, and Luongo, L

Subjects

0301 basic medicine, Long-Term Potentiation, synaptogenesi, PPARα, chemistry.chemical_compound, 0302 clinical medicine, synaptogenesis, Peripheral Nerve Injuries, Neural Pathways, Entorhinal Cortex, Cognitive decline, long term potentiation, cognitive performance, Homocysteine, Neurons, pamitoylethanolamide, musculoskeletal, neural, and ocular physiology, Spared nerve injury, Chronic pain, Long-term potentiation, Sciatic Nerve, Neurology, Hyperalgesia, Glutamatergic synapse, AMPA receptor, lcsh:RC321-571, Neural Pathway, 03 medical and health sciences, medicine, Animals, PPAR alpha, Cognitive Dysfunction, Receptors, AMPA, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Palmitoylethanolamide, Dentate Gyru, Animal, business.industry, Dentate gyrus, Peripheral Nerve Injurie, Post-Synaptic Density, Neuron, medicine.disease, Entorhinal cortex, Mice, Inbred C57BL, 030104 developmental biology, nervous system, chemistry, Dentate Gyrus, Neuralgia, business, Neuroscience, 030217 neurology & neurosurgery

Abstract

Chronic pain is associated with cognitive deficits. Palmitoylethanolamide (PEA) has been shown to ameliorate pain and pain-related cognitive impairments by restoring glutamatergic synapses functioning in the spared nerve injury (SNI) of the sciatic nerve in mice. SNI reduced mechanical and thermal threshold, spatial memory and LTP at the lateral entorhinal cortex (LEC)-dentate gyrus (DG) pathway. It decreased also postsynaptic density, volume and dendrite arborization of DG and increased the expression of metabotropic glutamate receptor 1 and 7 (mGluR1 and mGluR7), of the GluR1, GluR1s845 and GluR1s831 subunits of AMPA receptor and the levels of glutamate in the DG. The level of the endocannabinoid 2-arachidonoylglycerol (2-AG) was instead increased in the LEC. Chronic treatment with PEA, starting from when neuropathic pain was fully developed, was able to reverse mechanical allodynia and thermal hyperalgesia, memory deficit and LTP in SNI wild type, but not in PPAR alpha null, mice. PEA also restored the level of glutamate and the expression of phosphorylated GluR1 subunits, postsynaptic density and neurogenesis. Altogether, these results suggest that neuropathic pain negatively affects cognitive behavior and related LTP, glutamatergic synapse and synaptogenesis in the DG. In these conditions PEA treatment alleviates pain and cognitive impairment by restoring LIT and synaptic maladaptative changes in the LEC-DG pathway. These outcomes open new perspectives for the use of the N-acylethanolamines, such as PEA, for the treatment of neuropathic pain and its central behavioural sequelae.

Published

2019

28. Design, synthesis and

Author

Alessandro, Deplano, Jessica, Karlsson, Federica, Moraca, Mona, Svensson, Claudia, Cristiano, Carmine Marco, Morgillo, Christopher J, Fowler, Roberto, Russo, Bruno, Catalanotti, and Valentina, Onnis

Subjects

Male, Models, Molecular, Static Electricity, Mice, Inbred Strains, Flurbiprofen amides, Amidohydrolases, Rats, Sprague-Dawley, Mice, Structure-Activity Relationship, fatty acid amide hydrolase, Animals, non-steroidal anti-inflammatory drugs, Enzyme Inhibitors, Rats, Wistar, hyperalgesia, allodynia, Analgesics, Dose-Response Relationship, Drug, Molecular Structure, endocannabinoid, Amides, Rats, FAAH inhibition, cyclooxygenase, Flurbiprofen, Cyclooxygenase 2, Drug Design, Quantum Theory, lipids (amino acids, peptides, and proteins), Research Article, Research Paper

Abstract

Compounds combining dual inhibitory action against FAAH and cyclooxygenase (COX) may be potentially useful analgesics. Here, we describe a novel flurbiprofen analogue, N-(3-bromopyridin-2-yl)-2-(2-fluoro-(1,1'-biphenyl)-4-yl)propanamide (Flu-AM4). The compound is a competitive, reversible inhibitor of FAAH with a Ki value of 13 nM and which inhibits COX activity in a substrate-selective manner. Molecular modelling suggested that Flu-AM4 optimally fits a hydrophobic pocket in the ACB region of FAAH, and binds to COX-2 similarly to flurbiprofen. In vivo studies indicated that at a dose of 10 mg/kg, Flu-AM4 was active in models of prolonged (formalin) and neuropathic (chronic constriction injury) pain and reduced the spinal expression of iNOS, COX-2, and NFκB in the neuropathic model. Thus, the present study identifies Flu-AM4 as a dual-action FAAH/substrate-selective COX inhibitor with anti-inflammatory and analgesic activity in animal pain models. These findings underscore the potential usefulness of such dual-action compounds., Graphical Abstract

Published

2021

29. Effects of Chronic Oral Probiotic Treatment in Paclitaxel-Induced Neuropathic Pain

Author

Roberto Russo, Vanessa Castelli, Carmen Avagliano, Annamaria Cimini, Claudia Cristiano, Michele d'Angelo, Mariarosaria Cuozzo, Cuozzo, Mariarosaria, Castelli, Vanessa, Avagliano, Carmen, Cimini, Annamaria, D'Angelo, Michele, Cristiano, Claudia, and Russo, Roberto

Subjects

chemotherapeutic, medicine.medical_treatment, Medicine (miscellaneous), Inflammation, Pharmacology, Article, General Biochemistry, Genetics and Molecular Biology, Proinflammatory cytokine, chemistry.chemical_compound, medicine, SLAB51, Chemotherapeutics, Gut integrity, Neuropathic pain, Spinal cord, lcsh:QH301-705.5, gut integrity, neuropathic pain, business.industry, chemotherapeutics, spinal cord, medicine.disease, Peripheral neuropathy, Paclitaxel, chemistry, Opioid, lcsh:Biology (General), inflammation, Nociceptor, medicine.symptom, business, Adjuvant, medicine.drug

Abstract

Chemotherapy-induced peripheral neuropathy (CIPN) represents one of the most prevalent and potentially disabling side effects due to the use of anticancer drugs, one of the primary neuropathies detected is peripheral neuropathy induced by administration of taxanes, including paclitaxel. It has been demonstrated that gut microbiota is crucial for the therapeutic effect of chemotherapeutic drugs for inhibiting tumor growth and contributed to the pathogenesis of the CIPN. The use of nutraceuticals has receiving growing attention from the research community due to their phytochemical, biological, and pharmacological properties. It has been demonstrated that probiotic formulations may both reduce inflammation and modulate the expression of pain receptors. Our studies tested the efficacy of a probiotic formulation, SLAB51, in preventing paclitaxel-induced neuropathy. Interestingly, our probiotic formulation was able to keep the gut integrity, preserving its functionality, in CIPN-mice, moreover, it prevented the mechanical and cold hypersensitivity induced in paclitaxel-mice. Additionally, ex-vivo analysis showed that in CIPN-mice the pro-biotic treatment increased the expression of opioid and cannabinoid receptors in spinal cord, it prevented in the reduction in nerve fiber damage in the paws and modulated the serum proinflammatory cytokines concentration. On basis of these data, the use of this specific probiotic formulation may represent a valid adjuvant agent to paclitaxel, useful and not toxic for long-lasting therapies.

Published

2021

30. Design, synthesis and in vitro and in vivo biological evaluation of flurbiprofen amides as new fatty acid amide hydrolase/cyclooxygenase-2 dual inhibitory potential analgesic agents

Author

Jessica Karlsson, Federica Moraca, Valentina Onnis, Alessandro Deplano, Mona Svensson, Bruno Catalanotti, Roberto Russo, Claudia Cristiano, Christopher J. Fowler, Carmine Marco Morgillo, Deplano, A., Karlsson, J., Moraca, F., Svensson, M., Cristiano, C., Morgillo, C. M., Fowler, C. J., Russo, R., Catalanotti, B., and Onnis, V.

Subjects

Amide, Male, Models, Molecular, Flurbiprofen, Pharmacology, 01 natural sciences, Mice, Inbred Strain, Rats, Sprague-Dawley, Mice, Fatty acid amide hydrolase, Drug Discovery, fatty acid amide hydrolase, non-steroidal anti-inflammatory drugs, Enzyme Inhibitor, Amidohydrolase, biology, Molecular Structure, Chemistry, Läkemedelskemi, General Medicine, Farmakologi och toxikologi, Endocannabinoid system, cyclooxygenase, Hyperalgesia, flurbiprofen amides, lipids (amino acids, peptides, and proteins), medicine.symptom, medicine.drug, Static Electricity, RM1-950, Flurbiprofen amides, Pharmacology and Toxicology, Inhibitory postsynaptic potential, Flurbiprofen amide, Structure-Activity Relationship, non-steroidal anti-inflammatory drug, In vivo, medicine, Rats, Wistar, allodynia, hyperalgesia, Dose-Response Relationship, Drug, 010405 organic chemistry, Animal, endocannabinoid, In vitro, 0104 chemical sciences, FAAH inhibition, 010404 medicinal & biomolecular chemistry, Cyclooxygenase 2, Drug Design, biology.protein, Quantum Theory, Rat, Analgesic, Cyclooxygenase, Therapeutics. Pharmacology, Medicinal Chemistry

Abstract

Compounds combining dual inhibitory action against FAAH and cyclooxygenase (COX) may be potentially useful analgesics. Here, we describe a novel flurbiprofen analogue, N-(3-bromopyridin-2-yl)-2-(2-fluoro-(1,1'-biphenyl)-4-yl)propanamide (Flu-AM4). The compound is a competitive, reversible inhibitor of FAAH with a Ki value of 13 nM and which inhibits COX activity in a substrate-selective manner. Molecular modelling suggested that Flu-AM4 optimally fits a hydrophobic pocket in the ACB region of FAAH, and binds to COX-2 similarly to flurbiprofen. In vivo studies indicated that at a dose of 10 mg/kg, Flu-AM4 was active in models of prolonged (formalin) and neuropathic (chronic constriction injury) pain and reduced the spinal expression of iNOS, COX-2, and NFκB in the neuropathic model. Thus, the present study identifies Flu-AM4 as a dual-action FAAH/substrate-selective COX inhibitor with anti-inflammatory and analgesic activity in animal pain models. These findings underscore the potential usefulness of such dual-action compounds.

Published

2021

31. Author response for 'Role of β3‐adrenergic receptor in the modulation of synaptic transmission and plasticity in mouse cerebellar cortex'

Author

Filippo Tempia, Pellegrino Lippiello, Adrien T. Stanley, Roberto Russo, Claudia Cristiano, Eriola Hoxha, Maria Concetta Miniaci, and Emilia Malvicini

Subjects

β3 adrenergic receptor, Modulation, Cerebellar cortex, Plasticity, Neurotransmission, Biology, Neuroscience

Published

2020

32. Modulation of pain sensitivity by chronic consumption of highly palatable food followed by abstinence: emerging role of fatty acid amide hydrolase

Author

Giovanna La Rana, Adele Romano, Carlo Cifani, Emanuela Micioni Di Bonaventura, Maria Vittoria Micioni Di Bonaventura, Roberto Russo, Luca Botticelli, Claudia Cristiano, Silvana Gaetani, Antonio Calignano, Carmen De Caro, Carmen Avagliano, Maria Elena Giusepponi, Cifani, C., Avagliano, C., Micioni Di Bonaventura, E., Giusepponi, M. E., De Caro, C., Cristiano, C., La Rana, G., Botticelli, L., Romano, A., Calignano, A., Gaetani, S., Micioni Di Bonaventura, M. V., and Russo, R.

Subjects

0301 basic medicine, medicine.medical_specialty, obesity, Cannabinoid receptor, medicine.medical_treatment, media_common.quotation_subject, brain, Cafeteria, 03 medical and health sciences, 0302 clinical medicine, Fatty acid amide hydrolase, Internal medicine, Threshold of pain, Medicine, Pharmacology (medical), pain, Receptor, media_common, Original Research, Pharmacology, biology, business.industry, animal model, lcsh:RM1-950, Abstinence, biology.organism_classification, animal models, lcsh:Therapeutics. Pharmacology, 030104 developmental biology, Endocrinology, high-fat diet, Opioid, 030220 oncology & carcinogenesis, Cannabinoid, business, medicine.drug

Abstract

There is a strong relationship between palatable diet and pain sensitivity, and the cannabinoid and opioid systems might play an important role in this correlation. The palatable diet used in many animal models of obesity is the cafeteria (CAF) diet, based on human food with high sugar, salt, and fat content. In this study, we investigated whether long-term exposure to a CAF diet could modify pain sensitivity and explored the role of the cannabinergic system in this modification. Male Sprague–Dawley rats were divided into two groups: one fed with standard chow only (CO) and the other with extended access (EA) to a CAF diet. Hot plate and tail flick tests were used to evaluate pain sensitivity. At the end of a 40-day CAF exposure, EA rats showed a significant increase in the pain threshold compared to CO rats, finding probably due to up-regulation of CB1 and mu-opioid receptors. Instead, during abstinence from palatable foods, EA animals showed a significant increase in pain sensibility, which was ameliorated by repeated treatment with a fatty acid amide hydrolase inhibitor, PF-3845 (10 mg/kg, intraperitoneally), every other day for 28 days. Ex vivo analysis of the brains of these rats clearly showed that this effect was mediated by mu-opioid receptors, which were up-regulated following repeated treatment of PF-3845. Our data add to the knowledge about changes in pain perception in obese subjects, revealing a key role of CB1 and mu-opioid receptors and their possible pharmacological crosstalk and reinforcing the need to consider this modulation in planning effective pain management for obese patients.

Published

2020

33. Role of β3-adrenergic receptor in the modulation of synaptic transmission and plasticity in mouse cerebellar cortex

Author

Maria Concetta Miniaci, Claudia Cristiano, Eriola Hoxha, Roberto Russo, Emilia Malvicini, Pellegrino Lippiello, Adrien T. Stanley, Filippo Tempia, Lippiello, P., Hoxha, E., Cristiano, C., Malvicini, E., Stanley, A., Russo, R., Tempia, F., and Miniaci, M. C.

Subjects

0301 basic medicine, Male, Cerebellum, Patch-Clamp Techniques, cerebellum, Purkinje cell, Long-Term Potentiation, RRID:AB_2492288, Neurotransmission, Biology, β3-AR, Synaptic Transmission, RRID:SCR_014199, 03 medical and health sciences, Cellular and Molecular Neuroscience, Cerebellar Cortex, Mice, Phosphatidylinositol 3-Kinases, Purkinje Cells, 0302 clinical medicine, Postsynaptic potential, medicine, Animals, RRID:SCR_002798, RRID:SCR_004186, Neuronal Plasticity, synaptic plasticity, Long-Term Synaptic Depression, Excitatory Postsynaptic Potentials, Long-term potentiation, RRID:AB_10886466, 030104 developmental biology, medicine.anatomical_structure, Cerebellar cortex, Receptors, Adrenergic, beta-3, Rotarod Performance Test, RRID:SCR_000325, Synaptic plasticity, Synapses, neuromodulation, Excitatory postsynaptic potential, motor learning, Female, Neuroscience, 030217 neurology & neurosurgery

Abstract

Convergent lines of evidence have recently highlighted β3-adrenoreceptors (ARs) as a potentially critical target in the regulation of nervous and behavioral functions, including memory consolidation, anxiety, and depression. Nevertheless, the role of β3-ARs in the cerebellum has been never investigated. To address this issue, we first examined the effects of pharmacological manipulation of β3-ARs on motor learning in mice. We found that blockade of β3-ARs by SR 59230A impaired the acquisition of the rotarod task with no effect on general locomotion. Since the parallel fiber-Purkinje cell (PF-PC) synapse is considered to be the main cerebellar locus of motor learning, we assessed β3-AR modulatory action on this synapse as well as its expression in cerebellar slices. We demonstrate, for the first time, a strong expression of β3-ARs on Purkinje cell soma and dendrites. In addition, whole-cell patch-clamp recordings revealed that bath application of β3-AR agonist CL316,243 depressed the PF-PC excitatory postsynaptic currents via a postsynaptic mechanism mediated by the PI3K signaling pathway. Application of CL316,243 also interfered with the expression of PF long-term potentiation, whereas SR 59230A prevented the induction of LTD at PF-PC synapse. These results underline the critical role of β3-AR on cerebellar synaptic transmission and plasticity and provide a new mechanism for adrenergic modulation of motor learning.

Published

2020

34. Treatment With 2-Pentadecyl-2-Oxazoline Restores Mild Traumatic Brain Injury-Induced Sensorial and Neuropsychiatric Dysfunctions

Author

Antonio Calignano, Serena Boccella, Monica Iannotta, Carmela Belardo, Sabatino Maione, Rosmara Infantino, Francesca Guida, Vincenzo Di Marzo, Flavia Ricciardi, Claudia Cristiano, Livio Luongo, Fabio Del Bello, Fabio Arturo Iannotti, Mario Giannella, Boccella, S., Iannotta, M., Cristiano, C., Iannotti, F. A., Bello, F. D., Guida, F., Belardo, C., Infantino, R., Ricciardi, F., Giannella, M., Calignano, A., Di Marzo, V., Maione, S., and Luongo, L.

Subjects

0301 basic medicine, Traumatic brain injury, Morris water navigation task, Brain damage, Open field, 03 medical and health sciences, 0302 clinical medicine, Dopamine, Medicine, Premovement neuronal activity, pain, Pharmacology (medical), Prefrontal cortex, Neuroinflammation, Original Research, electrophyiology, Pharmacology, business.industry, traumatic brain injury, lcsh:RM1-950, food and beverages, plant metabolite, medicine.disease, behaviour, lcsh:Therapeutics. Pharmacology, 030104 developmental biology, 030220 oncology & carcinogenesis, medicine.symptom, business, Neuroscience, medicine.drug

Abstract

Traumatic brain injury (TBI) represents an important public health problem and is followed by neuroinflammation and neurological dysfunctions. It has been suggested that brain trauma is often associated to deep behavioral alterations and chronic pain-like syndrome. Despite inducing minimal brain damage, mild TBI (mTBI) leads to persistent behavioral changes, including anxiety, depression, social interaction impairment, and aggressiveness. The clinical management of these symptoms is still unsatisfactory and new pharmacological treatments are needed, especially for the aggressiveness and depression. In a mouse model of mTBI, we investigated the effect of 2-Pentadecyl-2-Oxazoline (PEA-OXA), a natural compound, that is a secondary metabolite, found in green and roasted coffee beans, on both the pain perception, and neuropsychiatric dysfunctions. We found that the compound acts as a α2 adrenergic antagonist and this mechanism is here described for the first time. Mild TBI mice, starting from 14-d post-trauma, developed anxious and aggressive behavior, whilst depressive-like behavior and impaired social interactions were observed from the 60th d onward. PEA-OXA normalized all the behavioral changes investigated. We also investigated the memory impairments through Morris Water Maze (MWM) test. Both sham and mTBI mice treated with PEA-OXA showed amelioration in the reversal task of the MWM. Nevertheless, the main symptom of the long-term mTBI is represented by the depressive-like behavior, which was completely reversed by PEA-OXA repeated administration. In humans, mTBI-induced depression precedes the appearance of dementias and is characterized by a massive deficit of GABAergic transmission in the cortices. We found that PEA-OXA normalized the GABA changes in the prefrontal cortex. In order to prove the α2-mediated effect of the PEA-OXA we have performed open field test in naïve animals by microinjecting into the medial prefrontal cortex the dexomedetomidine, a selective α2 agonist with or without PEA-OXA co-injection. We found that PEA-OXA antagonized the α2 agonist effect on the locomotor activity. Moreover, PEA-OXA microinjection into the medial prefrontal cortex induced an enhancement of dopamine release. Collectively, these data suggest that this natural compound, through its multi-target activity is able to: i) ameliorate behavioral alterations (i.e. depression), ii) selectively normalize cortical GABA levels, iii) rescue the impaired neuronal activity in the prefrontal cortex.

Published

2020

35. Pharmacological and molecular docking assessment of cryptotanshinone as natural-derived analgesic compound

Author

Sonia Laneri, Simona De Vita, Gian Marco Casillo, Ritamaria Di Lorenzo, Maria Giovanna Chini, Giuseppe Bifulco, Antonia Sacchi, Nicola Mascolo, Francesco Maione, Carmen De Caro, Claudia Cristiano, Irene Dini, Anella Saviano, Federica Raucci, Antonio Calignano, De Caro, Carmen, Raucci, Federica, Saviano, Anella, Cristiano, Claudia, Casillo, Gian Marco, Di Lorenzo, Ritamaria, Sacchi, Antonia, Laneri, Sonia, Dini, Irene, De Vita, Simona, Chini, Maria Giovanna, Bifulco, Giuseppe, Calignano, Antonio, Maione, Francesco, and Mascolo, Nicola

Subjects

Male, Models, Molecular, 0301 basic medicine, Protein Conformation, Analgesic, RM1-950, Pharmacology, Cryptotanshinone, Salvia miltiorrhiza, Analgesia, Docking, Opiods, Mice, 03 medical and health sciences, 0302 clinical medicine, medicine, Animals, Humans, Hot plate test, Pain Measurement, Analgesics, Molecular Structure, business.industry, General Medicine, Phenanthrenes, Endocannabinoid system, Molecular Docking Simulation, 030104 developmental biology, Nociception, Opioid, Docking (molecular), 030220 oncology & carcinogenesis, Receptors, Opioid, Therapeutics. Pharmacology, business, Tail flick test, medicine.drug

Abstract

Medicinal plants from traditional chinese medicine are used increasingly worldwide for their benefits to health and quality of life for the relevant clinical symptoms related to pain. Among them, Salvia miltiorrhiza Bunge is traditionally used in asian countries as antioxidant, anticancer, anti-inflammatory and analgesic agent. In this context, several evidences support the hypothesis that some tanshinones, in particular cryptotanshinone (CRY), extracted from the roots (Danshen) of this plant exhibit analgesic actions. However, it is surprisingly noted that no pharmacological studies have been carried out to explore the possible analgesic action of this compound in terms of modulation of peripheral and/or central pain. Therefore, in the present study, by using peripheral and central pain models of nociception, such as tail flick and hot plate test, the analgesic effect of CRY in mice was evaluated. Successively, by the aim of a computational approach, we have evaluated the interaction mode of this diterpenoid on opioid and cannabinoid system. Finally, CRY was dosed in mice serum by an HPLC method validated according to European Medicines Agency guidelines validation rules. Here, we report that CRY displayed anti-nociceptive activity on both hot plate and tail flick test, with a prominent long-lasting peripheral analgesic effect. These evidences were indirectly confirmed after the daily administration of the tanshinone for 7 and 14 days. In addition, the analgesic effect of CRY was reverted by naloxone and cannabinoid antagonists and amplified by arginine administration. These findings were finally supported by HPLC and docking studies, that revealed a noteworthy presence of CRY on mice serum 1 h after its intraperitoneal administration and a possible interaction of tested compound on μ and k receptors. Taken together, these results provide a new line of evidences showing that CRY can produce analgesia against various phenotypes of nociception with a mechanism that seems to be related to an agonistic activity on opioid system.

Published

2020

36. Exploration of TRPM8 Binding Sites by β-Carboline-Based Antagonists and Their in Vitro Characterization and in Vivo Analgesic Activities

Author

Claudia Cristiano, Veronica Di Sarno, Manuela Giovanna Basilicata, Roberto Russo, Vincenzo Vestuto, Alessia Bertamino, Pietro Campiglia, Giuseppe Bifulco, Tania Ciaglia, Simona Musella, Giacomo Pepe, Gianluigi Lauro, Carmine Ostacolo, Gerardina Smaldone, Isabel Gomez-Monterrey, Sara González-Rodríguez, Alicia Medina, Asia Fernández-Carvajal, Bertamino, Alessia, Ostacolo, Carmine, Medina, Alicia, Di Sarno, Veronica, Lauro, Gianluigi, Ciaglia, Tania, Vestuto, Vincenzo, Pepe, Giacomo, Basilicata, Manuela Giovanna, Musella, Simona, Smaldone, Gerardina, Cristiano, Claudia, Gonzalez-Rodriguez, Sara, Fernandez-Carvajal, Asia, Bifulco, Giuseppe, Campiglia, Pietro, Gomez-Monterrey, Isabel, and Russo, Roberto

Subjects

Analgesics, Binding Sites, Stereochemistry, Chemistry, Protein Conformation, Tryptophan, Antagonist, Animals, Carbolines, Molecular Docking Simulation, Neuralgia, Rats, TRPM Cation Channels, In vitro, Article, In vivo, Drug Discovery, TRPM8, Molecular Medicine, Pharmacophore, Binding site, IC50

Abstract

Transient receptor potential melastatin 8 (TRPM8) ion channel represents a valuable pharmacological option for several therapeutic areas. Here, a series of conformationally restricted derivatives of the previously described TRPM8 antagonist N,N'-dibenzyl tryptophan 4 were prepared and characterized in vitro by Ca2+-imaging and patch-clamp electrophysiology assays. Molecular modeling studies led to identification of a broad and well-defined interaction network of these derivatives inside the TRPM8-agonist binding site, underlying their antagonist activity. The (5R,11aS)-5-(4-chlorophenyl)-2-(4-fluorobenzyl)-5,6,11,11a-tetrahydro-1H-imidazo[1',5':1,6]pyrido[3,4-b]indole-1,3(2H)-dione (31a) emerged as a potent (IC50 4.10 ± 1.2 nM), selective, and metabolically stable TRPM8 antagonist. In vivo, 31a showed significant target coverage in an icilin-induced WDS (at 11.5 mg/kg i.p.), an oxaliplatin-induced cold allodynia (at 10-30 μg s.c.), and CCI-induced thermal hyperalgesia (at 11.5 mg/kg i.p.) mice models. These results confirm the tryptophan moiety as a solid pharmacophore template for the design of highly potent modulators of TRPM8-mediated activities.

Published

2020

37. Motor coordination and synaptic plasticity deficits are associated with increased cerebellar activity of NADPH oxidase, CAMKII, and PKC at preplaque stage in the TgCRND8 mouse model of Alzheimer's disease

Author

Claudia Cristiano, Rosario Ammendola, Roberto Russo, Rita Santamaria, Pellegrino Lippiello, Fabio Zurlo, Tiziana Borsello, Carlo Irace, Fabio Cattaneo, Antonio Calignano, Maria Concetta Miniaci, Martina Castaldo, Russo, Roberto, Cattaneo, Fabio, Lippiello, Pellegrino, Cristiano, Claudia, Fabio, Zurlo, Castaldo, Martina, Irace, Carlo, Tiziana, Borsello, Santamaria, Rita, Ammendola, Rosario, Calignano, Antonio, and Miniaci, Maria

Subjects

Male, 0301 basic medicine, Aging, Cerebellum, Patch-Clamp Techniques, Gene Expression, Amyloid beta-Protein Precursor, Norepinephrine, chemistry.chemical_compound, 0302 clinical medicine, Patch-clamp recordings, Amyloid precursor protein, Neuronal Plasticity, NADPH oxidase, biology, General Neuroscience, beta-amyloid, Alzheimer's disease, Cell biology, medicine.anatomical_structure, Female, Nicotinamide adenine dinucleotide phosphate, Protein Kinase C-alpha, Mice, Transgenic, In Vitro Techniques, Synaptic plasticity, 03 medical and health sciences, Alzheimer Disease, Ca2+/calmodulin-dependent protein kinase, medicine, Animals, Protein kinase A, Genetic Association Studies, Protein kinase C, NADPH Oxidases, Disease Models, Animal, Oxidative Stress, 030104 developmental biology, chemistry, Noradrenaline, biology.protein, Oxidative stre, Neurology (clinical), Geriatrics and Gerontology, Calcium-Calmodulin-Dependent Protein Kinase Type 2, Psychomotor Performance, 030217 neurology & neurosurgery, Developmental Biology

Abstract

Numerous studies indicate that the cerebellum undergoes structural and functional neurodegenerative changes in Alzheimer's disease. The purpose of this study was to examine the extent of cerebellar alterations at early, preplaque stage of the pathology in TgCRND8 mice through behavioral, electrophysiological, and molecular analysis. Balance beam test and foot-printing analysis revealed significant motor coordination and balance deficits in 2-month-old TgCRND8 mice compared to their littermates. Patch-clamp recordings performed on cerebellar slices of transgenic mice showed synaptic plasticity deficit and loss of noradrenergic modulation at parallel fiber-Purkinje cell synapse suggesting an early dysfunction of the cerebellar circuitry due to amyloid precursor protein overexpression. Finally, western blot analysis revealed an enhanced expression of nicotinamide adenine dinucleotide phosphate (NADPH) oxidase subunits p47(phox) and p67(phox) as well as Ca2+/calmodulin-dependent protein kinase and protein kinase C alpha in the cerebellum of 2-month-old transgenic mice. Therefore, we propose the existence of self-sustaining feedback loop involving the formyl peptide receptor 2-reactive oxygen species-Ca2+/calmodulin-dependent protein kinase II-protein kinase C alpha pathway that may promote reactive oxygen species generation in the early stage of Alzheimer's disease and eventually contribute to the exacerbation of pathological phenotype.

Published

2018

38. Histamine-deficient mice do not respond to the antidepressant-like effects of oleoylethanolamide

Author

Carla Ghelardini, Silvana Gaetani, Antonio Calignano, Alessia Costa, Tommaso Cassano, Claudia Cristiano, M. Beatrice Passani, Gustavo Provensi, Cristina Anna Gallelli, Patrizio Blandina, Costa, Alessia, Cristiano, Claudia, Cassano, Tommaso, Gallelli, Cristina Anna, Gaetani, Silvana, Ghelardini, Carla, Blandina, Patrizio, Calignano, Antonio, Passani, M. Beatrice, and Provensi, Gustavo

Subjects

Male, 0301 basic medicine, Agonist, Serotonin, Microdialysis, medicine.drug_class, Prefrontal Cortex, Oleic Acids, Pharmacology, Hippocampus, tail suspension test, Random Allocation, 03 medical and health sciences, Cellular and Molecular Neuroscience, chemistry.chemical_compound, Oleoylethanolamide, 0302 clinical medicine, histidine decarboxylase, PPAR-α, CREB, in vivo microdialysis, imipramine, medicine, Animals, PPAR alpha, Cyclic AMP Response Element-Binding Protein, Mice, Knockout, Depressive Disorder, In vivo microdialysi, Dose-Response Relationship, Drug, Histaminergic, Histidine decarboxylase, Antidepressive Agents, Tail suspension test, 030104 developmental biology, chemistry, 030217 neurology & neurosurgery, Histamine, Endocannabinoids

Abstract

It has been suggested that the bioactive lipid mediator oleoylethanolamide (OEA), a potent agonist of the peroxisome proliferator-activated receptor-alpha (PPAR-α) possesses anti-depressant-like effects in several preclinical models. We recently demonstrated that several of OEA's behavioural actions require the integrity of the brain histaminergic system, and that an intact histaminergic neurotransmission is specifically required for selective serotonin re-uptake inhibitors to exert their anti-depressant-like effect. The purpose of our study was to test if OEA requires the integrity of the histaminergic neurotransmission to exert its antidepressant-like effects. Immobility time in the tail suspension test was measured to assess OEA's potential (10 mg/kg i.p.) as an antidepressant drug in histidine decarboxylase null (HDC−/-) mice and HDC+/+ littermates, as well as in PPAR-α+/+ and PPAR-α−/− mice. CREB phosphorylation was evaluated using Western blot analysis in hippocampal and cortical homogenates, as pCREB is considered partially responsible for the efficacy of antidepressants. Serotonin release from ventral hippocampi of HDC+/+ and HDC−/- mice was measured with in-vivo microdialysis, following OEA administration. OEA decreased immobility time and increased brain pCREB levels in HDC+/+ mice, whereas it was ineffective in HDC−/- mice. Comparable results were obtained in PPAR-α+/+ and PPAR-α−/− mice. Microdialysis revealed a dysregulation of serotonin release induced by OEA in HDC−/- mice. Our observations corroborate our hypothesis that brain histamine and signals transmitted by OEA interact to elaborate appropriate behaviours and may be the basis for the efficacy of OEA as an antidepressant-like compound.

Published

2018

39. Antinociceptive effect of two novel transient receptor potential melastatin 8 antagonists in acute and chronic pain models in rat

Author

Laura Brandolini, Antonio Calignano, Carmen Avagliano, Marcello Allegretti, Roberto Russo, Andrea Aramini, Claudia Cristiano, Carmen De Caro, and Gianluca Bianchini

Subjects

0301 basic medicine, Pharmacology, Orofacial pain, business.industry, Chronic pain, medicine.disease, 03 medical and health sciences, Transient receptor potential channel, 030104 developmental biology, 0302 clinical medicine, Nociception, Neuropathic pain, Knockout mouse, TRPM8, Medicine, Animal studies, medicine.symptom, business, 030217 neurology & neurosurgery

Abstract

Background and purpose Transient receptor potential (TRP) channels are a superfamily of non-selective cation permeable channels involved in peripheral sensory signalling. Animal studies have shown that several TRPs are important players in pain modulation. Among them, the TRP melastatin 8 (TRPM8) has elicited more interest for its controversial role in nociception. This channel, expressed by a subpopulation of sensory neurons in dorsal root ganglia (DRG) and trigeminal ganglia (TG), is activated by cold temperatures and cooling agents. In experimental neuropathic pain models, an up-regulation of this receptor in DRG and TG has been observed, suggesting a key role for TRPM8 in the development and maintenance of pain. Consistent with this hypothesis, TRPM8 knockout mice are less responsive to pain stimuli. Experimental approach In this study, the therapeutic potential and efficacy of two novel TRPM8 antagonists, DFL23693 and DFL23448, were tested. Key results Two potent and selective TRPM8 antagonists with distinct pharmacokinetic profiles, DFL23693 and DFL23448, have been fully characterized in vitro. In vivo studies in well-established models, namely, the wet-dog shaking test and changes in body temperature, confirmed their ability to block the TRPM8 channel. Finally, TRPM8 blockage resulted in a significant antinociceptive effect in formalin-induced orofacial pain and in chronic constriction injury-induced neuropathic pain, confirming an important role for this channel in pain perception. Conclusion and implications Our findings, in agreement with previous literature, encourage further studies for a better comprehension of the therapeutic potential of TRPM8 blockers as novel agents for pain management.

Published

2018

40. Down regulation of pro-inflammatory pathways by tanshinone IIA and cryptotanshinone in a non-genetic mouse model of Alzheimer’s disease

Author

Antonio Calignano, Rita Santamaria, Vincenzo De Feo, Maria Giovanna Chini, Claudia Cristiano, Simona De Vita, Pellegrino Lippiello, Maria Concetta Miniaci, Carlo Irace, Francesco Maione, Marialuisa Piccolo, Carmen De Caro, Giuseppe Bifulco, Nicola Mascolo, Maione, Francesco, Piccolo, Marialuisa, De Vita, Simona, Chini, MARIA GIOVANNA, Cristiano, Claudia, De Caro, Carmen, Lippiello, Pellegrino, Miniaci, Maria Concetta, Santamaria, Rita, Irace, Carlo, De Feo, Vincenzo, Calignano, Antonio, Mascolo, Nicola, and Bifulco, Giuseppe

Subjects

Male, 0301 basic medicine, mouse model, In silico, Anti-Inflammatory Agents, Aβ(1–42) (PubChem CID: 57339251), Inflammation, Pharmacology, Hippocampal formation, Mouse models, Neuroprotection, Mice, 03 medical and health sciences, 0302 clinical medicine, Downregulation and upregulation, Western blot, Alzheimer Disease, Memory, medicine, Animals, Dementia, chemistry.chemical_classification, Aβ1-42peptide, Amyloid beta-Peptides, medicine.diagnostic_test, business.industry, Alzheimer's disease, Molecular docking, Neuro-inflammation, Tanshinone, Tanshinone IIA (PubChem CID: 164676), Phenanthrenes, Aβ(1–42) peptide, medicine.disease, Peptide Fragments, Disease Models, Animal, Neuroprotective Agents, 030104 developmental biology, Enzyme, chemistry, Abietanes, Cryptotanshinone (PubChem CID: 160254), medicine.symptom, business, Alzheimer’s disease, 030217 neurology & neurosurgery

Abstract

Alzheimer's disease (AD) is a common form of dementia mainly characterized by the deposition of neurofibrillary tangles and β-amyloid (Aβ) peptides in the brain. Additionally, increasing evidence demonstrates that a neuro-inflammatory state plays a key role in the development of this disease. Beside synthetic drugs, the use of natural compounds represents an alternative for the development of new potential drugs for the treatment of AD. Among these, the root of Salvia miltiorhiza Bunge (also known as Danshen) used for the treatment of cardiovascular, cerebrovascular disease and CNS functional decline in Chinese traditional medicine is one of the most representative examples. We therefore evaluated the effects of tanshinone IIA (TIIA) and cryptotanshinone (CRY) (the two major lipophilic compounds of Danshen) in a non-genetic mouse model of β-amyloid (Aβ)-induced AD, which is mainly characterized by reactive gliosis and neuro-inflammation in the brain. To this aim, mice were injected intracerebroventricularly (i.c.v.) with Aβ1-42 peptide (3μg/3μl) and after with TIIA and CRY (1, 3, or 10mg/kg) intraperitoneally (i.p.) 3 times weekly for 21days following the induction of experimental AD. Spatial working memory was assessed as a measure of short-term memory in mice, whereas the level of GFAP, S100β, COX-2, iNOS and NF-kBp65 monitored by western blot and ELISA assay, were selected as markers of reactive gliosis and neuro-inflammation. Finally, by docking studies, the modulation of key pro-inflammatory enzymes and pathways involved in the AD-related neuro-inflammation were also investigated. Results indicate that TIIA and CRY alleviate memory decline in Aβ1-42-injected mice, in a dose dependent manner. Moreover, the analysis of gliosis-related and neuro-inflammatory markers in the hippocampal tissues reveal a remarkable reduction in the expression of GFAP, S100β, COX-2, iNOS and NF-kBp65 after CRY (10mg/kg) treatment. These effects were less evident, but still significant, after TIIA (10mg/kg). Finally, in silico analysis also revealed that both compounds were able to interact with the binding sites of NF-kBp65 endorsing the data from biochemical analysis. We conclude that TIIA and CRY display anti-inflammatory and neuroprotective effect in a non- genetic mouse model of AD, thus playing a role in slowing down the course and onset of AD.

Published

2018

41. Characterization of New TRPM8 Modulators in Pain Perception

Author

Giovanna La Rana, Claudia Cristiano, Carmine Ostacolo, Oreste Gualillo, Alessia Bertamino, Pietro Campiglia, Antonio Calignano, Carmen Avagliano, Carmen De Caro, Roberto Russo, Isabel Gomez-Monterrey, De Caro, C., Cristiano, C., Avagliano, C., Bertamino, A., Ostacolo, C., Campiglia, P., Gomez-Monterrey, I., La Rana, G., Gualillo, O., Calignano, A., and Russo, R.

Subjects

Agonist, Male, TRPM8, Orofacial pain, medicine.drug_class, Pain, TRPM Cation Channels, Pharmacology, Catalysis, Article, Inorganic Chemistry, lcsh:Chemistry, Rats, Sprague-Dawley, Transient receptor potential channel, Mice, Desensitization (telecommunications), medicine, Animals, Physical and Theoretical Chemistry, Molecular Biology, lcsh:QH301-705.5, Spectroscopy, neuropathic pain, Analgesics, business.industry, Organic Chemistry, Chronic pain, Antagonist, orofacial pain, Pain Perception, local application, General Medicine, medicine.disease, Computer Science Applications, Rats, Disease Models, Animal, systemic administration, lcsh:Biology (General), lcsh:QD1-999, Neuropathic pain, medicine.symptom, business

Abstract

Background: Transient Receptor Potential Melastatin-8 (TRPM8) is a non-selective cation channel activated by cold temperature and by cooling agents. Several studies have proved that this channel is involved in pain perception. Although some studies indicate that TRPM8 inhibition is necessary to reduce acute and chronic pain, it is also reported that TRPM8 activation produces analgesia. These conflicting results could be explained by extracellular Ca2+-dependent desensitization that is induced by an excessive activation. Likely, this effect is due to phosphatidylinositol 4,5-bisphosphate (PIP2) depletion that leads to modification of TRPM8 channel activity, shifting voltage dependence towards more positive potentials. This phenomenon needs further evaluation and confirmation that would allow us to understand better the role of this channel and to develop new therapeutic strategies for controlling pain. Experimental approach: To understand the role of TRPM8 in pain perception, we tested two specific TRPM8-modulating compounds, an antagonist (IGM-18) and an agonist (IGM-5), in either acute or chronic animal pain models using male Sprague-Dawley rats or CD1 mice, after systemic or topical routes of administration. Results: IGM-18 and IGM-5 were fully characterized in vivo. The wet-dog shake test and the body temperature measurements highlighted the antagonist activity of IGM-18 on TRPM8 channels. Moreover, IGM-18 exerted an analgesic effect on formalin-induced orofacial pain and chronic constriction injury-induced neuropathic pain, demonstrating the involvement of TRPM8 channels in these two pain models. Finally, the results were consistent with TRPM8 downregulation by agonist IGM-5, due to its excessive activation. Conclusions: TRPM8 channels are strongly involved in pain modulation, and their selective antagonist is able to reduce both acute and chronic pain.

Published

2019

42. Neutralization of IL-17 rescues amyloid-beta-induced neuroinflammation and memory impairment

Author

Maria Concetta Miniaci, Asif J. Iqbal, Carla Perrone Capano, Benedetta Buono, Floriana Volpicelli, Federica Raucci, Pellegrino Lippiello, Antonio Calignano, Francesco Maione, Carlo Irace, Claudia Cristiano, Marialuisa Piccolo, and Nicola Mascolo

Subjects

Male, 0301 basic medicine, medicine.medical_treatment, Anti-Inflammatory Agents, Pharmacology, Proinflammatory cytokine, Pathogenesis, Mice, 03 medical and health sciences, 0302 clinical medicine, medicine, Neutralization of IL-17 rescues, Animals, Dementia, Memory impairment, Maze Learning, Neuroinflammation, Memory Disorders, Amyloid beta-Peptides, Themed Section: Research Paper, Behavior, Animal, business.industry, Interleukin-17, Neurodegeneration, Brain, Neurodegenerative Diseases, medicine.disease, Antibodies, Neutralizing, Peptide Fragments, Neuroprotective Agents, 030104 developmental biology, Cytokine, Nasal administration, business, 030217 neurology & neurosurgery

Abstract

BACKGROUND AND PURPOSE: Alzheimer's disease (AD) is a common neurodegenerative disease characterized by a neuroinflammatory state, and to date, there is no cure and its treatment represents a large unmet clinical need. The involvement of Th17 cells in the pathogenesis of AD‐related neuroinflammation has been reported in several studies. However, the role of the cytokine, IL‐17 has not been well addressed. Herein, we investigate the effects of IL‐17 neutralizing antibody (IL‐17Ab) injected by i.c.v. or intranasal (IN) routes on amyloid‐β (Aβ)‐induced neuroinflammation and memory impairment in mice. EXPERIMENTAL APPROACH: Aβ(1–42) was injected into cerebral ventricles of adult CD1 mice. These mice received IL‐17Ab via i.c.v. either at 1 h prior to Aβ(1–42) injection or IN 5 and 12 days after Aβ(1–42) injection. After 7 and 14 days of Aβ(1–42) administration, we evaluated olfactory, spatial and working memory and performed biochemical analyses on whole brain and specific brain areas. KEY RESULTS: Pretreatment with IL‐17Ab, given, i.c.v., markedly reduced Aβ(1–42)‐induced neurodegeneration, improved memory function, and prevented the increase of pro‐inflammatory mediators in a dose‐dependent manner at 7 and 14 days. Similarly, the double IN administration of IL‐17Ab after Aβ(1–42) injection reduced neurodegeneration, memory decline, and the levels of proinflammatory mediators and cytokines. CONCLUSION AND IMPLICATIONS: These findings suggest that the IL‐17Ab reduced neuroinflammation and behavioural symptoms induced by Aβ. The efficacy of IL‐17Ab IN administration in reducing Aβ(1–42) neurodegeneration points to a possible future therapeutic approach in patients with AD. LINKED ARTICLES: This article is part of a themed section on Therapeutics for Dementia and Alzheimer's Disease: New Directions for Precision Medicine. To view the other articles in this section visit http://onlinelibrary.wiley.com/doi/10.1111/bph.v176.18/issuetoc

Published

2019

43. Role of N-Acylethanolamines in the Neuroinflammation: Ultramicronized Palmitoylethanolamide in the Relief of Chronic Pain and Neurodegenerative DiseasesRole of N-Acylethanolamines in the Neuroinflammation: Ultramicronized Palmitoylethanolamide in the Relief of Chronic Pain and Neurodegenerative Diseases

Author

Ida Marabese, Claudia Cristiano, Enza Palazzo, Livio Luongo, Vito de Novellis, Francesca Guida, Serena Boccella, and Sabatino Maione

Subjects

Palmitoylethanolamide, Cannabinoid receptor, business.industry, Analgesic, Chronic pain, Lipid signaling, Pharmacology, medicine.disease, Neuroprotection, Endocannabinoid system, Psychiatry and Mental health, chemistry.chemical_compound, chemistry, Medicine, Neurology (clinical), business, Neuroinflammation

Abstract

Pain and neuroinflammation are protective responses aimed at preventing and removing injurious stimuli. However, when prolonged, they can override the bounds of physiological control and become destructive. Chronic pain and neuroinflammation are critical components in the pathophysiology of neurodegenerative diseases, stroke, spinal cord injury, diabetes, and neuropsychiatric disorders. Natural mechanisms, including the production of lipid mediators, represent an endogenous protective process and a program of resolution stimulated and triggered by tissue injury or inflammation. Lipid mediators include N-acylethanolamines (NAEs) such as palmitoylethanolamide (PEA), an endocannabinoid anandamide congener which has shown to be endowed of neuroprotective and antinflammatory properties activated under several pathological states. PEA does not bind the classical cannabinoid receptors but indirectly stimulates the effects of cannabinoids. Its antinflammatory, analgesic and neuroprotective actions have been however associated with peroxisome proliferator-activated receptor-α (PPAR-α) activation. The administration of exogenous PEA requires parenteral routes owing to its lipid structure. The micronized and ultramicronized (m- and um-) formulation permits oral administration increasing the versatility, easiness and compliance of administrations in clinical studies. This review is intended to deal with the effects of m- and um-PEA on chronic pain and neuroinflammation in several animal models of chronic pain and neudegenerative disorders and in clinical studies.

Published

2019

44. N-(1-carbamoyl-2-phenylethyl) butyramide reduces antibioticinduced intestinal injury, innate immune activation and modulates microbiota composition

Author

Rosaria Meli, Lorenzo Chiariotti, Adriano Lama, Claudio Pirozzi, Francesca Guida, Allegra Nitrato Izzo, Lorena Coretti, Francesca Lembo, Claudia Cristiano, Maria Pina Mollica, Chiara Annunziata, Giuseppina Mattace Raso, Alessandra Pelagalli, Lama, A., Annunziata, Chiara, Coretti, L., Pirozzi, C., Di Guida, F., Nitrato, Izzo, Cristiano, A., Mollica, C., Chiariotti, M. P., Pelagalli, L., Lembo, A., Meli, F., and Mattace Raso, G.

Subjects

0301 basic medicine, Male, Monocarboxylic Acid Transporters, medicine.drug_class, Colon, Antibiotics, lcsh:Medicine, Butyrate, Pharmacology, Gut flora, Article, Receptors, G-Protein-Coupled, Histones, 03 medical and health sciences, Mice, 0302 clinical medicine, Immunity, medicine, Animals, Humans, Lactic Acid, Intestinal Mucosa, lcsh:Science, Receptor, Multidisciplinary, Innate immune system, biology, Symporters, Chemistry, lcsh:R, Ceftriaxone, intestine, microbiota, Acetylation, medicine.disease, biology.organism_classification, Colitis, Immunity, Innate, Anti-Bacterial Agents, Gastrointestinal Microbiome, Butyrates, Disease Models, Animal, 030104 developmental biology, Monocarboxylate transporter 1, Bacterial Translocation, biology.protein, Dysbiosis, lcsh:Q, 030217 neurology & neurosurgery

Abstract

The use/misuse of antibiotics leads to pathological features referring to antibiotic-induced intestinal injury (AIJ), a clinical issue that plays a prominent role in the development of severe digestive disturbances. AIJ is characterized by loss of intestinal architecture and function, dysbiosis and bacterial translocation into the liver, triggering hepatic inflammation. This study aimed at determining the beneficial effect of N-(1-carbamoyl-2-phenylethyl) butyramide (FBA), a butyrate releasing compound, in ceftriaxone-induced intestinal injury. To this purpose, mice receiving ceftriaxone (8 g∙kg−1/die, per os) for five days, were treated with FBA (212,5 mg∙kg−1/die, per os) for five or fifteen days. FBA modulated key players of innate immunity in antibiotic-injured gut tissues, reducing inflammatory process and improving the anti-inflammatory and resolving pattern. FBA also improved colonic architecture and intestinal integrity. Interestingly, we also observed a remodeling of gut microbiota composition related to an increase of metabolic pathways related to lactate and butyrate production. At mechanistic level, FBA induced histone acetylation and increased the expression of GPR43 and monocarboxylate transporter 1 in colon. Our data clearly demonstrated that FBA has multiple converging mechanisms in limiting intestinal and hepatic alterations to counteract AIJ.

Published

2019

45. Sodium butyrate and its synthetic amide derivative modulate nociceptive behaviors in mice

Author

Giuseppina Mattace Raso, Giovanna La Rana, Antonio Calignano, Carmen Avagliano, Claudia Cristiano, Roberto Berni Canani, Rosaria Meli, Carmen De Caro, Roberto Russo, Russo, Roberto, DE CARO, Carmen, Avagliano, Carmen, Cristiano, Claudia, LA RANA, Giovanna, MATTACE RASO, Giuseppina, BERNI CANANI, Roberto, Meli, Rosaria, and Calignano, Antonio

Subjects

Nociception, Male, 0301 basic medicine, Hot Temperature, Analgesic, Chronic constriction injury (CCI), Pain, Butyrate, Pharmacology, Magnesium Sulfate, Mice, 03 medical and health sciences, chemistry.chemical_compound, Formaldehyde, Physical Stimulation, Peroxisome proliferator-activated receptora, medicine, Animals, Anilides, PPAR alpha, Kaolin, Acetic Acid, Inflammation, Mice, Knockout, Analgesics, ATP-dependent K+ channel, Chronic pain, Antagonist, Sodium butyrate, Visceral pain, Formalin test, medicine.disease, Amides, Sciatic Nerve, PPAR gamma, 030104 developmental biology, Spinal Cord, Biochemistry, chemistry, Hyperalgesia, Butyric Acid, medicine.symptom

Abstract

In the present study we investigated the role of sodium butyrate (butyrate), and its more palatable derivative, the N-(1-carbamoyl-2-phenyl-ethyl) butyramide (FBA), in animal models of acute and chronic pain. We found that oral administrations of butyrate (10-200mg/Kg) or equimolecular FBA (21.2-424mg/Kg) reduced visceral pain in a dose- and time-dependent manner. Both drugs were also effective in the formalin test, showing an antinociceptive effect. This analgesic effect was blocked by glibenclamide, suggesting the involvement of ATP-dependent K(+) channels. Moreover, following repeated administration butyrate (100-200mg/Kg) and FBA (212-424mg/Kg) retained their analgesic properties in a model of neuropathic pain, reducing mechanical and thermal hyperalgesia in the chronic constriction injury (CCI) model. The involvement of peroxisome proliferator-activated receptor (PPAR) -α and -γ for the analgesic effect of butyrate was also investigated by using PPAR-α null mice or the PPAR-γ antagonist GW9662. Western blot analysis, confirmed the role of peroxisome receptors in butyrate effects, evidencing the increase of PPAR-α and -γ expression, associated to the reduction of inflammatory markers (COX-2, iNOS, TNF-α and cFOS). In conclusion, we describe the role of butyrate-based drugs in pain, identifying different and converging non-genomic and genomic mechanisms of action, which cooperate in nociception maintenance.

Published

2016

46. Aceclofenac-Galactose Conjugate: Design, Synthesis, Characterization, and Pharmacological and Toxicological Evaluations

Author

Lucia Burrai, Gianpiero Boatto, Loretta Lazzarato, Maria Grazia Rimoli, Salvatore Magliocca, Domenica Marabello, Konstantin Chegaev, Elisabetta Marini, Roberto Russo, Chiara Riganti, Barbara Rolando, Carmen De Caro, Maria Nieddu, Claudia Cristiano, Elena Gazzano, Federica Sodano, Magliocca, Salvatore, De Caro, Carmen, Lazzarato, Loretta, Russo, Roberto, Rolando, Barbara, Chegaev, Konstantin, Marini, Elisabetta, Nieddu, Maria, Burrai, Lucia, Boatto, Gianpiero, Cristiano, Claudia, Marabello, Domenica, Gazzano, Elena, Riganti, Chiara, Sodano, Federica, and Rimoli, Maria Grazia

Subjects

0301 basic medicine, Male, Platelet Aggregation, Thiobarbituric acid, Pharmaceutical Science, Administration, Oral, Pharmacology, Carrageenan, chemistry.chemical_compound, Mice, 0302 clinical medicine, antiplatelet activity, Drug Discovery, Edema, pain, Prodrugs, Intestinal Mucosa, non steroidal anti-inflammatory drug, ulcerogenicity, Drug Carriers, Chemistry, Hydrolysis, Anti-Inflammatory Agents, Non-Steroidal, Caco-2 cell apparent permeability coefficient, Acute Pain, 030220 oncology & carcinogenesis, X-ray powder diffraction, oxidative stress parameter, Molecular Medicine, pro-drug approach, medicine.drug, toxicology, Diclofenac, Aceclofenac, pharmacology, Drug Compounding, Analgesic, Biological Availability, Permeability, 03 medical and health sciences, In vivo, aceclofenac, medicine, TBARS, Animals, Humans, Antipyretic, Stomach Ulcer, Drug Discovery3003 Pharmaceutical Science, Galactose, Glutathione, Bioavailability, Disease Models, Animal, 030104 developmental biology, Solubility, inflammation, Gastric Mucosa, Caco-2 Cells

Abstract

Aceclofenac is a popular analgesic, antipyretic, and nonsteroidal anti-inflammatory drug (NSAID) used for prolonged treatment (at least three months) in musculoskeletal disorders. It is characterized by several limitations such as poor water solubility and low oral bioavailability. The main side-effect of aceclofenac, as well as all NSAIDs, is the gastrotoxicity; among other adverse effects, there is the risk of bleeding since aceclofenac reversibly inhibits platelet aggregation. With the aim to reduce these drawbacks, we have designed, synthesized, and characterized, both in vitro and in vivo, an orally administrable pro-drug of aceclofenac (ACEgal). ACEgal was obtained by conjugating carboxyl group with the 6-OH group of d-galactose; its structure was confirmed by X-ray powder diffractometry. The pro-drug was shown to be stable at 37 °C in simulated gastric fluid (SGF-without pepsin, pH = 1.2) and moderately stable in phosphate buffered saline (PBS, pH = 7.4). However, it hydrolyzed in human serum with a half-life ( t1/2) of 36 min, producing aceclofenac. Furthermore, if compared to its parent drug, ACEgal was four-times more soluble in SGF. To predict human intestinal absorption, cell permeability in a Caco-2 model of aceclofenac and ACEgal was determined. Anti-inflammatory, analgesic, and ulcerogenic activities have been investigated in vivo. In addition, oxidative stress parameters (thiobarbituric acid reactive substances, TBARS, and glutathione, GSH) and platelet antiaggregatory activity both of parent drug and pro-drug were evaluated. Results clearly showed that the conjugation of aceclofenac to a galactose molecule improves physicochemical, toxicological (at gastric and blood level), and pharmacological profile of aceclofenac itself without changing intestinal permeability and antiplatelet activity (in spite the new sugar moiety).

Published

2018

47. Interplay Between Peripheral and Central Inflammation in Autism Spectrum Disorders: Possible Nutritional and Therapeutic Strategies

Author

Giuseppina Mattace Raso, Antonio Calignano, Francesca Lembo, Claudia Cristiano, Adriano Lama, Maria Pina Mollica, Cristiano, Claudia, Lama, Adriano, Lembo, Francesca, Mollica, Maria P., Calignano, Antonio, and Mattace Raso, Giuseppina

Subjects

obesity, Physiology, Offspring, medicine.medical_treatment, Gut–brain axis, Inflammation, Review, Gut flora, Bioinformatics, lcsh:Physiology, ASDs, inflammation, obesity, gut-brain axis, therapeutics, 03 medical and health sciences, 0302 clinical medicine, Immune system, 030225 pediatrics, Physiology (medical), therapeutics, medicine, ASDs, lcsh:QP1-981, biology, gut-brain axis, business.industry, Leptin, Insulin, medicine.disease, biology.organism_classification, inflammation, Autism, medicine.symptom, business, 030217 neurology & neurosurgery

Abstract

Pre- and post-natal factors can affect brain development and function, impacting health outcomes with particular relevance to neurodevelopmental diseases, such as autism spectrum disorders (ASDs). Maternal obesity and its associated complications have been related to the increased risk of ASDs in offspring. Indeed, animals exposed to maternal obesity or high fat diets are prone to social communication impairment and repetitive behavior, the hallmarks of autism. During development, fatty acids and sugars, as well as satiety hormones, like insulin and leptin, and inflammatory factors related to obesity-induced low grade inflammation, could play a role in the impairment of neuroendocrine system and brain neuronal circuits regulating behavior in offspring. On the other side, post-natal factors, such as mode of delivery, stress, diet, or antibiotic treatment are associated to a modification of gut microbiota composition, perturbing microbiota-gut-brain axis. Indeed, the interplay between the gastrointestinal tract and the central nervous system not only occurs through neural, hormonal, and immune pathways, but also through microbe-derived metabolic products. The modification of unhealthy perinatal and postnatal environment, manipulation of gut microbiota, nutritional, and dietary interventions could represent possible strategies in preventing or limiting ASDs, through targeting inflammatory process and gut microbiota.

Published

2018

48. Palmitoylethanolamide counteracts autistic-like behaviours in BTBR T+tf/J mice: Contribution of central and peripheral mechanisms

Author

Giuseppina Mattace Raso, Roberto Russo, Claudia Cristiano, Adriano Lama, Antonio Calignano, Gina Cavaliere, Maria Pina Mollica, Lorena Coretti, Claudio Pirozzi, Rosaria Meli, Francesca Lembo, Cristiano, Claudia, Pirozzi, Claudio, Coretti, Lorena, Cavaliere, Gina, Lama, Adriano, Russo, Roberto, Lembo, Francesca, Mollica, Maria Pina, Meli, Rosaria, Calignano, Antonio, and Mattace Raso, Giuseppina

Subjects

Male, 0301 basic medicine, Autism Spectrum Disorder, Autism spectrum disorder (ASD), BDNF signalling pathway, Behaviour, Cytokines, Microbiota-gut brain axis, Neuroinflammation, Peroxisome-proliferator activated receptor (PPAR)-α, Amides, Autism Spectrum Disorder, Brain-Derived Neurotrophic Factor, Cytokines, Ethanolamines, Gastrointestinal Microbiome, Hippocampus, Mitochondria, Gut flora, Hippocampal formation, Hippocampus, Mice, chemistry.chemical_compound, Behavioral Neuroscience, 0302 clinical medicine, Neuroinflammation, Receptor, Mice, Knockout, biology, Brain, food and beverages, Autism spectrum disorder (ASD), Mitochondria, Ethanolamines, Cytokines, medicine.symptom, Signal Transduction, Agonist, medicine.medical_specialty, Colon, medicine.drug_class, Immunology, Palmitic Acids, Neuroprotection, BDNF signalling pathway, Endocrine and Autonomic System, Peroxisome-proliferator activated receptor (PPAR)-α, 03 medical and health sciences, Internal medicine, medicine, Animals, PPAR alpha, Behaviour, Autistic Disorder, Cytokine, Palmitoylethanolamide, Microbiota-gut brain axi, Endocrine and Autonomic Systems, Brain-Derived Neurotrophic Factor, Microbiota-gut brain axis, biology.organism_classification, Amides, Gastrointestinal Microbiome, Mice, Inbred C57BL, Disease Models, Animal, 030104 developmental biology, Endocrinology, chemistry, Mechanism of action, 030217 neurology & neurosurgery

Abstract

Autism spectrum disorders (ASD) are a group of heterogeneous neurodevelopmental conditions characterized by impaired social interaction, and repetitive stereotyped behaviours. Interestingly, functional and inflammatory gastrointestinal diseases are often reported as a comorbidity in ASDs, indicating gut-brain axis as a novel emerging approach. Recently, a central role for peroxisome-proliferator activated receptor (PPAR)-α has been addressed in neurological functions, associated with the behaviour. Among endogenous lipids, palmitoylethanolamide (PEA), a PPAR-α agonist, has been extensively studied for its anti-inflammatory effects both at central and peripheral level. Based on this background, the aim of this study was to investigate the pharmacological effects of PEA on autistic-like behaviour of BTBR T+tf/J mice and to shed light on the contributing mechanisms. Our results showed that PEA reverted the altered behavioural phenotype of BTBR mice, and this effect was contingent to PPAR-α activation. Moreover, PEA was able to restore hippocampal BDNF signalling pathway, and improve mitochondrial dysfunction, both pathological aspects, known to be consistently associated with ASDs. Furthermore, PEA reduced the overall inflammatory state of BTBR mice, reducing the expression of pro-inflammatory cytokines at hippocampal, serum, and colonic level. The analysis of gut permeability and the expression of colonic tight junctions showed a reduction of leaky gut in PEA-treated BTBR mice. This finding together with PEA effect on gut microbiota composition suggests an involvement of microbiota-gut-brain axis. In conclusion, our results demonstrated a therapeutic potential of PEA in limiting ASD symptoms, through its pleiotropic mechanism of action, supporting neuroprotection, anti-inflammatory effects, and the modulation of gut-brain axis.

Published

2018

49. The safety assessment of herbals with a new and ethical approach

Author

Antonio Calignano, Claudia Cristiano, Eugenio Aiello, Roberto Russo, Aiello, Eugenio, Russo, Roberto, Cristiano, Claudia, and Calignano, Antonio

Subjects

NOAEL, regulatory toxicology, Computer science, Process (engineering), Viscum album, Decision tree, NOEL, safety assessment, Aesculus, Plant Science, 01 natural sciences, Biochemistry, Analytical Chemistry, 0404 agricultural biotechnology, Exposure level, Toxicity Tests, Animals, Humans, Accreditation, Plants, Medicinal, Plant Extracts, Organic Chemistry, toxicity, 04 agricultural and veterinary sciences, 040401 food science, 0104 chemical sciences, Europe, 010404 medicinal & biomolecular chemistry, Risk analysis (engineering), Regulatory toxicology, Herbal drug, Drug Evaluation

Abstract

The increasing use of plant medicines (herbals) in Europe needs a shared methodology to determine the toxicity and the daily exposure level to these drugs. For this reason, the European regulatory agencies have undertaken a study that could meet popular uses and toxicological research in different countries of the Union. Here we list some examples of the most used herbal drug classes and we propose a decision-making process based on their characteristics, their content in active principles and on the basis of the present scientific pharmacological and toxicological literature. The proposed decision tree actually makes easier for the assessor to quickly and accurately evaluate the accredited indexes for risk and toxicity assessment based on the preclinical literature data and using the correct classification that some of them may have because they are already present in medicinal products or used as food.

Published

2017

50. Antinociceptive effect of two novel transient receptor potential melastatin 8 antagonists in acute and chronic pain models in rat

Author

Carmen, De Caro, Roberto, Russo, Carmen, Avagliano, Claudia, Cristiano, Antonio, Calignano, Andrea, Aramini, Gianluca, Bianchini, Marcello, Allegretti, and Laura, Brandolini

Subjects

Male, Analgesics, TRPM Cation Channels, Tetrazoles, Acute Pain, Research Papers, Rats, Rats, Sprague-Dawley, Disease Models, Animal, Thiazoles, HEK293 Cells, Animals, Humans, Chronic Pain

Abstract

BACKGROUND AND PURPOSE: Transient receptor potential (TRP) channels are a superfamily of non‐selective cation permeable channels involved in peripheral sensory signalling. Animal studies have shown that several TRPs are important players in pain modulation. Among them, the TRP melastatin 8 (TRPM8) has elicited more interest for its controversial role in nociception. This channel, expressed by a subpopulation of sensory neurons in dorsal root ganglia (DRG) and trigeminal ganglia (TG), is activated by cold temperatures and cooling agents. In experimental neuropathic pain models, an up‐regulation of this receptor in DRG and TG has been observed, suggesting a key role for TRPM8 in the development and maintenance of pain. Consistent with this hypothesis, TRPM8 knockout mice are less responsive to pain stimuli. EXPERIMENTAL APPROACH: In this study, the therapeutic potential and efficacy of two novel TRPM8 antagonists, DFL23693 and DFL23448, were tested. KEY RESULTS: Two potent and selective TRPM8 antagonists with distinct pharmacokinetic profiles, DFL23693 and DFL23448, have been fully characterized in vitro. In vivo studies in well‐established models, namely, the wet‐dog shaking test and changes in body temperature, confirmed their ability to block the TRPM8 channel. Finally, TRPM8 blockage resulted in a significant antinociceptive effect in formalin‐induced orofacial pain and in chronic constriction injury‐induced neuropathic pain, confirming an important role for this channel in pain perception. CONCLUSION AND IMPLICATIONS: Our findings, in agreement with previous literature, encourage further studies for a better comprehension of the therapeutic potential of TRPM8 blockers as novel agents for pain management.

Published

2017