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5. The novel H2S-donor $-carboxyphenylisothiocyanate promotes cardioprotective effects against ischemia/reperfusion injury through activation of mitoKATP channels and reduction of oxidative stress

Author

Testai L, Marino A, Piano I, Brancaleone V, Tomita K, Di cesare mannelli L, Martelli A, Citi V, Breschi MC, Levi R, Gargini C, Bucci M, Cirino G, Ghelardini C, Calderone V, Testai, L, Marino, A, Piano, I, Brancaleone, V, Tomita, K, Di cesare mannelli, L, Martelli, A, Citi, V, Breschi, Mc, Levi, R, Gargini, C, Bucci, M, Cirino, G, Ghelardini, C, and Calderone, V

Subjects
Isothiocyanate, Mitochondrial potassium channel, Hydrogen sulphide, H(2)S-donor, Cardioprotection, Myocardial ischemia/reperfusion, 4-hydroxyphenylisothiocyanate (PubChem CID: 121230993)
Abstract

The endogenous gasotransmitter hydrogen sulphide (H2S) is an important regulator of the cardiovascular system, particularly of myocardial function. Moreover, H2S exhibits cardioprotective activity against ischemia/reperfusion (I/R) or hypoxic injury, and is considered an important mediator of "ischemic preconditioning", through activation of mitochondrial potassium channels, reduction of oxidative stress, activation of the endogenous "anti-oxidant machinery" and limitation of inflammatory responses. Accordingly, H2S-donors, i.e. pro-drugs able to generate exogenous H2S, are viewed as promising therapeutic agents for a number of cardiovascular diseases. The novel H2S-donor 4-carboxy phenyl-isothiocyanate (4CPI), whose vasorelaxing effects were recently reported, was tested here in different experimental models of myocardial I/R. In Langendorff-perfused rat hearts subjected to I/R, 4CPI significantly improved the post-ischemic recovery of myocardial functional parameters and limited tissue injury. These effects were antagonized by 5-hydroxydecanoic acid (a blocker of mitoKATP channels). Moreover, 4CPI inhibited the formation of reactive oxygen species. We found the whole battery of H2S-producing enzymes to be present in myocardial tissue: cystathionine γ-lyase (CSE), cystathionine β-synthase (CBS) and 3-mercaptopyruvate sulfurtransferase (MPST). Notably, 4CPI down-regulated the post-ischemic expression of CSE. In Langendorff-perfused mouse hearts, 4CPI reduced the post-ischemic release of norepinephrine and the incidence of ventricular arrhythmias. In both rat and mouse hearts, 4CPI did not affect the degranulation of resident mast cells. In isolated rat cardiac mitochondria, 4CPI partially depolarized the mitochondrial membrane potential; this effect was antagonized by ATP (i.e., the physiological inhibitor of KATP channels). Moreover, 4CPI abrogated calcium uptake in the mitochondrial matrix. Finally, in an in vivo model of acute myocardial infarction in rats, 4CPI significantly decreased I/R-induced tissue injury. In conclusion, H2S-donors, and in particular isothiocyanate-based H2S-releasing drugs like 4CPI, can actually be considered a suitable pharmacological option in anti-ischemic therapy.

Published
2016

6. Recovery of the nasal field loss in esotropic cats after section of the optic chiasm

Author

Gargini C and Di Stefano M

Subjects
Retinal Ganglion Cells, medicine.medical_specialty, Eye Movements, genetic structures, Eye disease, Optic chiasm, Nose, chemistry.chemical_compound, Ophthalmology, Neural Pathways, medicine, Animals, CATS, Behavior, Animal, business.industry, General Neuroscience, Retinal, Anatomy, medicine.disease, eye diseases, Visual field, medicine.anatomical_structure, chemistry, Optic Chiasm, Cats, Optic chiasma, Champ visuel, Visual Fields, business, Esotropia
Abstract

It is assumed that in esotropic cats the behavioural suppression of the nasal field reflects inhibition of the input conveyed through the temporal retinal afferents of the strabismic eye. We hypothesized that inhibition underlying the field defect might be actively operated by interocular competitive mechanisms. If so, effectiveness of the strabismic eye input might be restored and loss of the corresponding visual field might be recovered by interrupting the direct interactions between the eyes with the section of the optic chiasm. Results obtained in eight esotropic split-chiasm cats confirm the hypothesis and suggest that suppressive mechanisms of binocular rivarly are involved in the behavioral loss of the esotropic nasal field.

Published
1995
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7. Prolonged illumination up-regulates arrestin and two guanylate cyclase activating proteins: a novel mechanism for light adaptation

Author

Codega, P, DELLA SANTINA, L, Gargini, C, Bedolla, D. E., Subkhankulova, T, Livesey, F. J., Cervetto, L, and Torre, Vincent

Subjects
Arrestin, Time Factors, genetic structures, Light, Adaptation, Ocular, Reverse Transcriptase Polymerase Chain Reaction, Gene Expression Profiling, Dark Adaptation, Immunohistochemistry, Guanylate Cyclase-Activating Proteins, Rats, Up-Regulation, Mice, Inbred C57BL, Mice, Electroretinography, Animals, Rats, Long-Evans, sense organs, RNA, Messenger, Cells, Cultured, Photic Stimulation, Vision, Ocular, Neuroscience, Oligonucleotide Array Sequence Analysis, Photoreceptor Cells, Vertebrate
Abstract

Light adaptation in vertebrate photoreceptors is mediated by multiple mechanisms, one of which could involve nuclear feedback and changes in gene expression. Therefore, we have investigated light adaptation-associated changes in gene expression using microarrays and real-time PCR in isolated photoreceptors, in cultured isolated retinas and in acutely isolated retinas. In all three preparations after 2 h of an exposure to a bright light, we observed an up-regulation of almost 100% of three genes, Sag, Guca1a and Guca1b, coding for proteins known to play a major role in phototransduction: arrestin, GCAP1 and GCAP2. No detectable up-regulation occurred for light exposures of less than 1 h. Functional in vivo electroretinographic tests show that a partial recovery of the dark current occurred 1-2 h after prolonged illumination with a steady light that initially caused a substantial suppression of the photoresponse. These observations demonstrate that prolonged illumination results in the up-regulation of genes coding for proteins involved in the phototransduction signalling cascade, possibly underlying a novel component of light adaptation occurring 1-2 h after the onset of a steady bright light.

Published
2009

11. The impact of Basic Fibroblast Growth Factor on Photoreceptor function and morphology

Author

Gargini C, Ms, Belfiore, Bisti S, Cervetto L, Krisztina Valter, and Stone J

Subjects
Rod Opsins, Synaptophysin, Dark Adaptation, Optic Nerve, Immunohistochemistry, Rats, Up-Regulation, Electron Transport Complex IV, Cats, Electroretinography, Animals, Fibroblast Growth Factor 2, RNA, Messenger, In Situ Hybridization, Photic Stimulation, Photoreceptor Cells, Vertebrate
Abstract

To assess the impact of basic fibroblast growth factor (bFGF) on photoreceptor function and morphology.Impact was assessed in two models. In one, the endogenous expression of bFGF in photoreceptors was raised by sectioning one optic nerve of rats 3 to 4 weeks before study. In the other, bFGF was injected into the vitreous chamber in rats and cats. Retinal function was assessed from the electroretinogram (ERG), and retinal morphology was studied using DNA dyes, immunolabeling, and in situ hybridization.In both models of bFGF upregulation, the ERG b-wave was suppressed over a wide stimulus range and in light- and dark-adapted conditions. The a-wave was not suppressed by either procedure and at the brightest intensities was enhanced by both procedures. In nerve-sectioned eyes, outer retina appeared normal histologically, but levels of bFGF protein in the inner and outer nuclear layers were raised, whereas bFGF mRNA levels remained unchanged. In both models, levels of synaptophysin in the outer plexiform layer and of cytochrome oxidase in inner segments were raised in association with increases in bFGF protein levels.bFGF increased the ability of photoreceptors to respond to light but attenuated the transmission of this response to inner retinal cells, presumably by blocking the photoreceptor-bipolar synapse. If the expression of bFGF protein is upregulated in human photoreceptor dystrophies, it may contribute a reversible component to the loss of vision. The relationship between these actions of bFGF and its ability to protect photoreceptors from stress remains to be established.

Published
1999

14. Long-Term Treatment of the Developing Retina with the Metabotropic Glutamate Agonist APB Induces Long-Term Changes in the Stratification of Retinal Ganglion Cell Dendrites

Author

Deplano, S., Gargini, C., Maccarone, R., Chalupa, L.M., and Bisti, S.

Abstract

AbstractThe gradual restriction of initially multistratified retinal ganglion cell (RGC) dendrites into ON and OFF sublaminae of the inner plexiform layer (IPL) can be effectively blocked by treating the developing retina with 2-amino-4-phosphonobutyrate (APB), the metabotropic glutamate agonist, or by light deprivation. Previous studies have focused on the short-term consequences of such manipulations, so the long-term effects of arresting dendritic stratification on the structural development of RGCs are as yet unknown. In the present study, we have addressed this issue by performing a morphological analysis of α RGCs labeled by retrograde transport of horseradish peroxidase injected into the dorsal lateral geniculate nucleus of adult cats that received monocular injections of APB from postnatal (P) day 2 until P30. A large proportion of the α cells in the APB-treated eye (44%) were found to have multistratified dendrites that terminated in both the ON and OFF sublaminae of the IPL. The dendritic arborization pattern in the sublaminae of the IPL of these cells was asymmetric, showing a variety of forms. Immunolabeling of retinal cross-sections showed that mGLUR6 receptors appeared normal in density and location, while qualitative observation suggested an increase in the axonal arborization of rod bipolar cells. These findings indicate that long-term treatment of the neonatal retina with APB induces a long- lasting structural reorganization in retinal circuitry that most likely accounts for some of the previously described changes in the functional properties of RGCs.Copyright © 2004 S. Karger AG, Basel

Published
2004

22. IRetinal Organization in the retinal degeneration 10 (rd10) Mutant Mouse: a Morphological and ERG Study

Author

Claudia Gargini, Francesca Mazzoni, Enrica Strettoi, Eva Terzibasi, Gargini, C, Terzibasi, Eva, Mazzoni, F, and Strettoi, E.

Subjects
Retinal degeneration, Retinal Bipolar Cells, genetic structures, Immunocytochemistry, Apoptosis, Cell Count, Nerve Tissue Proteins, Degeneration (medical), Biology, Retinal Horizontal Cells, Article, Retina, Membrane Potentials, chemistry.chemical_compound, Mice, PDE6B, Retinal Rod Photoreceptor Cells, Retinitis pigmentosa, medicine, Electroretinography, Animals, Microscopy, Confocal, General Neuroscience, Retinal, Dendrites, medicine.disease, Immunohistochemistry, eye diseases, Mice, Mutant Strains, Cell biology, Mice, Inbred C57BL, Disease Models, Animal, medicine.anatomical_structure, chemistry, Mutation, Nerve Degeneration, sense organs, Neuroscience, Erg, Biomarkers, Retinitis Pigmentosa
Abstract

Retinal degeneration 10 (rd10) mice are a model of autosomal recessive retinitis pigmentosa (RP), identified by Chang et al. in 2002 (Vision Res. 42:517-525). These mice carry a spontaneous mutation of the rod-phosphodiesterase (PDE) gene, leading to a rod degeneration that starts around P18. Later, cones are also lost. Because photoreceptor degeneration does not overlap with retinal development, and light responses can be recorded for about a month after birth, rd10 mice mimic typical human RP more closely than the well-known rd1 mutants. The aim of this study is to provide a comprehensive analysis of the morphology and function of the rd10 mouse retina during the period of maximum photoreceptor degeneration, thus contributing useful data for exploiting this novel model to study RP. We analyzed the morphology and survival of retinal cells in rd10 mice of various ages with quantitative immunocytochemistry and confocal microscopy; we also studied retinal function with the electroretinogram (ERG), recorded between P18 and P30. We found that photoreceptor death (peaking around P25) is accompanied and followed by dendritic retraction in bipolar and horizontal cells, which eventually undergo secondary degeneration. ERG reveals alterations in the physiology of the inner retina as early as P18 (before any obvious morphological change of inner neurons) and yet consistently with a reduced band amplification by bipolar cells. Thus, changes in the rd10 retina are very similar to what was previously found in rd1 mutants. However, an overall slower decay of retinal structure and function predicts that rd10 mice might become excellent models for rescue approaches.

Published
2007

23. A membrane-permeable peptide containing the last 21 residues of the G alpha(S) carboxyl terminus inhibits G(S)-coupled receptor signaling in intact cells: Correlations between peptide structure and biological activity

Author

Laura Giusti, Annamaria D'ursi, Antonio Lucacchini, Claudia Gargini, Francesca Porchia, Paolo Rovero, Cinzia Esposito, Stefania Albrizio, Maria Rosa Mazzoni, G. Caliendo, Ettore Novellino, D'Ursi, Am, Giusti, L, Albrizio, Stefania, Porchia, F, Esposito, C, Caliendo, G, Gargini, C, Novellino, Ettore, Lucacchini, A, Rovero, P, and Mazzoni, Mr

Subjects
Magnetic Resonance Spectroscopy, Protein Conformation, Peptide, Adenosine-5'-(N-ethylcarboxamide), Cell-Penetrating Peptides, PC12 Cells, Adenylyl cyclase, chemistry.chemical_compound, structural studies, MULTIPLE, Cyclic AMP, GTP-Binding Protein alpha Subunits, Gs, POSITION, Internalization, Receptor, Protein secondary structure, media_common, chemistry.chemical_classification, SECONDARY STRUCTURE, Chemistry, peptide, Biochemistry, NMR-SPECTROSCOPY, Molecular Medicine, A(2A) ADENOSINE RECEPTOR, Signal transduction, Signal Transduction, PROTEIN ALPHA-SUBUNITS, ENDOTHELIAL-CELLS, ADENYLYL-CYCLASE, MICELLES, DOMAINS, G-protein, media_common.quotation_subject, Recombinant Fusion Proteins, Endocytosis, Permeability, Structure-Activity Relationship, Animals, Humans, Pharmacology, Cell Membrane, Isoproterenol, Membrane Proteins, Proteins, NMR, Peptide Fragments, Rats, N-terminus, Endothelium, Vascular, Carrier Proteins, Peptides
Abstract

Cell-penetrating peptides are able to transport covalently attached cargoes such as peptide or polypeptide fragments of endogenous proteins across cell membranes. Taking advantage of the cell-penetrating properties of the 16-residue fragment penetratin, we synthesized a chimeric peptide that possesses an N-terminal sequence with membrane-penetrating activity and a C-terminal sequence corresponding to the last 21 residues of G alpha(s). This G alpha(s) peptide was an effective inhibitor of 5'-N-ethylcarboxamidoadenosine (NECA) and isoproterenol-stimulated production of cAMP in rat PC12 and human microvascular endothelial (HMEC-1) cells, whereas the carrier peptide had no effect. The maximal efficacy of NECA was substantially reduced when PC12 cells were treated with the chimeric peptide, suggesting that it competes with G alpha(s) for interaction with receptors. The peptide inhibited neither G(q)- nor G(i)-coupled receptor signaling. The use of a carboxy-fluorescein derivative of the peptide proved its ability to cross the plasma membrane of live cells. NMR analysis of the chimeric peptide structure in a membrane-mimicking environment showed that the G alpha(s) fragment assumed an amphipathic alpha-helical conformation tailored to make contact with key residues on the intracellular side of the receptor. The N-terminal penetratin portion of the molecule also showed an alpha-helical structure, but hydrophobic and hydrophilic residues formed clustered surfaces at the N terminus and center of the fragment, suggesting their involvement in the mechanism of penetratin internalization by endocytosis. Our biological data supported by NMR analysis indicate that the membrane-permeable G alpha(s) peptide is a valuable, nontoxic research tool to modulate G(s)-coupled receptor signal transduction in cell culture models.

Published
2006

25. Stretch-activated cation channels with large unitary conductance in leech central neurons

Author

Monica Pellegrini, A. Simoni, Mario Pellegrino, Claudia Gargini, Pellegrino, M, Pellegrini, Monica, Simoni, A, and Gargini, C.

Subjects
Leech, Ion Channels, Membrane Potentials, Leeches, Pressure, medicine, Animals, Molecular Biology, Neurons, Chemistry, General Neuroscience, Cell Membrane, Sodium, Pipette, Conductance, Anatomy, Calcium-activated potassium channel, medicine.anatomical_structure, Membrane, Hypotonic Solutions, Potassium, Osmoregulation, Biophysics, Soma, Neurology (clinical), Selectivity, Developmental Biology
Abstract

Stretch-activated cation channels were identified in the soma membrane of leech central neurons. These channels were almost silent under normal experimental conditions and were distinctly activated by application of negative pressure to the patch pipette. The channels exhibited a preferential selectivity for K+ and a slope conductance of about 200 pS, in symmetrical K+ solution. In cell-attached patches these cation channels were activated by cell swelling.

Published
1990

26. β-Cyclodextrin nanosponges for the ocular delivery of therapeutic Micro-RNA in a Mouse model of retinitis Pigmentosa: A proof of concept study.

Author

Piano I, Polini B, Corsi F, Carpi S, Petrarolo G, Quattrini L, D'Agostino I, Gamberini MC, Baraldi C, Chiellini G, Nieri P, Motta C, and Gargini C

Abstract

The exploitation of micro-RNA (miR) sequences as therapeutics has become highly attractive for the treatment of several diseases, including those still lacking effective cures such as retinitis pigmentosa (RP). Interestingly, miR-155-5p plays a role in photo-oxidative inflammation in wild-type mice and is up-regulated in rd10 mice showing peak rod degeneration, suggesting its inhibition by the corresponding anti-miR as a viable therapeutic strategy for RP. However, biomedical application of (anti-)miRs is limited by their oligonucleotide nature, suffering from low solubility and bioavailability along with a very low half-life in vivo due to enzymatic degradation. Thereby, the need for suitable delivery systems led to the development of various nanocarriers, including oligosaccharide-based polymers. In this context, we designed and prepared an innovative nanosponge (NS) with a β-cyclodextrin (β-CD) motif payload with a bridge-like molecule, the amphipathic adamantane derivative (ADM), able to establish strong interactions with both NS and the therapeutic miR, thereby delivering and eventually releasing it close to the active site. Through an in vivo study, we both validated the NS system as a useful tool for miR topical administration by eye drop formulation and the functional activity of anti-miR-155-5p in RP., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2025. Published by Elsevier B.V.)

Published
2025
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27. Targeting Relevant HDACs to Support the Survival of Cone Photoreceptors in Inherited Retinal Diseases: Identification of a Potent Pharmacological Tool with In Vitro and In Vivo Efficacy.

Author

Carullo G, Orsini N, Piano I, Pozzetti L, Papa A, Fontana A, Napoli D, Corsi F, Marco BD, Galante A, Marotta L, Panzeca G, O'Brien J, Sanchez AG, Doherty H, Mahon N, Clarke L, Contri C, Pasquini S, Gorelli B, Saponara S, Valoti M, Vincenzi F, Varani K, Ramunno A, Brogi S, Butini S, Gemma S, Kennedy BN, Gargini C, Strettoi E, and Campiani G

Subjects
Animals, Humans, Mice, Retinitis Pigmentosa metabolism, Retinitis Pigmentosa drug therapy, Retinitis Pigmentosa pathology, Histone Deacetylases metabolism, Histone Deacetylase 6 antagonists & inhibitors, Histone Deacetylase 6 metabolism, Cell Survival drug effects, Disease Models, Animal, Structure-Activity Relationship, Retinal Cone Photoreceptor Cells metabolism, Retinal Cone Photoreceptor Cells drug effects, Retinal Cone Photoreceptor Cells pathology, Zebrafish, Histone Deacetylase Inhibitors pharmacology, Histone Deacetylase Inhibitors chemistry, Histone Deacetylase Inhibitors therapeutic use
Abstract

Inherited retinal diseases, which include retinitis pigmentosa, are a family of genetic disorders characterized by gradual rod-cone degeneration and vision loss, without effective pharmacological treatments. Experimental approaches aim to delay disease progression, supporting cones' survival, crucial for human vision. Histone deacetylases (HDACs) mediate the activation of epigenetic and nonepigenetic pathways that modulate cone degeneration in RP mouse models. We developed new HDAC inhibitors ( 5a - p ), typified by a tetrahydro-γ-carboline scaffold, characterized by high HDAC6 inhibition potency with balanced physicochemical properties for in vivo studies. Compound 5d ( repistat , IC 50 HDAC6 = 6.32 nM) increased the levels of acetylated α-tubulin compared to histone H3 in ARPE-19 and 661W cells. 5d promoted vision rescue in the atp6v0e1 -/- zebrafish model of photoreceptor dysfunction. A single intravitreal injection of 5d in the rd10 mouse model of RP supported morphological and functional preservation of cone cells and maintenance of the retinal pigment epithelium array.

Published
2024
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28. H105A peptide eye drops promote photoreceptor survival in murine and human models of retinal degeneration.

Author

Bernardo-Colón A, Bighinati A, Parween S, Debnath S, Piano I, Adani E, Corsi F, Gargini C, Vergara N, Marigo V, and Becerra SP

Abstract

Photoreceptor death causes blinding inheritable retinal diseases, such as retinitis pigmentosa (RP). As disease progression often outpaces therapeutic advances, finding effective treatments is urgent. This study focuses on developing a targeted approach by evaluating the efficacy of small peptides derived from pigment epithelium-derived factor (PEDF), known to restrict common cell death pathways associated with retinal diseases. Peptides with affinity for the PEDF receptor, PEDF-R, (17-mer and H105A) delivered via eye drops reached the retina, efficiently promoted photoreceptor survival, and improved retinal function in RP mouse models based on both the rd10 mutation and the rhodopsin P23H mutation. Additionally, intravitreal delivery of AAV-H105A vectors delayed photoreceptor degeneration in the latter RP mouse model. Furthermore, peptide H105A specifically prevented photoreceptor death induced by oxidative stress, a contributing factor to RP progression, in human retinal organoids. This promising approach for peptide eye drop delivery holds significant potential as a therapeutic for preventing photoreceptor death in retinal disorders, offering a high safety profile, low invasiveness and multiple delivery options.

Published
2024
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29. A Window to the Brain: The Retina to Monitor the Progression and Efficacy of Saffron Repron ® Pre-Treatment in an LPS Model of Neuroinflammation and Memory Impairment.

Author

Di Paolo M, Corsi F, Cerri C, Bisti S, Piano I, and Gargini C

Abstract

A mechanism shared by most neurodegenerative diseases, like Alzheimer's disease (AD) and Parkinson's disease (PD), is neuroinflammation. It has been shown to have a link between cognitive impairment and retinal function under neuroinflammatory conditions, confirming the essential role of the retina as a window to the brain. Here, we characterize a mouse model of LPS-induced neuroinflammation describing the parallel deterioration of both memory and visual function. Then, we demonstrate, using the Novel Object Recognition test (NOR) and electroretinogram (ERG) recordings, that preventive, chronic treatment with saffron Repron ® is able to reduce the neuroinflammation process and prevent the impairment of both cognitive and visual function. The improvement in behavioral and visual function is confirmed by the pattern of expression of neuroinflammation-related genes and related proteins where pre-treatment with Repron ® saffron presents a positive modulation compared with that obtained in animals treated with LPS alone. These results hold for retinal tissue and partially in the brain, where it appears that the onset of damage was delayed. This trend underlines the critical role of the retina as a most sensitive portion of the central nervous system to LPS-induced damage and could be used as a "sensor" for the early detection of neurodegenerative diseases such as Alzheimer's.

Published
2023
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30. Efficacy of Hydroponically Cultivated Saffron in the Preservation of Retinal Pigment Epithelium.

Author

Di Paolo M, Corsi F, Maggi M, Nardi L, Bisti S, Piano I, and Gargini C

Subjects
Hydrogen Peroxide pharmacology, Retinal Pigment Epithelium metabolism, Cell Line, Oxidative Stress, Coloring Agents pharmacology, Reactive Oxygen Species metabolism, Crocus metabolism
Abstract

Saffron treatment is a broad-spectrum therapy used for several retinal diseases, and its effectiveness depends on a particular molecular composition (REPRON ® saffron). Its production requires specific crops and procedures that, together with low yields, make this spice expensive. To reduce costs, the use of hydroponic crops is gradually increasing. In this study, we tested the protective properties of a hydroponic saffron (sH) batch in models of retinal pigmented epithelium (RPE) degeneration. ARPE-19 cells were pretreated with 40 µg/mL saffron and exposed to different types of damage: excess light and retinol (LE + RET) or oxidative stress (H 2 O 2 ). After analyzing the composition of all saffron types with spectroscopy, we performed cell viability and immunofluorescence analysis for both protocols. We compared the sH results with those of a validated batch of saffron REPRON ® (sR) and those of a saffron non-REPRON ® (sNR) batch. sH and sR, which we found had the same chemical composition, were more effective than sNR in increasing cell survival and attenuating the morphological changes related to apoptosis. In conclusion, hydroponic culturing is a suitable strategy to produce high-quality saffron to reduce costs and increase the accessibility of this promising treatment for retinal degeneration.

Published
2023
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31. Targeting TSPO Reduces Inflammation and Apoptosis in an In Vitro Photoreceptor-Like Model of Retinal Degeneration.

Author

Corsi F, Baglini E, Barresi E, Salerno S, Cerri C, Martini C, Da Settimo Passetti F, Taliani S, Gargini C, and Piano I

Subjects
Humans, Lipopolysaccharides pharmacology, Receptors, GABA metabolism, Inflammation metabolism, Apoptosis, Carrier Proteins, Ligands, Retinal Degeneration drug therapy, Retinal Degeneration pathology, Neurodegenerative Diseases
Abstract

The 18 kDa translocator protein (TSPO) is predominantly located in the mitochondrial outer membrane, playing an important role in steroidogenesis, inflammation, survival, and cell proliferation. Its expression in the CNS, and mainly in glial cells, is upregulated in neuropathologies and brain injury. In this study, the potential of targeting TSPO for the therapeutic treatment of inflammatory-based retinal neurodegeneration was evaluated by means of an in vitro model of lipopolysaccharide (LPS)-induced degeneration in 661 W cells, a photoreceptor-like cell line. After the assessment of the expression of TSPO in 661W cells, which, to the best of our knowledge, was never investigated so far, the anti-inflammatory and cytoprotective effects of a number of known TSPO ligands, belonging to the class of N , N -dialkyl-2-arylindol-3-ylglyoxylamides (PIGAs), were evaluated, using the classic TSPO ligand PK11195 as the reference standard. All tested PIGAs showed the ability to modulate the inflammatory and apoptotic processes in 661 W photoreceptor-like cells and to reduce LPS-driven cellular cytotoxicity. The protective effect of PIGAs was, in all cases, reduced by cotreatment with the pregnenolone synthesis inhibitor SU-10603, suggesting the involvement of neurosteroids in the protective mechanism. As inflammatory processes play a crucial role in the retinal neurodegenerative disease progression toward photoreceptors' death and complete blindness, targeting TSPO might represent a successful strategy to slow down this degenerative process that may lead to the inexorable loss of vision.

Published
2022
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32. Design, Synthesis, and In Vitro Evaluation of Novel 8-Amino-Quinoline Combined with Natural Antioxidant Acids.

Author

Bacci A, Corsi F, Runfola M, Sestito S, Piano I, Manera C, Saccomanni G, Gargini C, and Rapposelli S

Abstract

Overproduction of reactive oxygen species (ROS) and alterations in metallostasis are common and related hallmarks in several neurodegenerative diseases (NDDs). Nature-based derivatives always represent an attractive tool in MTDL drug design, especially against ROS in NDDs. On this notion, we designed a new series of 8-quinoline-N-substituted derivatives with a natural antioxidant portion (i.e., lipoic, caffeic, and ferulic acids). These compounds were shown to chelate copper, a metal involved in ROS-induced degeneration, and scavenger oxygen radicals in DPPH assay. Then, selected compounds 4 and 5 were evaluated in an in vitro model of oxidative stress and shown to possess cytoprotective effects in 661W photoreceptor-like cells. The obtained results may represent a starting point for the application of the proposed class of compounds in retinal neurodegenerative diseases such as retinitis pigmentosa (RP), comprising a group of hereditary rod-cone dystrophies that represent a major cause of blindness in patients of working age, where the progression of the disease is a multifactorial event, with oxidative stress contributing predominantly.

Published
2022
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33. Nutraceutical Molecules Slow Down Retinal Degeneration, in Tvrm4 Mice a Model of Retinitis Pigmentosa, by Genetic Modulation of Anti-oxidant Pathway.

Author

Piano I, Corsi F, Polini B, and Gargini C

Abstract

Rhodopsin (RHO) mutations are responsible for 25-40% of the dominant cases of retinitis pigmentosa (RP) with different severity and progression rates. The Tvrm4 mice, heterozygous for an I307N dominant mutation of RHO, display a normal retinal phenotype when raised in ambient light conditions, but undergo photoreceptor degeneration when briefly exposed to strong white light. Here, The Tvrm4 mice is pre-treated with naringenin 100 mg/kg/die, quercetin 100 mg/kg/die, naringenin 50 + quercercetin 100 mg/kg/die or vehicle dimethyl sulfoxide (DMSO 0.025%) in the drinking water for 35 days. On the 30th day, retinal degeneration was induced by exposure for 1 min to the white light of 12,000 lux intensity, and the treatment was repeated for another 5 days. At the end of the protocol retinal functionality was tested by recording an electroretinogram (ERG). The retinal tissue was collected and was used for further analyses, including immunohistochemically, biochemical, and molecular biology assays. The data obtained show that treatment with nutraceutical molecules is effective in counteracting retinal degeneration by preserving the functionality of photoreceptors and increasing the antioxidant and anti-apoptotic pathways of retinal cells. The present data confirm that nutraceutical molecules are effective in slowing photoreceptor degeneration in a mutation-independent way by modulating the antioxidant response of the retina at the gene expression level., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Piano, Corsi, Polini and Gargini.)

Published
2022
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34. Retinal Neurodegeneration: Correlation between Nutraceutical Treatment and Animal Model.

Author

Piano I, Di Paolo M, Corsi F, Piragine E, Bisti S, Gargini C, and Di Marco S

Subjects
Aging, Animals, Dietary Supplements, Male, Mice, Mice, Inbred C57BL, Plant Extracts chemistry, Rats, Rats, Inbred F344, Retinal Diseases pathology, Retinal Neurons drug effects, Crocus, Flavanones therapeutic use, Neurodegenerative Diseases drug therapy, Plant Extracts therapeutic use, Retinal Diseases drug therapy, Retinal Neurons pathology
Abstract

Retinal diseases can be induced by a variety of factors, including gene mutations, environmental stresses and dysmetabolic processes. The result is a progressive deterioration of visual function, which sometimes leads to blindness. Many treatments are under investigation, though results are still mostly unsatisfactory and restricted to specific pathologies, particularly in the case of gene therapy. The majority of treatments have been tested in animal models, but very few have progressed to human clinical trials. A relevant approach is to study the relation between the type of treatments and the degenerative characteristics of the animal model to better understand the effectiveness of each therapy. Here we compare the results obtained from different animal models treated with natural compounds (saffron and naringenin) to anticipate the potentiality of a single treatment in different pathologies.

Published
2021
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35. Oxy-imino saccharidic derivatives as a new structural class of aldose reductase inhibitors endowed with anti-oxidant activity.

Author

D'Andrea F, Sartini S, Piano I, Franceschi M, Quattrini L, Guazzelli L, Ciccone L, Orlandini E, Gargini C, La Motta C, and Nencetti S

Subjects
Enzyme Inhibitors chemistry, Molecular Structure, Aldehyde Reductase antagonists & inhibitors, Antioxidants pharmacology, Enzyme Inhibitors pharmacology, Imines chemistry, Sugars chemistry
Abstract

Aldose reductase is a key enzyme in the development of long term diabetic complications and its inhibition represents a viable therapeutic solution for people affected by these pathologies. Therefore, the search for effective aldose reductase inhibitors is a timely and pressing challenge. Herein we describe the access to a novel class of oxyimino derivatives, obtained by reaction of a 1,5-dicarbonyl substrate with O -(arylmethyl)hydroxylamines. The synthesised compounds proved to be active against the target enzyme. The best performing inhibitor, compound ( Z )- 8, proved also to reduce both cell death and the apoptotic process when tested in an in vitro model of diabetic retinopathy made of photoreceptor-like 661w cell line exposed to high-glucose medium, counteracting oxidative stress triggered by hyperglycaemic conditions.

Published
2020
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36. Myriocin Effect on Tvrm4 Retina, an Autosomal Dominant Pattern of Retinitis Pigmentosa.

Author

Piano I, D'Antongiovanni V, Novelli E, Biagioni M, Dei Cas M, Paroni RC, Ghidoni R, Strettoi E, and Gargini C

Abstract

Tvrm4 mice, a model of autosomal dominant retinitis pigmentosa (RP), carry a mutation of Rhodopsin gene that can be activated by brief exposure to very intense light. Here, we test the possibility of an anatomical, metabolic, and functional recovery by delivering to degenerating Tvrm4 animals, Myriocin, an inhibitor of ceramide de novo synthesis previously shown to effectively slow down retinal degeneration in rd10 mutants (Strettoi et al., 2010; Piano et al., 2013). Different routes and durations of Myriocin administration were attempted by using either single intravitreal (i.v.) or long-term, repeated intraperitoneal (i.p.) injections. The retinal function of treated and control animals was tested by ERG recordings. Retinas from ERG-recorded animals were studied histologically to reveal the extent of photoreceptor death. A correlation was observed between Myriocin administration, lowering of retinal ceramides, and preservation of ERG responses in i.v. injected cases. Noticeably, the i.p. treatment with Myriocin decreased the extension of the retinal-degenerating area, preserved the ERG response, and correlated with decreased levels of biochemical indicators of retinal oxidative damage. The results obtained in this study confirm the efficacy of Myriocin in slowing down retinal degeneration in genetic models of RP independently of the underlying mutation responsible for the disease, likely targeting ceramide-dependent, downstream pathways. Alleviation of retinal oxidative stress upon Myriocin treatment suggests that this molecule, or yet unidentified metabolites, act on cellular detoxification systems supporting cell survival. Altogether, the pharmacological approach chosen here meets the necessary pre-requisites for translation into human therapy to slow down RP., (Copyright © 2020 Piano, D’Antongiovanni, Novelli, Biagioni, Dei Cas, Paroni, Ghidoni, Strettoi and Gargini.)

Published
2020
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37. The Citrus Flavonoid Naringenin Protects the Myocardium from Ageing-Dependent Dysfunction: Potential Role of SIRT1.

Author

Testai L, Piragine E, Piano I, Flori L, Da Pozzo E, Miragliotta V, Pirone A, Citi V, Di Cesare Mannelli L, Brogi S, Carpi S, Martelli A, Nieri P, Martini C, Ghelardini C, Gargini C, and Calderone V

Subjects
Animals, Cell Line, Cellular Senescence drug effects, Citrus, Cytoprotection, Disease Models, Animal, Humans, Interleukin-6 metabolism, Mice, Protein Binding, Rats, Reactive Oxygen Species metabolism, Sirtuin 1 genetics, Tumor Necrosis Factor-alpha metabolism, Aging physiology, Antioxidants therapeutic use, Flavanones therapeutic use, Myocardium pathology, Sirtuin 1 metabolism
Abstract

Sirtuin 1 (SIRT1) enzyme plays a pivotal role in the regulation of many physiological functions. In particular, it is implicated in ageing-related diseases, such as cardiac hypertrophy, myocardial infarct, and endothelial dysfunction; moreover, its expression decreases with age. Therefore, an effective strategy to extend the lifespan and improve cardiovascular function is the enhancement of the expression/activity of SIRT1 with exogenous agents. The Citrus flavonoid naringenin (NAR) presents structural similarity with the natural SIRT1 activator resveratrol. In this study, we demonstrate through in vitro assays that NAR significantly activates SIRT1 enzyme and shows antisenescence effects. The binding mode of NAR into SIRT1 was detailed investigated through in silico studies. Moreover, chronic administration (for six months) of NAR (100 mg/kg/day) to 6-month-old mice leads to an enhancement of SIRT1 expression and a marked reduction of reactive oxygen species production in myocardial tissue. Furthermore, at the end of the treatment, the plasma levels of two well-known markers of cardiovascular inflammation, TNF- α and IL6, are significantly reduced in 12-month-old mice treated with NAR, as well as the cardiovascular risk (total cholesterol/HDL ratio) compared to control mice. Finally, the age-associated fibrotic remodeling, which is well detected through a Mallory trichrome staining in the vehicle-treated 12-month-old mice, is significantly reduced by the chronic treatment with NAR. Moreover, an improvement of myocardium functionality is highlighted by the enhancement of citrate synthase activity and stabilization of the mitochondrial membrane potential after NAR treatment. Taken together, these results suggest that a nutraceutical approach with NAR may have positive impacts on many critical hallmarks of myocardial senescence, contributing to improve the cardiac performance in aged subjects., Competing Interests: The authors declare no conflict of interests., (Copyright © 2020 Lara Testai et al.)

Published
2020
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38. Synthesis and investigation of polyhydroxylated pyrrolidine derivatives as novel chemotypes showing dual activity as glucosidase and aldose reductase inhibitors.

Author

Guazzelli L, D'Andrea F, Sartini S, Giorgelli F, Confini G, Quattrini L, Piano I, Nencetti S, Orlandini E, Gargini C, and La Motta C

Subjects
Aldehyde Reductase metabolism, Cells, Cultured, Dose-Response Relationship, Drug, Enzyme Inhibitors chemical synthesis, Enzyme Inhibitors chemistry, Humans, Molecular Structure, Pyrrolidines chemical synthesis, Pyrrolidines chemistry, Recombinant Proteins metabolism, Structure-Activity Relationship, Aldehyde Reductase antagonists & inhibitors, Enzyme Inhibitors pharmacology, Pyrrolidines pharmacology, alpha-Glucosidases metabolism
Abstract

Diabetes is a multi-factorial disorder that should be treated with multi-effective compounds. Here we describe the access to polyhydroxylated pyrrolidines, belonging to the d-gluco and d-galacto series, through aminocyclization reactions of two differentially protected d-xylo-hexos-4-ulose derivatives. The prepared compounds proved to inhibit both alpha-glucosidase, responsible for the emergence of hyperglycemic spikes, and aldose reductase, accountable for the development of abnormalities in diabetic tissues. Accordingly, they show the dual inhibitory profile deemed as ideal for diabetes treatment. Significantly, compound 17b reduced the process of cell death and restored the physiological levels of oxidative stress when tested in the photoreceptor-like 661w cell line, thus proving to be effective in an in vitro model of diabetic retinopathy., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published
2019
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39. Retinal Phenotype in the rd9 Mutant Mouse, a Model of X-Linked RP.

Author

Falasconi A, Biagioni M, Novelli E, Piano I, Gargini C, and Strettoi E

Abstract

Retinal degeneration 9 (rd9) mice carry a mutation in the retina specific "Retinitis Pigmentosa GTPase Regulator (RPGR)" Open Reading Frame (ORF) 15 gene, located on the X chromosome and represent a rare model of X-linked Retinitis Pigmentosa (XLRP), a common and severe form of retinal degeneration (Wright et al., 2010; Tsang and Sharma, 2018). The rd9 RPGR-ORF15 mutation in mice causes lack of the protein in photoreceptors and a slow degeneration of these cells with consequent decrease in Outer Nuclear Layer (ONL) thickness and amplitude of ERG responses, as previously described (Thompson et al., 2012). However, relative rates of rod and cone photoreceptor loss, as well as secondary alterations occurring in neuronal and non-neuronal retinal cell types of rd9 mutants remain to be assessed. Aim of this study is to extend phenotype analysis of the rd9 mouse retina focusing on changes occurring in cells directly interacting with photoreceptors. To this purpose, first we estimated rod and cone survival and its degree of intraretinal variation over time; then, we studied the morphology of horizontal and bipolar cells and of the retinal pigment epithelium (RPE), extending our observations to glial cell reactivity. We found that in rd9 retinas rod (but not cone) death is the main cause of decrease in ONL thickness and that degeneration shows a high degree of intraretinal variation. Rod loss drives remodeling in the outer retina, with sprouting of second-order neurons of the rod-pathway and relative sparing of cone pathway elements. Remarkably, despite cone survival, functional defects can be clearly detected in ERG recordings in both scotopic and photopic conditions. Moderate levels of Muller cells and microglial reactivity are sided by striking attenuation of staining for RPE tight junctions, suggesting altered integrity of the outer Blood Retina Barrier (BRB). Because of many features resembling slowly progressing photoreceptor degeneration paradigms or early stages of more aggressive forms of RP, the rd9 mouse model can be considered a rare and useful tool to investigate retinal changes associated to a process of photoreceptor death sustained throughout life and to reveal disease biomarkers (e.g., BRB alterations) of human XLRP., (Copyright © 2019 Falasconi, Biagioni, Novelli, Piano, Gargini and Strettoi.)

Published
2019
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40. Retinal defects in mice lacking the autism-associated gene Engrailed-2.

Author

Zhang X, Piano I, Messina A, D'Antongiovanni V, Crò F, Provenzano G, Bozzi Y, Gargini C, and Casarosa S

Subjects
Animals, Cell Count, Electroretinography, Homeodomain Proteins genetics, Mice, Mice, Knockout, Nerve Tissue Proteins genetics, Retina metabolism, Retinal Neurons metabolism, Homeodomain Proteins metabolism, Nerve Tissue Proteins metabolism, Retina pathology, Retinal Neurons pathology
Abstract

Defective cortical processing of visual stimuli and altered retinal function have been described in autism spectrum disorder (ASD) patients. In keeping with these findings, anatomical and functional defects have been found in the visual cortex and retina of mice bearing mutations for ASD-associated genes. Here we sought to investigate the anatomy and function of the adult retina of Engrailed 2 knockout (En2 -/- ) mice, a model for ASD. Our results showed that En2 is expressed in all three nuclear layers of the adult retina. When compared to age-matched En2 +/+ controls, En2 -/- adult retinas showed a significant decrease in the number of calbindin + horizontal cells, and a significant increase in calbindin + amacrine/ganglion cells. The total number of ganglion cells was not altered in the adult En2 -/- retina, as shown by Brn3a + cell counts. In addition, En2 -/- adult mice showed a significant reduction of photoreceptor (rhodopsin) and bipolar cell (Pcp2, PKCα) markers. Functional defects were also present in the retina of En2 mutants, as indicated by electroretinogram recordings showing a significant reduction in both a-wave and b-wave amplitude in En2 -/- mice as compared to controls. These data show for the first time that anatomical and functional defects are present in the retina of the En2 ASD mouse model., (Copyright © 2019 IBRO. Published by Elsevier Ltd. All rights reserved.)

Published
2019
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41. A Nutraceutical Strategy to Slowing Down the Progression of Cone Death in an Animal Model of Retinitis Pigmentosa.

Author

Piano I, D'Antongiovanni V, Testai L, Calderone V, and Gargini C

Abstract

Retinitis pigmentosa (RP) is an inherited retinal dystrophy characterized by progressive degeneration of the visual cells and abnormalities in retinal pigment epithelium, the vision is lost slowly, and the final outcome is total blindness. RP primarily affects rods, but cones can also be affected as a secondary effect. Photoreceptor cell death is usually triggered by apoptosis, however the molecular mechanisms linking the rod degeneration to the secondary cone death are poorly understood. Possible causes of the secondary cone death are oxidative stress and/ or the release of toxic factors from dying rods. The aim of this study is to analyze the effect of nutraceutical molecules with antioxidant properties, on the progression of the disease in an established animal model of RP, and rd10 mice. We show that chronic treatment per os with a flavanone (naringenin) or a flavonol (quercetin) present in citrus fruits, grapes and apples, preserves retinal morphology, and ameliorates functionality. These actions are associated with a significant reduction of stress-oxidative markers, such as the detoxifying enzymes Sod1 and Sod2. In addition, naringenin and quercetin treatment reduces the levels of acrolein staining associated with a reduction of ROS in the cellular environment. The study demonstrates the beneficial effects of naringenin and quercetin, two molecules that possess antioxidant properties, limiting neurodegeneration, and thus preventing cone damage.

Published
2019
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42. Removal of clock gene Bmal1 from the retina affects retinal development and accelerates cone photoreceptor degeneration during aging.

Author

Baba K, Piano I, Lyuboslavsky P, Chrenek MA, Sellers JT, Zhang S, Gargini C, He L, Tosini G, and Iuvone PM

Subjects
Aging metabolism, Animals, Circadian Clocks, Gene Expression Regulation, Mice, Mice, Inbred C57BL, Mice, Knockout, Retina metabolism, Retinal Cone Photoreceptor Cells metabolism, ARNTL Transcription Factors physiology, Aging pathology, Circadian Rhythm, Retina pathology, Retinal Cone Photoreceptor Cells pathology, Vision, Ocular
Abstract

The mammalian retina contains an autonomous circadian clock system that controls many physiological functions within this tissue. Previous studies on young mice have reported that removal of the key circadian clock gene Bmal1 from the retina affects the circadian regulation of visual function, but does not affect photoreceptor viability. Because dysfunction in the circadian system is known to affect cell viability during aging in other systems, we compared the effect of Bmal1 removal from the retina on visual function, inner retinal structure, and photoreceptor viability in young (1 to 3 months) and aged (24 to 26 months) mice. We found that removal of Bmal1 from the retina significantly affects visual information processing in both rod and cone pathways, reduces the thickness of inner retinal nuclear and plexiform layers, accelerates the decline of visual functions during aging, and reduces the viability of cone photoreceptors. Our results thus suggest that circadian clock dysfunction, caused by genetic or other means, may contribute to the decline of visual function during development and aging., Competing Interests: The authors declare no conflict of interest.

Published
2018
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43. Melatonin partially protects 661W cells from H 2 O 2 -induced death by inhibiting Fas/FasL-caspase-3.

Author

Sánchez-Bretaño A, Baba K, Janjua U, Piano I, Gargini C, and Tosini G

Subjects
Animals, Caspase 3 genetics, Cell Line, Cell Survival drug effects, Dose-Response Relationship, Drug, Fas Ligand Protein genetics, Fas Ligand Protein metabolism, Immunohistochemistry, Mice, Microscopy, Confocal, Oxidants toxicity, RNA, Messenger genetics, Real-Time Polymerase Chain Reaction, Receptor, Melatonin, MT1 genetics, Receptor, Melatonin, MT1 metabolism, Receptor, Melatonin, MT2 genetics, Receptor, Melatonin, MT2 metabolism, Retinal Cone Photoreceptor Cells metabolism, Retinal Cone Photoreceptor Cells pathology, fas Receptor genetics, fas Receptor metabolism, Antioxidants pharmacology, Caspase 3 metabolism, Fas Ligand Protein antagonists & inhibitors, Hydrogen Peroxide toxicity, Melatonin pharmacology, Retinal Cone Photoreceptor Cells drug effects, fas Receptor antagonists & inhibitors
Abstract

Purpose: Previous studies have shown that melatonin (MEL) signaling is involved in the modulation of photoreceptor viability during aging. Recent work by our laboratory suggested that MEL may protect cones by modulating the Fas/FasL-caspase-3 pathway. In this study, we first investigated the presence of MEL receptors (MT 1 and MT 2 ) in 661W cells, then whether MEL can prevent H 2 O 2 -induced cell death, and last, through which pathway MEL confers protection., Methods: The mRNA and proteins of the MEL receptors were detected with quantitative PCR (q-PCR) and immunocytochemistry, respectively. To test the protective effect of MEL, 661W cells were treated with H 2 O 2 for 2 h in the presence or absence of MEL, a MEL agonist, and an antagonist. To study the pathways involved in H 2 O 2 -mediated cell death, a Fas/FasL antagonist was used before the exposure to H 2 O 2 . Finally, Fas/FasL and caspase-3 mRNA was analyzed with q-PCR and immunocytochemistry in cells treated with H 2 O 2 and/or MEL. Cell viability was analyzed by using Trypan Blue., Results: Both MEL receptors (MT 1 and MT 2 ) were detected at the mRNA and protein levels in 661W cells. MEL partially prevented H 2 O 2 -mediated cell death (20-25%). This effect was replicated with IIK7 (a melatonin receptor agonist) when used at a concentration of 1 µM. Preincubation with luzindole (a melatonin receptor antagonist) blocked MEL protection. Kp7-6, an antagonist of Fas/FasL, blocked cell death caused by H 2 O 2 similarly to what was observed for MEL. Fas, FasL, and caspase-3 expression was increased in cells treated with H 2 O 2 , and this effect was prevented by MEL. Finally, MEL treatment partially prevented the activation of caspase-3 caused by H 2 O 2 ., Conclusions: The results demonstrate that MEL receptors are present and functional in 661W cells. MEL can prevent photoreceptor cell death induced by H 2 O 2 via the inhibition of the proapoptotic pathway Fas/FasL-caspase-3.

Published
2017

44. Iminothioethers as Hydrogen Sulfide Donors: From the Gasotransmitter Release to the Vascular Effects.

Author

Barresi E, Nesi G, Citi V, Piragine E, Piano I, Taliani S, Da Settimo F, Rapposelli S, Testai L, Breschi MC, Gargini C, Calderone V, and Martelli A

Subjects
Animals, Aorta drug effects, Aorta physiology, Blood Pressure drug effects, Cell Line, Drug Discovery, Gasotransmitters chemistry, Humans, Hydrogen Sulfide chemistry, Imines chemistry, Imines pharmacology, Male, Myocytes, Smooth Muscle drug effects, Myocytes, Smooth Muscle metabolism, Rats, Rats, Wistar, Sulfides chemistry, Vasodilator Agents chemistry, Gasotransmitters pharmacology, Hydrogen Sulfide pharmacology, Sulfides pharmacology, Vasodilator Agents pharmacology
Abstract

The gasotransmitter hydrogen sulfide (H 2 S) is an important tuner of the cardiovascular homeostasis, and its deficiency is etiologically associated with a number of cardiovascular diseases. Therefore, the research of original moieties able to release H 2 S represents a timely issue for drug discovery. In this work, we developed a collection of iminothioethers (ITEs), exhibiting H 2 S-releasing properties and producing vasorelaxing effects on rat aortic rings. Derivatives 4 and 11, selected as representative of slow and fast rate H 2 S donors, respectively, produced a complete recovery of the basal coronary flow, reverting the AngII-induced effects in isolated rat hearts. In addition, studies on human aortic smooth muscle cells (HASMCs) demonstrated membrane hyperpolarizing effects, well related to the intracellular generation of H 2 S. Taken together, the results obtained support ITEs 4 and 11 as new pharmacological tools, as well as effective and innovative H 2 S donors for cardiovascular drug discovery.

Published
2017
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45. Pattern of retinal morphological and functional decay in a light-inducible, rhodopsin mutant mouse.

Author

Gargini C, Novelli E, Piano I, Biagioni M, and Strettoi E

Subjects
Animals, Cell Survival radiation effects, Light, Mice, Mutant Proteins genetics, Mutant Proteins metabolism, Retinal Cone Photoreceptor Cells physiology, Retinal Cone Photoreceptor Cells radiation effects, Retinal Rod Photoreceptor Cells physiology, Retinal Rod Photoreceptor Cells radiation effects, Disease Models, Animal, Retina pathology, Retina physiology, Retinitis Pigmentosa pathology, Rhodopsin genetics, Rhodopsin metabolism
Abstract

Hallmarks of Retinitis Pigmentosa (RP), a family of genetic diseases, are a typical rod-cone-degeneration with initial night blindness and loss of peripheral vision, followed by decreased daylight sight and progressive visual acuity loss up to legal blindness. Great heterogeneity in nature and function of mutated genes, variety of mutations for each of them, variability in phenotypic appearance and transmission modality contribute to make RP a still incurable disease. Translational research relies on appropriate animal models mimicking the genetic and phenotypic diversity of the human pathology. Here, we provide a systematic, morphological and functional analysis of Rho Tvrm4 /Rho + rhodopsin mutant mice, originally described in 2010 and portraying several features of common forms of autosomal dominant RP caused by gain-of-function mutations. These mice undergo photoreceptor degeneration only when exposed briefly to strong, white light and allow controlled timing of induction of rod and cone death, which therefore can be elicited in adult animals, as observed in human RP. The option to control severity and retinal extent of the phenotype by regulating intensity and duration of the inducing light opens possibilities to exploit this model for multiple experimental purposes. Altogether, the unique features of this mutant make it an excellent resource for retinal degeneration research.

Published
2017
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46. Application of An Improved HPLC-FL Method to Screen Serine Palmitoyl Transferase Inhibitors.

Author

Bertini S, Saccomanni G, Carlo SD, Digiacomo M, Gargini C, Piano I, Campisi GM, Ghidoni R, Macchia M, and Manera C

Subjects
Dose-Response Relationship, Drug, HEK293 Cells, Humans, Magnetic Resonance Spectroscopy, Molecular Structure, Reproducibility of Results, Serine C-Palmitoyltransferase chemistry, Substrate Specificity, Chromatography, High Pressure Liquid methods, Chromatography, High Pressure Liquid standards, Enzyme Inhibitors chemistry, Enzyme Inhibitors pharmacology, Fluorometry methods, Fluorometry standards, Serine C-Palmitoyltransferase antagonists & inhibitors
Abstract

In this work, we reported the application and validation of an improved high-performance liquid chromatography method coupled with a fluorimetric detector (HPLC-FL) to screen the activity of two heterocyclic derivatives reported as serine palmitoyl transferase (SPT) inhibitors. The analytical conditions were optimized in terms of the derivatization procedure, chromatographic condition, extraction procedure, and method validation according to EMEA guidelines. Once fully optimized, the method was applied to assess the SPT-inhibitory activity of the above-mentioned derivatives and of the reference inhibitor myriocin. The obtained results, expressed as a percentage of residual SPT activity, were compared to those obtained with the reference radio immune assay (RIA). The good correlation between the two types of assay demonstrated that the improved HPLC-FL method is suitable for a preliminary and rapid screening of potential SPT-inhibitors., Competing Interests: The authors declare no conflict of interest.

Published
2017
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47. The Citrus Flavanone Naringenin Produces Cardioprotective Effects in Hearts from 1 Year Old Rat, through Activation of mitoBK Channels.

Author

Testai L, Da Pozzo E, Piano I, Pistelli L, Gargini C, Breschi MC, Braca A, Martini C, Martelli A, and Calderone V

Abstract

Background and Purpose: Incidence of cardiovascular disorders increases with age, because of a dramatic fall of endogenous self-defense mechanisms and increased vulnerability of myocardium. Conversely, the effectiveness of many cardioprotective drugs is blunted in hearts of 1 year old rat. The Citrus flavanone naringenin (NAR) was reported to promote cardioprotective effects against ischemia/reperfusion (I/R) injury, through the activation of mitochondrial large conductance calcium-activated potassium channel (mitoBK). These effects were observed in young adult rats, but no data are available about the possible cardioprotective effects of NAR in aged animals. Experimental Approach: This study aimed at evaluating the potential cardioprotective effects of NAR against I/R damage in 1 year old rats, and the possible involvement of mitoBK. Key Results: Naringenin protected the hearts of 1 year old rats in both ex vivo and in vivo I/R protocols. Noteworthy, these effects were antagonized by paxilline, a selective BK-blocker. The cardioprotective effects of NAR were also observed in senescent H9c2 cardiomyoblasts. In isolated mitochondria from hearts of 1 year old, NAR exhibited the typical profile of a mitoBK opener. Finally, Western Blot analysis confirmed a significant (albeit reduced) presence of BK-forming alpha and beta subunits, both in cardiac tissue of 1 year old rats and in senescent H9c2 cells. Conclusion and Implications: This is the first work reporting cardioprotective effects of NAR in 1 year old rats. Although further studies are needed to better understand the whole pathway involved in the NAR-mediated cardioprotection, these preliminary data represent a promising perspective for a rational nutraceutical use of NAR in aging.

Published
2017
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48. Connexin 36 expression is required for electrical coupling between mouse rods and cones.

Author

Asteriti S, Gargini C, and Cangiano L

Subjects
Animals, Electrophysiology, Female, Light, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, Photic Stimulation, Gap Junction delta-2 Protein, Connexins metabolism, Gap Junctions physiology, Membrane Potentials physiology, Retinal Cone Photoreceptor Cells physiology, Retinal Rod Photoreceptor Cells physiology
Abstract

Rod-cone gap junctions mediate the so-called "secondary rod pathway", one of three routes that convey rod photoreceptor signals across the retina. Connexin 36 (Cx36) is expressed at these gap junctions, but an unidentified connexin protein also seems to be expressed. Cx36 knockout mice have been used extensively in the quest to dissect the roles in vision of all three pathways, with the assumption, never directly tested, that rod-cone electrical coupling is abolished by deletion of this connexin isoform. We previously showed that when wild type mouse cones couple to rods, their apparent dynamic range is extended toward lower light intensities, with the appearance of large responses to dim flashes (up to several mV) originating in rods. Here we recorded from the cones of Cx36del[LacZ]/del[LacZ] mice and found that dim flashes of the same intensity evoked at most small sub-millivolt responses. Moreover, these residual responses originated in the cones themselves, since: (i) their spectral preference matched that of the recorded cone and not of rods, (ii) their time-to-peak was shorter than in coupled wild type cones, (iii) a pharmacological block of gap junctions did not reduce their amplitude. Taken together, our data show that rod signals are indeed absent in the cones of Cx36 knockout mice. This study is the first direct demonstration that Cx36 is crucial for the assembly of functional rod-cone gap junctional channels, implying that its genetic deletion is a reliable experimental approach to eliminate rod-cone coupling.

Published
2017
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50. The novel H 2 S-donor 4-carboxyphenyl isothiocyanate promotes cardioprotective effects against ischemia/reperfusion injury through activation of mitoK ATP channels and reduction of oxidative stress.

Author

Testai L, Marino A, Piano I, Brancaleone V, Tomita K, Di Cesare Mannelli L, Martelli A, Citi V, Breschi MC, Levi R, Gargini C, Bucci M, Cirino G, Ghelardini C, and Calderone V

Subjects
Animals, Cardiovascular Diseases drug therapy, Cardiovascular Diseases metabolism, Cystathionine beta-Synthase metabolism, Cystathionine beta-Synthase pharmacology, Cystathionine gamma-Lyase metabolism, Cysteine analogs & derivatives, Cysteine pharmacology, Decanoic Acids pharmacology, Heart drug effects, Hydroxy Acids pharmacology, Male, Mast Cells drug effects, Mast Cells metabolism, Mice, Mice, Inbred C57BL, Mitochondria, Heart drug effects, Mitochondria, Heart metabolism, Myocardial Infarction drug therapy, Myocardial Infarction metabolism, Myocardial Ischemia drug therapy, Myocardial Ischemia metabolism, Myocardial Reperfusion Injury metabolism, Rats, Rats, Wistar, Reactive Oxygen Species metabolism, Cardiotonic Agents pharmacology, Hydrogen Sulfide metabolism, Isothiocyanates pharmacology, Myocardial Reperfusion Injury drug therapy, Oxidative Stress drug effects, Potassium Channels metabolism
Abstract

The endogenous gasotransmitter hydrogen sulphide (H 2 S) is an important regulator of the cardiovascular system, particularly of myocardial function. Moreover, H 2 S exhibits cardioprotective activity against ischemia/reperfusion (I/R) or hypoxic injury, and is considered an important mediator of "ischemic preconditioning", through activation of mitochondrial potassium channels, reduction of oxidative stress, activation of the endogenous "anti-oxidant machinery" and limitation of inflammatory responses. Accordingly, H 2 S-donors, i.e. pro-drugs able to generate exogenous H 2 S, are viewed as promising therapeutic agents for a number of cardiovascular diseases. The novel H 2 S-donor 4-carboxy phenyl-isothiocyanate (4CPI), whose vasorelaxing effects were recently reported, was tested here in different experimental models of myocardial I/R. In Langendorff-perfused rat hearts subjected to I/R, 4CPI significantly improved the post-ischemic recovery of myocardial functional parameters and limited tissue injury. These effects were antagonized by 5-hydroxydecanoic acid (a blocker of mitoK ATP channels). Moreover, 4CPI inhibited the formation of reactive oxygen species. We found the whole battery of H 2 S-producing enzymes to be present in myocardial tissue: cystathionine γ-lyase (CSE), cystathionine β-synthase (CBS) and 3-mercaptopyruvate sulfurtransferase (MPST). Notably, 4CPI down-regulated the post-ischemic expression of CSE. In Langendorff-perfused mouse hearts, 4CPI reduced the post-ischemic release of norepinephrine and the incidence of ventricular arrhythmias. In both rat and mouse hearts, 4CPI did not affect the degranulation of resident mast cells. In isolated rat cardiac mitochondria, 4CPI partially depolarized the mitochondrial membrane potential; this effect was antagonized by ATP (i.e., the physiological inhibitor of K ATP channels). Moreover, 4CPI abrogated calcium uptake in the mitochondrial matrix. Finally, in an in vivo model of acute myocardial infarction in rats, 4CPI significantly decreased I/R-induced tissue injury. In conclusion, H 2 S-donors, and in particular isothiocyanate-based H2S-releasing drugs like 4CPI, can actually be considered a suitable pharmacological option in anti-ischemic therapy., (Copyright © 2016. Published by Elsevier Ltd.)

Published
2016
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