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3. Fatty acid acylated peptide therapeutics: discovery of omega-n oxidation of the lipid chain as a novel metabolic pathway in preclinical species

Author

Esposito, Simone, Krick, Alain, Pasquier, Olivier, Bonche, Fabrice, Ingenito, Raffaele, Magotti, Paola, Bianchi, Elisabetta, Monteagudo, Edith, Gallo, Mariana, Cicero, Daniel Oscar, Orsatti, Laura, Veneziano, Maria, Caretti, Fulvia, Mele, Riccardo, Roversi, Daniela, Gennari, Nadia, Brasseur, Denis, Gauzy-Lazo, Laurence, Duclos, Olivier, Mauriac, Christine, Illiano, Stephane, and Mallart, Sergio

Published
2023
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6. 3D Modeling: Insights into the Metabolic Reprogramming of Cholangiocarcinoma Cells.

Author

Ciufolini, Giorgia, Zampieri, Serena, Cesaroni, Simona, Pasquale, Valentina, Bonanomi, Marcella, Gaglio, Daniela, Sacco, Elena, Vanoni, Marco, Pastore, Mirella, Marra, Fabio, Cicero, Daniel Oscar, Raggi, Chiara, and Petrella, Greta

Subjects
METABOLIC reprogramming, CELL metabolism, CARBON metabolism, TUMOR microenvironment, FOREIGN exchange rates, CANCER cell culture
Abstract

Developing accurate in vitro models that replicate the in vivo tumor environment is essential for advancing cancer research and therapeutic development. Traditional 2D cell cultures often fail to capture the complex structural and functional heterogeneity of tumors, limiting the translational relevance of findings. In contrast, 3D culture systems, such as spheroids, provide a more physiologically relevant context by replicating key aspects of the tumor microenvironment. This study aimed to compare the metabolism of three intrahepatic cholangiocarcinoma cell lines in 2D and 3D cultures to identify metabolic shifts associated with spheroid formation. Cells were cultured in 2D on adhesion plates and in 3D using ultra-low attachment plates. Metabolic exchange rates were measured using NMR, and intracellular metabolites were analyzed using LC-MS. Significant metabolic differences were observed between 2D and 3D cultures, with notable changes in central carbon and glutathione metabolism in 3D spheroids. The results suggest that 3D cultures, which more closely mimic the in vivo environment, may offer a more accurate platform for cancer research and drug testing. [ABSTRACT FROM AUTHOR]

Published
2024
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8. The Urine Metabolome of R6/2 and zQ175DN Huntington's Disease Mouse Models.

Author

Speziale, Roberto, Montesano, Camilla, Di Pietro, Giulia, Cicero, Daniel Oscar, Summa, Vincenzo, Monteagudo, Edith, and Orsatti, Laura

Subjects
HUNTINGTON disease, LABORATORY mice, ANIMAL models in research, INSULIN resistance
Abstract

Huntington's disease (HD) is caused by the expansion of a polyglutamine (polyQ)-encoding tract in exon 1 of the huntingtin gene to greater than 35 CAG repeats. It typically has a disease course lasting 15–20 years, and there are currently no disease-modifying therapies available. Thus, there is a need for faithful mouse models of HD to use in preclinical studies of disease mechanisms, target validation, and therapeutic compound testing. A large variety of mouse models of HD were generated, none of which fully recapitulate human disease, complicating the selection of appropriate models for preclinical studies. Here, we present the urinary liquid chromatography–high-resolution mass spectrometry analysis employed to identify metabolic alterations in transgenic R6/2 and zQ175DN knock-in mice. In R6/2 mice, the perturbation of the corticosterone metabolism and the accumulation of pyrraline, indicative of the development of insulin resistance and the impairment of pheromone excretion, were observed. Differently from R6/2, zQ175DN mice showed the accumulation of oxidative stress metabolites. Both genotypes showed alterations in the tryptophan metabolism. This approach aims to improve our understanding of the molecular mechanisms involved in HD neuropathology, facilitating the selection of appropriate mouse models for preclinical studies. It also aims to identify potential biomarkers specific to HD. [ABSTRACT FROM AUTHOR]

Published
2023
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9. Biological Evaluation of Triorganotin Derivatives as Potential Anticancer Agents.

Author

Stefanizzi, Valeria, Minutolo, Antonella, Valletta, Elena, Carlini, Martina, Cordero, Franca M., Ranzenigo, Anna, Prete, Salvatore Pasquale, Cicero, Daniel Oscar, Pitti, Erica, Petrella, Greta, Matteucci, Claudia, Marino-Merlo, Francesca, Mastino, Antonio, and Macchi, Beatrice

Subjects
ANTINEOPLASTIC agents, ORGANOTIN compounds, TRIBUTYLTIN, CELL growth, DRUG resistance
Abstract

Metal-derived platinum complexes are widely used to treat solid tumors. However, systemic toxicity and tumor resistance to these drugs encourage further research into similarly effective compounds. Among others, organotin compounds have been shown to inhibit cell growth and induce cell death and autophagy. Nevertheless, the impact of the ligand structure and mechanisms involved in the toxicity of organotin compounds have not been clarified. In the present study, the biological activities of commercially available bis(tributyltin) oxide and tributyltin chloride, in comparison to those of specially synthesized tributyltin trifluoroacetate (TBT-OCOCF3) and of cisplatin, were assessed using cells with different levels of tumorigenicity. The results show that tributyltins were more cytotoxic than cisplatin in all the tested cell lines. NMR revealed that this was not related to the interaction with DNA but to the inhibition of glucose uptake into the cells. Moreover, highly tumorigenic cells were less susceptible than nontumorigenic cells to the nonunique pattern of death induced by TBT-OCOCF3. Nevertheless, tumorigenic cells became sensitive when cotreated with wortmannin and TBT-OCOCF3, although no concomitant induction of autophagy by the compound was detected. Thus, TBT-OCOCF3 might be the prototype of a family of potential anticancer agents. [ABSTRACT FROM AUTHOR]

Published
2023
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10. Metabolic Reprogramming of Castration-Resistant Prostate Cancer Cells as a Response to Chemotherapy.

Author

Petrella, Greta, Corsi, Francesca, Ciufolini, Giorgia, Germini, Sveva, Capradossi, Francesco, Pelliccia, Andrea, Torino, Francesco, Ghibelli, Lina, and Cicero, Daniel Oscar

Subjects
CASTRATION-resistant prostate cancer, NUCLEAR magnetic resonance spectroscopy, ANDROGEN receptors, CANCER cells, ENERGY metabolism, CELL metabolism, CANCER chemotherapy
Abstract

Prostate cancer at the castration-resistant stage (CRPC) is a leading cause of death among men due to resistance to anticancer treatments, including chemotherapy. We set up an in vitro model of therapy-induced cancer repopulation and acquired cell resistance (CRAC) on etoposide-treated CRPC PC3 cells, witnessing therapy-induced epithelial-to-mesenchymal-transition (EMT) and chemoresistance among repopulating cells. Here, we explore the metabolic changes leading to chemo-induced CRAC, measuring the exchange rates cell/culture medium of 36 metabolites via Nuclear Magnetic Resonance spectroscopy. We studied the evolution of PC3 metabolism throughout recovery from etoposide, encompassing the degenerative, quiescent, and repopulating phases. We found that glycolysis is immediately shut off by etoposide, gradually recovering together with induction of EMT and repopulation. Instead, OXPHOS, already high in untreated PC3, is boosted by etoposide to decline afterward, though stably maintaining values higher than control. Notably, high levels of EMT, crucial in the acquisition of chemoresistance, coincide with a strong acceleration of metabolism, especially in the exchange of principal nutrients and their end products. These results provide novel information on the energy metabolism of cancer cells repopulating from cytotoxic drug treatment, paving the way for uncovering metabolic vulnerabilities to be possibly pharmacologically targeted and providing novel clinical options for CRPC. [ABSTRACT FROM AUTHOR]

Published
2023
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11. Unraveling Pathophysiology of Takotsubo Syndrome: The Emerging Role of the Oxidative Stress's Systemic Status.

Author

Viceconte, Nicola, Petrella, Greta, Pelliccia, Francesco, Tanzilli, Gaetano, and Cicero, Daniel Oscar

Subjects
OXIDATIVE stress, PATHOLOGICAL physiology, SYMPATHETIC nervous system, PHYSIOLOGICAL stress, MYOCARDIAL ischemia
Abstract

Takotsubo Syndrome (TTS) is usually triggered by emotional or physical stressors, thus suggesting that an increased sympathetic activity, leading to myocardial perfusion abnormalities and ventricular dysfunction, plays a major pathogenetic role. However, it remains to be elucidated why severe emotional and physical stress might trigger TTS in certain individuals but not others. Clinical research has been focused mainly on mechanisms underlying the activation of the sympathetic nervous system and the occurrence of myocardial ischemia in TTS. However, scientific evidence shows that additional factors might play a pathophysiologic role in the condition's occurrence. In this regard, a significant contribution arrived from metabolomics studies that followed the systemic response to TTS. Specifically, preliminary data clearly show that there is an interplay between inflammation, genetics, and oxidative status which might explain susceptibility to the condition. This review aims to sum up the established pathogenetic factors underlying TTS and to appraise emerging mechanisms, with particular emphasis on oxidative status, which might better explain susceptibility to the condition. [ABSTRACT FROM AUTHOR]

Published
2022
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12. A Sustainable Hydroxypropyl Cellulose-Nanodiamond Composite for Flexible Electronic Applications.

Author

Palmieri, Elena, Pescosolido, Francesca, Montaina, Luca, Carcione, Rocco, Petrella, Greta, Cicero, Daniel Oscar, Tamburri, Emanuela, Battistoni, Silvia, and Orlanducci, Silvia

Subjects
CELLULOSE, NANODIAMONDS, RHEOLOGY, HYDRODYNAMICS, IONIC conductivity
Abstract

Designing fully green materials for flexible electronics is an urgent need due to the growing awareness of an environmental crisis. With the aim of developing a sustainable, printable, and biocompatible material to be exploited in flexible electronics, the rheological, structural and charge transport properties of water-based hydroxypropyl cellulose (HPC)-detonation nanodiamond (DND) viscous dispersions are investigated. A rheological investigation disclosed that the presence of the DND affects the orientation and entanglement of cellulose chains in the aqueous medium. In line with rheological analyses, the NMR diffusion experiments pointed out that the presence of DND modifies the hydrodynamic behavior of the cellulose molecules. Despite the increased rigidity of the system, the presence of DND slightly enhances the ionic conductivity of the dispersion, suggesting a modification in the charge transport properties of the material. The electrochemical analyses, performed through Cyclic Voltammetry (CV) and Electrochemical Impedance Spectroscopy (EIS), revealed that the HPC-DND system is remarkably stable in the explored voltage range (−0.1 to +0.4 V) and characterized by a lowered bulk resistance with respect to HPC. Such features, coupled with the printability and filmability of the material, represent good requirements for the exploitation of such systems in flexible electronic applications. [ABSTRACT FROM AUTHOR]

Published
2022
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13. Comparative metabolic profiling by 1H-NMR spectroscopy analysis reveals the adaptation of S. mansoni from its host to in vitro culture conditions: a pilot study with ex vivo and GSH-supplemented medium-cultured parasites.

Author

Fustaino, Valentina, Gimmelli, Roberto, Guidi, Alessandra, Lentini, Sara, Saccoccia, Fulvio, Petrella, Greta, Cicero, Daniel Oscar, and Ruberti, Giovina

Subjects
METABOLOMIC fingerprinting, NEGLECTED diseases, PARASITIC diseases, PILOT projects, PARASITES
Abstract

Schistosomiasis is a neglected tropical disease caused by parasitic flatworms (blood fluke) of the genus Schistosoma. Parasites acquire most nutrients for their development and sustainment within the definitive host either by ingestion into the gut or across the body surface. Over the years, the best conditions for long-term maintenance of parasites in vitro have been thoroughly established. In our hands, 1H-NMR spectroscopy represents a powerful tool to characterize the metabolic changes in S. mansoni in response to culturing condition perturbations. In order to compare the metabolic fingerprint of ex vivo and parasites cultured in vitro with or without the supplement of reduced glutathione, we conducted a pilot study applying the 1H-NMR spectroscopy-based metabolomics. We obtained new insight into specific metabolic pathways modulated under these different experimental conditions. [ABSTRACT FROM AUTHOR]

Published
2022
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15. Drug effects on metabolic profiles of Schistosoma mansoni adult male parasites detected by 1H-NMR spectroscopy.

Author

Guidi, Alessandra, Petrella, Greta, Fustaino, Valentina, Saccoccia, Fulvio, Lentini, Sara, Gimmelli, Roberto, Di Pietro, Giulia, Bresciani, Alberto, Cicero, Daniel Oscar, and Ruberti, Giovina

Subjects
PHARMACOLOGY, SCHISTOSOMA mansoni, PARASITIC diseases, NUCLEAR magnetic resonance, PARASITES, TREMATODA, HELMINTHS
Abstract

Schistosomiasis is one of the most devastating neglected tropical parasitic diseases caused by trematodes of the genus Schistosoma. Praziquantel (PZQ) is today the only drug used in humans and animals for the treatment of schistosomiasis but unfortunately it is poorly effective on larval and juvenile stages of the parasite. Therefore, it is urgent the discovery of new drug targets and compounds. We have recently showed that the anti-anginal drug perhexiline maleate (PHX) is very active on multiple developmental stages of Schistosoma mansoni in vitro. It is well known that PHX impacts the lipid metabolism in mammals, but the final target on schistosomes still remains unknown. The aim of this study was to evaluate the ability of 1H nuclear magnetic resonance (NMR) spectroscopy in revealing metabolic perturbations due to PHX treatment of S. mansoni adult male worms. The effects of PHX were compared with the ones induced by vehicle and gambogic acid, in order to detect different metabolic profiles and specificity of the PHX action. Remarkably a list of metabolites associated to PHX-treatment was identified with enrichment in several connected metabolic pathways including also the Kennedy pathway mediating the glycerophospholipid metabolism. Our study represents the first 1H-NMR metabolomic approach to characterize the response of S. mansoni to drug treatment. The obtained "metabolic fingerprint" associated to PHX treatment could represent a strategy for displaying cellular metabolic changes for any given drug and to compare compounds targeting similar or distinct biochemical pathways. Author summary: Schistosomiasis is a chronic and debilitating neglected tropical parasitic disease caused by the helminth Schistosoma. The control and treatment of the disease rely almost exclusively on praziquantel (PZQ), poorly effective on some developmental stage of the parasite. Identification of novel targets and drugs is required. The aim of this study was to use a 1H-NMR metabolomic approach to characterize the response of Schistosoma mansoni to perhexiline maleate (PHX), a multi-stage schistosomicidal drug previously investigated by our group. Remarkably we identified a metabolic signature specifically associated to drug-treatment in adult male parasites. This approach could contribute to the identification of novel targets and biochemical pathways implicated in parasite development and survival. [ABSTRACT FROM AUTHOR]

Published
2020
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16. 3,7‐Bis(N‐methyl‐N‐phenylamino)phenothiazinium Salt: Improved Synthesis and Aggregation Behavior in Solution.

Author

Tiravia, Martina, Sabuzi, Federica, Cirulli, Martina, Pezzola, Silvia, Di Carmine, Graziano, Cicero, Daniel Oscar, Floris, Barbara, Conte, Valeria, and Galloni, Pierluca

Subjects
NUCLEOPHILIC reactions, DRUG design, SALT, CHLORIDES analysis, BEHAVIOR
Abstract

In this paper, the optimization of the synthesis of 3,7‐bis(N‐methyl‐N‐phenylamino)phenothiazinium chloride with a detailed analysis of reaction parameters, i.e. solvent, temperature, amount of amine, as well as addition of a non‐nucleophilic base, is presented. Spectroscopic, electrochemical and computational data show that the presence of the two phenyl rings, directly bound on the PTZ+ core, inhibits the aggregation ability of the salt at concentrations up to 10–3 M. Furthermore, the introduction of an aromatic group in phenothiazinium‐based molecules appears strategic to introduce other useful functionalities, thus opening new opportunities in the drug design/discovery research field. [ABSTRACT FROM AUTHOR]

Published
2019
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17. Solution and crystal structure of BA42, a protein from the Antarctic bacterium Bizionia argentinensis comprised of a stand-alone TPM domain

Author

Aran, Martin, Smal, Clara, Pelliza, Leonardo, Gallo, Mariana, Otero, Lisandro Horacio, Klinke, Sebastian, Goldbaum, Fernando Alberto, Ithurralde, Esteban, Bercovich, Andrés, Mac Cormack, Walter P., Turjanski, Adrian G., and Cicero, Daniel Oscar

Subjects
Ciencias Biológicas, STRUCTURAL GENOMICS, X-RAY CRYSTALLOGRAPHY, ANTARCTIC BACTERIA, BA42, PROTEIN STRUCTURE, NUCLEAR MAGNETIC RESONANCE, BIZIONIA ARGENTINENSIS, Bioquímica y Biología Molecular, CIENCIAS NATURALES Y EXACTAS
Abstract

The structure of the BA42 protein belonging to the Antarctic flavobacterium Bizionia argentinensis was determined by nuclear magnetic resonance and X-ray crystallography. This is the first structure of a member of the PF04536 family comprised of a stand-alone TPM domain. The structure reveals a new topological variant of the four β-strands constituting the central β-sheet of the αβα architecture and a double metal binding site stabilizing a pair of crossing loops, not observed in previous structures of proteins belonging to this family. BA42 shows differences in structure and dynamics in the presence or absence of bound metals. The affinity for divalent metal ions is close to that observed in proteins that modulate their activity as a function of metal concentration, anticipating a possible role for BA42. Fil: Aran, Martin. Consejo Nacional de Investigaciones Científicas y Técnicas. Oficina de Coordinación Administrativa Parque Centenario. Instituto de Investigaciones Bioquimicas de Buenos Aires; Argentina. Fundación Instituto Leloir; Argentina Fil: Smal, Clara. Consejo Nacional de Investigaciones Científicas y Técnicas. Oficina de Coordinación Administrativa Parque Centenario. Instituto de Investigaciones Bioquimicas de Buenos Aires; Argentina. Fundación Instituto Leloir; Argentina Fil: Pelliza, Leonardo. Consejo Nacional de Investigaciones Científicas y Técnicas. Oficina de Coordinación Administrativa Parque Centenario. Instituto de Investigaciones Bioquimicas de Buenos Aires; Argentina. Fundación Instituto Leloir; Argentina Fil: Gallo, Mariana. Consejo Nacional de Investigaciones Científicas y Técnicas. Oficina de Coordinación Administrativa Parque Centenario. Instituto de Investigaciones Bioquimicas de Buenos Aires; Argentina. Fundación Instituto Leloir; Argentina Fil: Otero, Lisandro Horacio. Consejo Nacional de Investigaciones Científicas y Técnicas. Oficina de Coordinación Administrativa Parque Centenario. Instituto de Investigaciones Bioquimicas de Buenos Aires; Argentina. Plataforma Argentina de Biología Estructural y Metabolómica PLABEM; Argentina. Fundación Instituto Leloir; Argentina Fil: Klinke, Sebastian. Consejo Nacional de Investigaciones Científicas y Técnicas. Oficina de Coordinación Administrativa Parque Centenario. Instituto de Investigaciones Bioquimicas de Buenos Aires; Argentina. Fundación Instituto Leloir; Argentina. Plataforma Argentina de Biología Estructural y Metabolómica PLABEM; Argentina Fil: Goldbaum, Fernando Alberto. Consejo Nacional de Investigaciones Científicas y Técnicas. Oficina de Coordinación Administrativa Parque Centenario. Instituto de Investigaciones Bioquimicas de Buenos Aires; Argentina. Plataforma Argentina de Biología Estructural y Metabolómica PLABEM; Argentina. Fundación Instituto Leloir; Argentina Fil: Ithurralde, Esteban. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales. Departamento de Química Biológica; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas. Oficina de Coordinación Administrativa Ciudad Universitaria. Instituto de Química, Física de los Materiales, Medioambiente y Energía; Argentina Fil: Bercovich, Andrés. Biosidus S.a.; Argentina Fil: Mac Cormack, Walter P.. Ministerio de Relaciones Exteriores, Comercio Interno y Culto. Dirección Nacional del Antártico. Instituto Antártico Argentino; Argentina Fil: Turjanski, Adrian G.. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales. Departamento de Química Biológica; Argentina Fil: Cicero, Daniel Oscar. Universita Di Roma; Italia

Published
2014

20. A Pilot Study on the 1 H-NMR Serum Metabolic Profile of Takotsubo Patients Reveals Systemic Response to Oxidative Stress.

Author

Vanni, Domitilla, Viceconte, Nicola, Petrella, Greta, Biccirè, Flavio Giuseppe, Pelliccia, Francesco, Tanzilli, Gaetano, and Cicero, Daniel Oscar

Subjects
OXIDATIVE stress, METABOLOMIC fingerprinting, ACUTE coronary syndrome, CORONARY artery disease, BIOCHEMICAL models, PILOT projects, AMINO acid metabolism
Abstract

Takotsubo syndrome (TTS) presents as an acute coronary syndrome characterized by severe left ventricular (LV) dysfunction and non-obstructive coronary artery disease that typically shows spontaneous recovery within days or weeks. The mechanisms behind TTS are mainly related to beta-adrenergic overstimulation and acute endogenous catecholamine surge, both of which could increase oxidative status that may induce further deterioration of cardiac function. Although several studies reported evidence of inflammation and oxidative stress overload in myocardial tissue of TTS models, systemic biochemical evidence of augmented oxidant activity in patients with TTS is lacking. In this study, serum samples of ten TTS patients and ten controls have been analyzed using 1H-NMR spectroscopy. The results of this pilot study show a marked alteration in the systemic metabolic profile of TTS patients, mainly characterized by significant elevation of ketone bodies, 2-hydroxybutyrate, acetyl-L-carnitine, and glutamate levels, in contrast with a decrease of several amino acid levels. The overall metabolic fingerprint reflects a systemic response to oxidative stress caused by the stressor that triggered the syndrome's onset. [ABSTRACT FROM AUTHOR]

Published
2021
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22. Structural rearrangements of the two domains of Azotobacter vinelandii rhodanese upon sulfane sulfur release: essential molecular dynamics, <F>15N</F> NMR relaxation and deuterium exchange on the uniformly labeled protein

Author

Cicero, Daniel Oscar, Melino, Sonia, Orsale, Maria, Brancato, Giuseppe, Amadei, Andrea, Forlani, Fabio, Pagani, Silvia, and Paci, Maurizio

Subjects
*AZOTOBACTER, *SULFUR, *CYANIDES, *CATALYSIS
Abstract

The Azotobacter vinelandii rhodanese is a 31 kDa sulfurtransferase protein that catalyzes the transfer of sulfur atom from thiosulfate to cyanide in the detoxification process from cyanide and is able to insert sulfur atom in the iron–sulfur cluster. A study of the uniformly 15N isotopic labeling by high resolution NMR, before obtaining the backbone sequential assignment, has been carried out. The sulfur loaded and the sulfur discharged forms of the enzyme show very similar HSQC spectra with a good spectral dispersion. Few resonances show changes in chemical shift between the two forms. Relaxation parameters T1, T2 and 1H15N NOE of all amide nitrogen atoms, as well as isotope exchange kinetics, show that the two forms exhibit the same global correlation time and hydrodynamic properties. In parallel, essential dynamics studies show that formation and discharging of catalytic cysteine persulfide group has no significant impact on the overall conformation of the protein. These results, taken together, give a clearcut answer to the question if the catalytic mechanism of the enzyme involves a change in the conformation and/or in the mutual orientation of the two domains. On the contrary these results clearly indicate that upon the catalytic mechanism the two domains of the protein behave as a unique fold. [Copyright &y& Elsevier]

Published
2003
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23. Urinary Metabolic Markers of Bladder Cancer: A Reflection of the Tumor or the Response of the Body?

Author

Petrella, Greta, Ciufolini, Giorgia, Vago, Riccardo, and Cicero, Daniel Oscar

Subjects
BLADDER cancer, TUMOR markers, PROGNOSIS, URINALYSIS, DIAGNOSIS, BLADDER
Abstract

This work will review the metabolic information that various studies have obtained in recent years on bladder cancer, with particular attention to discovering biomarkers in urine for the diagnosis and prognosis of this disease. In principle, they would be capable of complementing cystoscopy, an invasive but nowadays irreplaceable technique or, in the best case, of replacing it. We will evaluate the degree of reproducibility that the different experiments have shown in the indication of biomarkers, and a synthesis will be attempted to obtain a consensus list that is more likely to become a guideline for clinical practice. In further analysis, we will inquire into the origin of these dysregulated metabolites in patients with bladder cancer. For this purpose, it will be helpful to compare the imbalances measured in urine with those known inside tumor cells or tissues. Although the urine analysis is sometimes considered a liquid biopsy because of its direct contact with the tumor in the bladder wall, it contains metabolites from all organs and tissues of the body, and the tumor is separated from urine by the most impermeable barrier found in mammals. The distinction between the specific and systemic responses can help understand the disease and its consequences in more depth. [ABSTRACT FROM AUTHOR]

Published
2021
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24. Humulus lupulus Cone Extract Efficacy in Alginate-Based Edible Coatings on the Quality and Nutraceutical Traits of Fresh-Cut Kiwifruit.

Author

Carbone, Katya, Macchioni, Valentina, Petrella, Greta, Cicero, Daniel Oscar, and Micheli, Laura

Subjects
HOPS, EDIBLE coatings, SURFACE coatings, COLD storage, KIWIFRUIT, VITAMIN C
Abstract

In this work, an innovative coating strategy that is able to prolong the shelf-life of fresh-cut kiwifruit was proposed, and the effectiveness of the procedure was evaluated for a period of ten days under cold storage (4 °C). Alginate (2% m/v) functionalized with green extracts from hop (Humulus lupulus L.) cones (HE; 0.5 and 1%, v/v) was used as a coating material in order to assess the best performing strategy, leading to the most stable product. At the concentrations used to formulate the edible coatings, no contribution related to hop bitterness on the final product was recorded. The results were compared to control samples (without edible coating and coated only with alginate at 2% m/v). The plant extract was characterized by its main chemical traits and by 1H NMR profiling, revealing the presence of antioxidant and antimicrobial bioactive compounds (i.e., alpha and beta hop acids, xanthohumol). Furthermore, the characteristics of the samples during cold storage were evaluated by physico-chemical (i.e., weight loss, soluble solid content, titratable acidity, pH, color attributes) and nutraceutical (i.e., total polyphenol, ascorbic acid content, total carotenoids, chlorophylls) traits. The results showed that the incorporation of hop extracts into the edible coatings tested was able to preserve the quality and nutraceutical traits of fresh-cut kiwifruit during cold storage, thus prolonging their shelf life and marketability. [ABSTRACT FROM AUTHOR]

Published
2021
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25. Personalized Metabolic Profile by Synergic Use of NMR and HRMS.

Author

Petrella, Greta, Montesano, Camilla, Lentini, Sara, Ciufolini, Giorgia, Vanni, Domitilla, Speziale, Roberto, Salonia, Andrea, Montorsi, Francesco, Summa, Vincenzo, Vago, Riccardo, Orsatti, Laura, Monteagudo, Edith, and Cicero, Daniel Oscar

Subjects
PATIENT monitoring, NUCLEAR magnetic resonance, BLADDER cancer, DISEASE progression
Abstract

A new strategy that takes advantage of the synergism between NMR and UHPLC–HRMS yields accurate concentrations of a high number of compounds in biofluids to delineate a personalized metabolic profile (SYNHMET). Metabolite identification and quantification by this method result in a higher accuracy compared to the use of the two techniques separately, even in urine, one of the most challenging biofluids to characterize due to its complexity and variability. We quantified a total of 165 metabolites in the urine of healthy subjects, patients with chronic cystitis, and patients with bladder cancer, with a minimum number of missing values. This result was achieved without the use of analytical standards and calibration curves. A patient's personalized profile can be mapped out from the final dataset's concentrations by comparing them with known normal ranges. This detailed picture has potential applications in clinical practice to monitor a patient's health status and disease progression. [ABSTRACT FROM AUTHOR]

Published
2021
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26. The Interplay between Oxidative Phosphorylation and Glycolysis as a Potential Marker of Bladder Cancer Progression.

Author

Petrella, Greta, Ciufolini, Giorgia, Vago, Riccardo, and Cicero, Daniel Oscar

Subjects
OXIDATIVE phosphorylation, BLADDER cancer, CANCER invasiveness, TUMOR markers, TRANSITIONAL cell carcinoma, UROTHELIUM, GLYCOLYSIS
Abstract

Urothelial bladder cancer (UBC) is the most common tumor of the urinary system. One of the biggest problems related to this disease is the lack of markers that can anticipate the progression of the cancer. Genomics and transcriptomics have greatly improved the prediction of risk of recurrence and progression. Further progress can be expected including information from other omics sciences such as metabolomics. In this study, we used 1H-NMR to characterize the intake of nutrients and the excretion of products in the extracellular medium of three UBC cell lines, which are representatives of low-grade tumors, RT4, high-grade, 5637, and a cell line that shares genotypic features with both, RT112. We have observed that RT4 cells show an activated oxidative phosphorylation, 5637 cells depend mostly on glycolysis to grow, while RT112 cells show a mixed metabolic state. Our results reveal the relative importance of glycolysis and oxidative phosphorylation in the growth and maintenance of different UBC cell lines, and the relationship with their genomic signatures. They suggest that cell lines associated with a low risk of progression present an activated oxidative metabolic state, while those associated with a high risk present a non-oxidative state and high glycolytic activity. [ABSTRACT FROM AUTHOR]

Published
2020
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27. Salivary Metabolome and Soccer Match: Challenges for Understanding Exercise induced Changes.

Author

Pitti, Erica, Petrella, Greta, Di Marino, Sara, Summa, Vincenzo, Perrone, Marco, D'Ottavio, Stefano, Bernardini, Andrea, and Cicero, Daniel Oscar

Subjects
EXERCISE, SOCCER tournaments
Abstract

Saliva samples of seventeen soccer players were analyzed by nuclear magnetic resonance before and after an official match. Two different ways of normalizing data are discussed, using total proteins and total metabolite concentrations. Changes in markers related to energy, hydration status, amino acids and other compounds were found. The limits and advantages of using saliva to define the systemic responses to exercise are examined, both in terms of data normalization and interpretation, and the time that the effect lasts in this biofluid, which is shorter to that commonly observed in blood. The heterogeneous nature and different timing of the exercise developed by players also plays an important role in the metabolic changes that can be measured. Our work focuses mainly on three different aspects: The effect that time sampling has on the observed effect, the type of normalization that is necessary to perform in order to cope with changes in water content, and the metabolic response that can be observed using saliva. [ABSTRACT FROM AUTHOR]

Published
2019
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28. The O-neophyl rearrangement of 1,1-diarylalkoxyl radicals. Experimental evidence for the formation of an intermediate 1-oxaspiro[2,5]octadienyl radical

Author

Bietti, Massimo, Calcagni, Alessandra, Cicero, Daniel Oscar, Martella, Roberto, and Salamone, Michela

Subjects
*REARRANGEMENTS (Chemistry), *RADICALS (Chemistry), *CYCLOPROPANE, *REACTIVITY (Chemistry), *INTERMEDIATES (Chemistry), *CHEMICAL equilibrium
Abstract

Abstract: A product study on the reactivity of a 1,1-diarylalkoxyl radical bearing 2,2-diphenylcyclopropyl groups in the para-positions has been carried out. The exclusive formation of a product deriving from cyclopropyl ring-opening has been observed, indicating that 1,1-diarylalkoxyl radicals exist in equilibrium with a bridged 1-oxaspiro[2,5]octadienyl radical. This represents the first experimental evidence in support of the stepwise nature of the O-neophyl rearrangement of 1,1-diarylalkoxyl radicals. [Copyright &y& Elsevier]

Published
2010
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29. Nuclear factor (erythroid-derived 2)-like 2 (NRF2) drug discovery: Biochemical toolbox to develop NRF2 activators by reversible binding of Kelch-like ECH-associated protein 1 (KEAP1).

Author

Bresciani, Alberto, Missineo, Antonino, Gallo, Mariana, Cerretani, Mauro, Fezzardi, Paola, Tomei, Licia, Cicero, Daniel Oscar, Altamura, Sergio, Santoprete, Alessia, Ingenito, Raffaele, Bianchi, Elisabetta, Pacifici, Robert, Dominguez, Celia, Munoz-Sanjuan, Ignacio, Harper, Steven, Toledo-Sherman, Leticia, and Park, Larry C.

Subjects
*KEAP1 (Protein), *DRUG development, *ACTIVATORS (Chemistry), *BIOMARKERS, *PARKINSON'S disease treatment, *OXIDATIVE stress
Abstract

Mechanisms that activate innate antioxidant responses, as a way to mitigate oxidative stress at the site of action, hold much therapeutic potential in diseases, such as Parkinson's disease, Alzheimer's disease and Huntington's disease, where the use of antioxidants as monotherapy has not yielded positive results. The nuclear factor NRF2 is a transcription factor whose activity upregulates the expression of cell detoxifying enzymes in response to oxidative stress. NRF2 levels are modulated by KEAP1, a sensor of oxidative stress. KEAP1 binds NRF2 and facilitates its ubiquitination and subsequent degradation. Recently, compounds that reversibly disrupt the NRF2-KEAP1 interaction have been described, opening the field to a new era of safer NRF2 activators. This paper describes a set of new, robust and informative biochemical assays that enable the selection and optimization of non-covalent KEAP1 binders. These include a time-resolved fluorescence resonance energy transfer (TR-FRET) primary assay with high modularity and robustness, a surface plasmon resonance (SPR) based KEAP1 direct binding assay that enables the quantification and analysis of full kinetic binding parameters and finally a 1 H- 15 N heteronuclear single quantum coherence (HSQC) NMR assay suited to study the interaction surface of KEAP1 with residue-specific information to validate the interaction of ligands in the KEAP1 binding site. [ABSTRACT FROM AUTHOR]

Published
2017
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30. Contryphan-Vn: a modulator of Ca2+-dependent K+ channels

Author

Raybaudi Massilia, Gabriella, Eliseo, Tommaso, Grolleau, Francoise, Lapied, Bruno, Barbier, Julien, Bournaud, Roland, Molgó, Jordi, Cicero, Daniel Oscar, Paci, Maurizio, Eugenia Schininà, Maria, Ascenzi, Paolo, and Polticelli, Fabio

Subjects
*NEURONS, *NUCLEAR magnetic resonance
Abstract

Contryphan-Vn is a d-tryptophan-containing disulfide-constrained nonapeptide isolated from the venom of Conus ventricosus, the single Mediterranean cone snail species. The structure of the synthetic Contryphan-Vn has been determined by NMR spectroscopy. Unique among Contryphans, Contryphan-Vn displays the peculiar presence of a Lys–Trp dyad, reminiscent of that observed in several voltage-gated K+ channel blockers. Electrophysiological experiments carried out on dorsal unpaired median neurons isolated from the cockroach (Periplaneta americana) nerve cord on rat fetal chromaffin cells indicate that Contryphan-Vn affects both voltage-gated and Ca2+-dependent K+ channel activities, with composite and diversified effects in invertebrate and vertebrate systems. Voltage-gated and Ca2+-dependent K+ channels represent the first functional target identified for a conopeptide of the Contryphan family. Furthermore, Contryphan-Vn is the first conopeptide known to modulate the activity of Ca2+-dependent K+ channels. [Copyright &y& Elsevier]

Published
2003
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31. Microwave-assisted synthesis of catalytic silver nanoparticles by hyperpigmented tomato skins: A green approach.

Author

Carbone, Katya, De Angelis, Arianna, Mazzuca, Claudia, Santangelo, Enrico, Macchioni, Valentina, Cacciotti, Ilaria, Petrella, Greta, Cicero, Daniel Oscar, and Micheli, Laura

Subjects
*SILVER nanoparticles, *SCANNING electrochemical microscopy, *SURFACE plasmon resonance, *METHYLENE blue, *NANOPARTICLES, *TOMATOES
Abstract

A sustainable approach for the green synthesis of silver nanoparticles (AgNPs) using an aqueous extract of hyperpigmented tomato (Solanum lycopersicum L) skins (HTS) was described. AgNPs characterization and catalytic activity in the degradation of methylene blue were reported. The influence of some experimental parameters on synthesis, such as green extract concentration, pH, microwave irradiation time, as well as stabilization time, was investigated. HTS extract was initially characterized regarding its reducing potential, Fourier Transform Infrared (FTIR) molecular fingerprinting and 1H NMR metabolite profiling and then used as a reducing-stabilizing agent for the green synthesis of AgNPs. Furthermore, a comparative study, with chemically synthetized AgNPs, was carried out and the catalytic activity of synthesized nanoparticles in the reduction of methylene blue was studied by UV–visible spectrophotometer. Obtained AgNPs were analyzed by ultraviolet–visible spectroscopy, FTIR, scanning electron microscopy and electrochemical analyses (cyclic and anodic stripping voltammetry). In general, obtained AgNPs were spherical in shape, with a diameter ranging from 21 to 93 nm, and very stable over time. Interestingly, a red shift of the surface plasmon resonance of green nanoparticles was observed as the volume of the HTS extract increased. Lastly, an improved catalytic activity in the reduction of methylene blue was detected in the case of green synthesized nanoparticles, with respect to those conventionally produced. • Hyperpigmented tomato skins were used for silver nanoparticles production. • Hyperpigmented tomato skin extracts were analyzed by spectroscopic and chromatographic analyses. • Reducing sugars are the major reducing components in the extracts. • Obtained silver nanoparticles were fully characterized. • Green nanoparticles showed better catalytic properties than chemically synthetized counterparts. [ABSTRACT FROM AUTHOR]

Published
2020
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32. The grade of systemic inflammation, immune inhibition, and gut dysbiosis as prognostic factors for bladder cancer recurrence: a metabolomics approach.

Author

Petrella G, Ciufolini G, Lentini S, Montorsi F, Salonia A, Pieri M, Albisinni S, Vago R, and Cicero DO

Abstract

Background: The risk of recurrence for non-muscle invasive bladder cancer (NMIBC) is high, and the current methods of predicting it rely on clinical and histopathological markers. Personalized risk assessment can be improved by including new prognostic biomarkers. Our research explores the potential of urinary metabolomics to predict cancer recurrence in NMIBC patients within three years., Methods: Fifty NMIBC patients were included in the study. Urine samples were collected at diagnosis and before TUR-BT. After three years, patients were classified as relapsed or non-relapsed. An NMR-based metabolomics approach was used to measure the concentration of 44 metabolites in the urine of these patients at the time of their diagnosis. This method provides a comprehensive view of many urinary compounds potentially valuable for discriminating relapsing from non-relapsing patients. The measured metabolic profiles were analyzed through multivariate analysis, probability ROC curves, and Mann-Whitney tests., Results: Seven metabolites were involved in NMIBC recurrence prediction. We interpret their alteration as the consequence of three main events: gut dysbiosis, systemic inflammation, and immune inhibition. Since these compounds have already been proposed for BC diagnosis, what distinguishes their role as prognostic or diagnostic is the grade of their alteration. Limitations: small sample size; further research to confirm urinary compounds' correlation with physiological processes., Conclusions: This study exploits urinary metabolic profiles to predict NMIBC recurrence. Specific metabolites are found to be significantly related to cancer relapse. The study highlights the grade of inflammation, immune suppression, and gut dysbiosis in predicting cancer recurrence.

Published
2024
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33. Metabolic Reprogramming of Castration-Resistant Prostate Cancer Cells as a Response to Chemotherapy.

Author

Petrella G, Corsi F, Ciufolini G, Germini S, Capradossi F, Pelliccia A, Torino F, Ghibelli L, and Cicero DO

Abstract

Prostate cancer at the castration-resistant stage (CRPC) is a leading cause of death among men due to resistance to anticancer treatments, including chemotherapy. We set up an in vitro model of therapy-induced cancer repopulation and acquired cell resistance (CRAC) on etoposide-treated CRPC PC3 cells, witnessing therapy-induced epithelial-to-mesenchymal-transition (EMT) and chemoresistance among repopulating cells. Here, we explore the metabolic changes leading to chemo-induced CRAC, measuring the exchange rates cell/culture medium of 36 metabolites via Nuclear Magnetic Resonance spectroscopy. We studied the evolution of PC3 metabolism throughout recovery from etoposide, encompassing the degenerative, quiescent, and repopulating phases. We found that glycolysis is immediately shut off by etoposide, gradually recovering together with induction of EMT and repopulation. Instead, OXPHOS, already high in untreated PC3, is boosted by etoposide to decline afterward, though stably maintaining values higher than control. Notably, high levels of EMT, crucial in the acquisition of chemoresistance, coincide with a strong acceleration of metabolism, especially in the exchange of principal nutrients and their end products. These results provide novel information on the energy metabolism of cancer cells repopulating from cytotoxic drug treatment, paving the way for uncovering metabolic vulnerabilities to be possibly pharmacologically targeted and providing novel clinical options for CRPC.

Published
2022
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34. Drug effects on metabolic profiles of Schistosoma mansoni adult male parasites detected by 1H-NMR spectroscopy.

Author

Guidi A, Petrella G, Fustaino V, Saccoccia F, Lentini S, Gimmelli R, Di Pietro G, Bresciani A, Cicero DO, and Ruberti G

Subjects
Adult, Animals, Female, Humans, Male, Metabolome drug effects, Mice, Inbred ICR, Perhexiline administration & dosage, Perhexiline analogs & derivatives, Praziquantel administration & dosage, Schistosoma mansoni growth & development, Schistosomiasis mansoni parasitology, Anthelmintics administration & dosage, Drug Monitoring methods, Proton Magnetic Resonance Spectroscopy methods, Schistosoma mansoni drug effects, Schistosoma mansoni metabolism, Schistosomiasis mansoni drug therapy
Abstract

Schistosomiasis is one of the most devastating neglected tropical parasitic diseases caused by trematodes of the genus Schistosoma. Praziquantel (PZQ) is today the only drug used in humans and animals for the treatment of schistosomiasis but unfortunately it is poorly effective on larval and juvenile stages of the parasite. Therefore, it is urgent the discovery of new drug targets and compounds. We have recently showed that the anti-anginal drug perhexiline maleate (PHX) is very active on multiple developmental stages of Schistosoma mansoni in vitro. It is well known that PHX impacts the lipid metabolism in mammals, but the final target on schistosomes still remains unknown. The aim of this study was to evaluate the ability of 1H nuclear magnetic resonance (NMR) spectroscopy in revealing metabolic perturbations due to PHX treatment of S. mansoni adult male worms. The effects of PHX were compared with the ones induced by vehicle and gambogic acid, in order to detect different metabolic profiles and specificity of the PHX action. Remarkably a list of metabolites associated to PHX-treatment was identified with enrichment in several connected metabolic pathways including also the Kennedy pathway mediating the glycerophospholipid metabolism. Our study represents the first 1H-NMR metabolomic approach to characterize the response of S. mansoni to drug treatment. The obtained "metabolic fingerprint" associated to PHX treatment could represent a strategy for displaying cellular metabolic changes for any given drug and to compare compounds targeting similar or distinct biochemical pathways., Competing Interests: The authors have declared that no competing interests exist.

Published
2020
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35. Solution structure of the cyclic peptide contryphan-Vn, a Ca2+-dependent K+ channel modulator.

Author

Eliseo T, Cicero DO, Romeo C, Schininà ME, Massilia GR, Polticelli F, Ascenzi P, and Paci M

Subjects
Animals, Calcium metabolism, Magnetic Resonance Spectroscopy, Models, Molecular, Mollusk Venoms chemistry, Mollusk Venoms metabolism, Peptides, Cyclic metabolism, Potassium metabolism, Snails chemistry, Snails metabolism, Peptides, Cyclic chemistry, Potassium Channels, Calcium-Activated metabolism
Abstract

The solution structure of contryphan-Vn, a cyclic peptide with a double cysteine S-S bridge and containing a D-tryptophan extracted from the venom of the cone snail Conus ventricosus, has been determined by NMR spectroscopy using a variety of homonuclear and heteronuclear NMR methods and restrained molecular dynamics simulations. The main conformational features of backbone contryphan-Vn are a type IV beta-turn from Gly 1 to Lys 6 and a type I beta-turn from Lys 6 to Cys 9. As already found in other contryphans, one of the two prolines--the Pro4--is mainly in the cis conformation while Pro7 is trans. A small hydrophobic region probably partly shielded from solvent constituted from the close proximity of side chains of Pro7 and Trp8 was observed together with a persistent salt bridge between Asp2 and Lys6, which has been revealed by the diagnostic observation of specific nuclear Overhauser effects. The salt bridge was used as a restraint in the molecular dynamics in vacuum but without inserting explicit electrostatic contribution in the calculations. The backbone of the unique conformational family found of contryphan-Vn superimposes well with those of contryphan-Sm and contryphan-R. This result indicates that the contryphan structural motif represents a robust and conserved molecular scaffold whose main structural determinants are the size of the intercysteine loop and the presence and location in the sequence of the D-Trp and the two Pro residues., (Copyright 2004 Wiley Periodicals, Inc. Biopolymers, 2004)

Published
2004
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36. Structural rearrangements of the two domains of Azotobacter vinelandii rhodanese upon sulfane sulfur release: essential molecular dynamics, 15N NMR relaxation and deuterium exchange on the uniformly labeled protein.

Author

Cicero DO, Melino S, Orsale M, Brancato G, Amadei A, Forlani F, Pagani S, and Paci M

Subjects
Computer Simulation, Deuterium, Isotope Labeling, Magnetic Resonance Spectroscopy, Models, Molecular, Nitrogen Isotopes, Protein Conformation, Solvents, Sulfur chemistry, Azotobacter vinelandii enzymology, Thiosulfate Sulfurtransferase chemistry
Abstract

The Azotobacter vinelandii rhodanese is a 31kDa sulfurtransferase protein that catalyzes the transfer of sulfur atom from thiosulfate to cyanide in the detoxification process from cyanide and is able to insert sulfur atom in the iron-sulfur cluster. A study of the uniformly 15N isotopic labeling by high resolution NMR, before obtaining the backbone sequential assignment, has been carried out. The sulfur loaded and the sulfur discharged forms of the enzyme show very similar HSQC spectra with a good spectral dispersion. Few resonances show changes in chemical shift between the two forms. Relaxation parameters T(1), T(2) and 1H-15N NOE of all amide nitrogen atoms, as well as isotope exchange kinetics, show that the two forms exhibit the same global correlation time and hydrodynamic properties. In parallel, essential dynamics studies show that formation and discharging of catalytic cysteine persulfide group has no significant impact on the overall conformation of the protein. These results, taken together, give a clearcut answer to the question if the catalytic mechanism of the enzyme involves a change in the conformation and/or in the mutual orientation of the two domains. On the contrary these results clearly indicate that upon the catalytic mechanism the two domains of the protein behave as a unique fold.

Published
2003
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37. Contryphan-Vn: a modulator of Ca2+-dependent K+ channels.

Author

Massilia GR, Eliseo T, Grolleau F, Lapied B, Barbier J, Bournaud R, Molgó J, Cicero DO, Paci M, Schininà ME, Ascenzi P, and Polticelli F

Subjects
Animals, Cell Line, Cell Line, Transformed, Chromaffin Cells drug effects, Chromaffin Cells metabolism, Electrophysiology, Humans, Magnetic Resonance Spectroscopy, Models, Molecular, Mollusk Venoms, Neurons drug effects, Neurons metabolism, Patch-Clamp Techniques, Rats, Snails metabolism, Time Factors, Calcium metabolism, Peptides, Cyclic metabolism, Peptides, Cyclic physiology, Potassium Channels metabolism
Abstract

Contryphan-Vn is a D-tryptophan-containing disulfide-constrained nonapeptide isolated from the venom of Conus ventricosus, the single Mediterranean cone snail species. The structure of the synthetic Contryphan-Vn has been determined by NMR spectroscopy. Unique among Contryphans, Contryphan-Vn displays the peculiar presence of a Lys-Trp dyad, reminiscent of that observed in several voltage-gated K(+) channel blockers. Electrophysiological experiments carried out on dorsal unpaired median neurons isolated from the cockroach (Periplaneta americana) nerve cord on rat fetal chromaffin cells indicate that Contryphan-Vn affects both voltage-gated and Ca(2+)-dependent K(+) channel activities, with composite and diversified effects in invertebrate and vertebrate systems. Voltage-gated and Ca(2+)-dependent K(+) channels represent the first functional target identified for a conopeptide of the Contryphan family. Furthermore, Contryphan-Vn is the first conopeptide known to modulate the activity of Ca(2+)-dependent K(+) channels.

Published
2003
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