Your search keyword '"Pioli M"' showing total 16 results

1. Prevalence of somatoform disorders in a psychiatric population: an Italian nationwide survey

Author

Altamura, A. C., Carta, M. G., Tacchini, G., Musazzi, A., Pioli, M. R., and the Italian Collaborative Group on Somatoform Disorders

Published

1998

2. White coat syndrome and its variations: differences and clinical impact

Author

Pioli MR, Ritter AMV, de Faria AP, and Modolo R

Subjects

Hypertension, white coat effect, white coat hypertension, masked hypertension, cardiovascular risk, Internal medicine, RC31-1245

Abstract

Mariana R Pioli,1 Alessandra MV Ritter,1 Ana Paula de Faria,1 Rodrigo Modolo1,2 1Department of Pharmacology, School of Medical Sciences, University of Campinas (UNICAMP), Campinas, Sao Paulo, Brazil; 2Laboratory of Cardiac Catheterization, Department of Internal Medicine, Cardiology Division, School of Medical Sciences, University of Campinas (UNICAMP), Campinas, Sao Paulo, Brazil Abstract: Hypertension is closely linked to increased cardiovascular risk and development of target organ damage (TOD). Therefore, proper clinical follow-up and treatment of hypertensive subjects are mandatory. A great number of individuals present a variation on blood pressure (BP) levels when they are assessed either in the office or in the out-of-office settings. This phenomenon is defined as white coat syndrome – a change in BP levels due to the presence of a physician or other health professional. In this context, the term “white coat syndrome” may refer to three important and different clinical conditions: 1) white coat hypertension, 2) white coat effect, and 3) masked hypertension. The development of TOD and the increased cardiovascular risk play different roles in these specific subgroups of white coat syndrome. Correct diagnose and clinical guidance are essential to improve the prognosis of these patients. The aim of this review was to elucidate contemporary aspects of these types of white coat syndrome on general and hypertensive population. Keywords: hypertension, white coat effect, white coat hypertension, masked hypertension, cardiovascular risk

Published

2018

3. Light Triggers the Antiproliferative Activity of Naphthalimide-Conjugated (η 6 -arene)ruthenium(II) Complexes.

Author

Bisceglie F, Pelosi G, Orsoni N, Pioli M, Carcelli M, Pelagatti P, Pinelli S, and Sadler PJ

Subjects

A549 Cells, Cell Line, Tumor, Humans, Ligands, Molecular Structure, Naphthalimides pharmacology, Antineoplastic Agents pharmacology, Coordination Complexes pharmacology, Ruthenium pharmacology

Abstract

We report the synthesis and characterization of three half-sandwich Ru(II) arene complexes [(η 6 -arene)Ru(N,N')L][PF 6 ] 2 containing arene = p-cymene, N,N' = bipyridine, and L = pyridine meta- with methylenenaphthalimide (C1), methylene(nitro)naphthalimide (C2), or methylene(piperidinyl)naphthalimide (C3). The naphthalimide acts as an antenna for photoactivation. After 3 h of irradiation with blue light, the monodentate pyridyl ligand had almost completely dissociated from complex C3, which contains an electron donor on the naphthalimide ring, whereas only 50% dissociation was observed for C1 and C2. This correlates with the lower wavelength and strong absorption of C3 in this region of the spectrum (λ max = 418 nm) compared with C1 and C2 (λ max = 324 and 323 nm, respectively). All the complexes were relatively non-toxic towards A549 human lung cancer cells in the dark, but only complex C3 exhibited good photocytoxicity towards these cancer cells upon irradiation with blue light (IC 50 = 10.55 ± 0.30 μM). Complex C3 has the potential for use in photoactivated chemotherapy (PACT).

Published

2022

4. Mechanochemical Preparation of Dipyridyl-Naphthalenediimide Cocrystals: Relative Role of Halogen-Bond and π-π Interactions.

Author

Mazzeo PP, Pioli M, Montisci F, Bacchi A, and Pelagatti P

Abstract

Naphthalenediimide derivates are a class of π-conjugated molecules largely investigated in the literature and used as building blocks for metal-organic frameworks or coformers for hydrogen-bond-based cocrystals. However, their tendency to establish halogen-bond interactions remains unexplored. By using a crystalline engineering approach, we report here four new cocrystals with N , N '-di(4-pyrydyl)-naphthalene-1,4,5,8-tetracarboxidiimide and diiodo-substituted coformers, easily obtained via a mechanochemical protocol. Cocrystals were characterized via NMR, electron ionization mass spectrometry, thermogravimetric analysis, powder X-ray diffraction, and single-crystal X-ray diffraction. Crystallographic structures were then finely examined and correlated with energy framework calculations to understand the relative contribution of halogen-bond and π-π interactions toward framework stabilization., Competing Interests: The authors declare no competing financial interest., (© 2021 The Authors. Published by American Chemical Society.)

Published

2021

5. The AFLATOX ® Project: Approaching the Development of New Generation, Natural-Based Compounds for the Containment of the Mycotoxigenic Phytopathogen Aspergillus flavus and Aflatoxin Contamination.

Author

Montalbano S, Degola F, Bartoli J, Bisceglie F, Buschini A, Carcelli M, Feretti D, Galati S, Marchi L, Orsoni N, Pelosi G, Pioli M, Restivo FM, Rogolino D, Scaccaglia M, Serra O, Spadola G, Viola GCV, Zerbini I, and Zani C

Subjects

Aflatoxins toxicity, Antifungal Agents pharmacology, Aspergillus metabolism, Aspergillus pathogenicity, Aspergillus flavus isolation & purification, Aspergillus flavus metabolism, Aspergillus flavus pathogenicity, Crops, Agricultural microbiology, Ecosystem, Food Contamination prevention & control, Fungi drug effects, Fungicides, Industrial pharmacology, Humans, Mycotoxins toxicity, Thiosemicarbazones chemistry, Aflatoxins chemistry, Aflatoxins isolation & purification, Aspergillus flavus chemistry

Abstract

The control of the fungal contamination on crops is considered a priority by the sanitary authorities of an increasing number of countries, and this is also due to the fact that the geographic areas interested in mycotoxin outbreaks are widening. Among the different pre- and post-harvest strategies that may be applied to prevent fungal and/or aflatoxin contamination, fungicides still play a prominent role; however, despite of countless efforts, to date the problem of food and feed contamination remains unsolved, since the essential factors that affect aflatoxins production are various and hardly to handle as a whole. In this scenario, the exploitation of bioactive natural sources to obtain new agents presenting novel mechanisms of action may represent a successful strategy to minimize, at the same time, aflatoxin contamination and the use of toxic pesticides. The Aflatox ® Project was aimed at the development of new-generation inhibitors of aflatoxigenic Aspergillus spp. proliferation and toxin production, through the modification of naturally occurring molecules: a panel of 177 compounds, belonging to the thiosemicarbazones class, have been synthesized and screened for their antifungal and anti-aflatoxigenic potential. The most effective compounds, selected as the best candidates as aflatoxin containment agents, were also evaluated in terms of cytotoxicity, genotoxicity and epi-genotoxicity to exclude potential harmful effect on the human health, the plants on which fungi grow and the whole ecosystem.

Published

2021

6. A New Photoactivatable Ruthenium(II) Complex with an Asymmetric Bis-Thiocarbohydrazone: Chemical and Biological Investigations.

Author

Pioli M, Orsoni N, Scaccaglia M, Alinovi R, Pinelli S, Pelosi G, and Bisceglie F

Subjects

A549 Cells, Antineoplastic Agents chemistry, Coordination Complexes chemistry, Copper chemistry, Humans, Molecular Structure, Nickel chemistry, Antineoplastic Agents pharmacology, Coordination Complexes pharmacology, Hydrazones chemistry, Organometallic Compounds chemistry, Organometallic Compounds pharmacology, Ruthenium chemistry

Abstract

The synthesis, photoactivation and biological activity of a new piano-stool Ru(II) complex is herein reported. The peculiarity of this complex is that its monodentate ligand which undergoes the photodissociation is an asymmetric bis-thiocarbohydrazone ligand that possesses a pyridine moiety binding to Ru(II) and the other moiety contains a quinoline that endows the ligand with the capacity of chelating other metal ions. In this way, upon dissociation, the ligand can be released in the form of a metal complex. In this article, the double ability of this new Ru(II) complex to photorelease the ligand and to chelate copper and nickel is explored and confirmed. The biological activity of this compound is studied in cell line A549 revealing that, after irradiation, proliferation inhibition is reached at very low half maximal inhibitory concentration (IC 50 ) values. Further, biological assays reveal that the dinuclear complex containing Ni is internalized in cells.

Published

2021

7. Sisters in structure but different in character, some benzaldehyde and cinnamaldehyde derivatives differentially tune Aspergillus flavus secondary metabolism.

Author

Bisceglie F, Degola F, Rogolino D, Giannelli G, Orsoni N, Spadola G, Pioli M, Restivo FM, Carcelli M, and Pelosi G

Subjects

Acrolein chemistry, Acrolein metabolism, Aflatoxins biosynthesis, Aspergillus flavus genetics, Benzaldehydes metabolism, Databases, Protein, Molecular Structure, RNA, Fungal genetics, Saccharomyces cerevisiae metabolism, Spectrum Analysis methods, Acrolein analogs & derivatives, Aspergillus flavus metabolism, Benzaldehydes chemistry

Abstract

Great are the expectations for a new generation of antimicrobials, and strenuous are the research efforts towards the exploration of diverse molecular scaffolds-possibly of natural origin - aimed at the synthesis of new compounds against the spread of hazardous fungi. Also high but winding are the paths leading to the definition of biological targets specifically fitting the drug's structural characteristics. The present study is addressed to inspect differential biological behaviours of cinnamaldehyde and benzaldehyde thiosemicarbazone scaffolds, exploiting the secondary metabolism of the mycotoxigenic phytopathogen Aspergillus flavus. Interestingly, owing to modifications on the parent chemical scaffold, some thiosemicarbazones displayed an increased specificity against one or more developmental processes (conidia germination, aflatoxin biosynthesis, sclerotia production) of A. flavus biology. Through the comparative analysis of results, the ligand-based screening strategy here described has allowed us to delineate which modifications are more promising for distinct purposes: from the control of mycotoxins contamination in food and feed commodities, to the environmental management of microbial pathogens, to the investigation of specific structure-activity features for new generation drug discovery.

Published

2020

8. Antibacterial activity of metal complexes based on cinnamaldehyde thiosemicarbazone analogues.

Author

Bisceglie F, Bacci C, Vismarra A, Barilli E, Pioli M, Orsoni N, and Pelosi G

Subjects

Anti-Bacterial Agents chemical synthesis, Coordination Complexes chemical synthesis, Copper chemistry, Escherichia coli drug effects, Klebsiella pneumoniae drug effects, Microbial Sensitivity Tests, Thiosemicarbazones chemical synthesis, Zinc chemistry, Anti-Bacterial Agents pharmacology, Coordination Complexes pharmacology, Thiosemicarbazones pharmacology

Abstract

The development of microbial antibiotic resistance has become one of the biggest threats to global health and the search for new molecules active against resistant pathogenic strains is a challenge that must be tackled. In many cases nosocomial infections are caused by bacteria characterized by multi-drug resistance patterns and by their ability to produce biofilms. These properties lead to the persistence of pathogens in the hospital environment. This paper reports the synthesis and characterization of three thiosemicarbazone derivatives based on a compound containing the cinnamaldehyde natural scaffold but possessing different logPow values. These molecules are then used as ligands to prepare complexes of the Cu(II) and Zn(II) ions. All these compounds, ligands and complexes, were screened in vitro on stains of Escherichia coli and Klebsiella pneumoniae for their antibacterial activity. Despite their molecular similarity they revealed variegated behaviors. Only two of them present interesting antimicrobial properties and have also been studied to verify their stability in solution. The compound with the lowest partition coefficient is the most promising. The minimal bactericidal concentration on K. pneumoniae and E. coli of these substances are very interesting and demonstrate that the use of metalloantibiotics is a promising device to fight antibiotic resistance., Competing Interests: Declaration of competing interest There are no conflicts to declare., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2020

9. Cytotoxic activity of copper(ii), nickel(ii) and platinum(ii) thiosemicarbazone derivatives: interaction with DNA and the H2A histone peptide.

Author

Bisceglie F, Orsoni N, Pioli M, Bonati B, Tarasconi P, Rivetti C, Amidani D, Montalbano S, Buschini A, and Pelosi G

Subjects

Antineoplastic Agents chemistry, Cell Line, Tumor, Coordination Complexes chemistry, Coordination Complexes pharmacology, Copper chemistry, DNA metabolism, Histones metabolism, Humans, Neoplasms drug therapy, Neoplasms metabolism, Nickel chemistry, Platinum chemistry, Thiosemicarbazones chemistry, Antineoplastic Agents pharmacology, Copper pharmacology, Nickel pharmacology, Platinum pharmacology, Thiosemicarbazones pharmacology

Abstract

Metal complexes still represent promising pharmacological tools in the development of new anticancer drugs. Bis(citronellalthiosemicarbazonate)nickel(ii) is a metal compound extremely effective against leukemic and NCS cancer cell lines. Preliminary experiments performed with this compound and with its Cu(ii) and Pt(ii) analogues evidenced alterations, detectable by comet assay, in the DNA of treated U937 cells. In addition, [Cu(tcitr)2] and [Pt(tcitr)2] were also able to induce gene mutations and produce frameshift events. To gain further insights into the mechanism of action of these metal compounds, we carried out a multidisciplinary study to investigate whether their biological activity can be ascribed to the direct interaction with DNA or with chromatin. The DNA interaction was investigated by means of CD and UV-Vis spectroscopic techniques and by AFM, whereas the chromatin interaction was studied by analyzing the effects of the compounds on the structure of a peptide that mimicks the potential metal binding site in the "C-tail" region of histone H2A by means of NMR, CD, UV-Vis and MS. The intensities of the effects induced by the metal compounds on the peptide follow the order [Ni(tcitr)2] > [Pt(tcitr)2] ≫ [Cu(tcitr)2]. From the AFM data, a remarkable DNA compaction was observed in the presence of [Pt(tcitr)2], while [Ni(tcitr)2] causes the formation of large interlaced DNA aggregates.

Published

2019

10. Sabotage at the Powerhouse? Unraveling the Molecular Target of 2-Isopropylbenzaldehyde Thiosemicarbazone, a Specific Inhibitor of Aflatoxin Biosynthesis and Sclerotia Development in Aspergillus flavus , Using Yeast as a Model System.

Author

Dallabona C, Pioli M, Spadola G, Orsoni N, Bisceglie F, Lodi T, Pelosi G, Restivo FM, and Degola F

Subjects

Aflatoxins biosynthesis, Antifungal Agents chemistry, Aspergillus flavus drug effects, Aspergillus flavus enzymology, Aspergillus flavus genetics, Binding Sites, Electron Transport drug effects, Electron Transport Complex III antagonists & inhibitors, Electron Transport Complex III chemistry, Electron Transport Complex III genetics, Electron Transport Complex III metabolism, Fungal Proteins antagonists & inhibitors, Fungal Proteins chemistry, Fungal Proteins genetics, Fungal Proteins metabolism, Mitochondria metabolism, Models, Biological, Molecular Docking Simulation, Multigene Family, Protein Binding, Saccharomyces cerevisiae enzymology, Saccharomyces cerevisiae genetics, Thiosemicarbazones chemistry, Aflatoxins antagonists & inhibitors, Antifungal Agents pharmacology, Gene Expression Regulation, Fungal, Mitochondria drug effects, Saccharomyces cerevisiae drug effects, Thiosemicarbazones pharmacology

Abstract

Amongst the various approaches to contain aflatoxin contamination of feed and food commodities, the use of inhibitors of fungal growth and/or toxin biosynthesis is showing great promise for the implementation or the replacement of conventional pesticide-based strategies. Several inhibition mechanisms were found taking place at different levels in the biology of the aflatoxin-producing fungal species such as Aspergillus flavus : compounds that influence aflatoxin production may block the biosynthetic pathway through the direct control of genes belonging to the aflatoxin gene cluster, or interfere with one or more of the several steps involved in the aflatoxin metabolism upstream. Recent findings pointed to mitochondrial functionality as one of the potential targets of some aflatoxin inhibitors. Additionally, we have recently reported that the effect of a compound belonging to the class of thiosemicarbazones might be related to the energy generation/carbon flow and redox homeostasis control by the fungal cell. Here, we report our investigation about a putative molecular target of the 3-isopropylbenzaldehyde thiosemicarbazone (mHtcum), using the yeast Saccharomyces cerevisiae as model system, to demonstrate how the compound can actually interfere with the mitochondrial respiratory chain.

Published

2019

11. Structural modification of cuminaldehyde thiosemicarbazone increases inhibition specificity toward aflatoxin biosynthesis and sclerotia development in Aspergillus flavus.

Author

Degola F, Bisceglie F, Pioli M, Palmano S, Elviri L, Pelosi G, Lodi T, and Restivo FM

Subjects

Aspergillus flavus genetics, Crops, Agricultural, Cymenes, Gene Expression Regulation, Fungal, Proteomics, Saccharomyces cerevisiae genetics, Saccharomyces cerevisiae metabolism, Aflatoxin B1 biosynthesis, Aspergillus flavus metabolism, Benzaldehydes chemistry, Thiosemicarbazones chemistry

Abstract

Aspergillus flavus is an opportunistic mold that represents a serious threat for human and animal health due to its ability to synthesize and release, on food and feed commodities, different toxic secondary metabolites. Among them, aflatoxin B1 is one of the most dangerous since it is provided with a strong cancerogenic and mutagenic activity. Controlling fungal contamination on the different crops that may host A. flavus is considered a priority by sanitary authorities of an increasing number of countries due also to the fact that, owing to global temperature increase, the geographic areas that are expected to be prone to experience sudden A. flavus outbreaks are widening. Among the different pre- and post-harvest strategies that may be put forward in order to prevent fungal and/or mycotoxin contamination, fungicides are still considered a prominent weapon. We have here analyzed different structural modifications of a natural-derived compound (cuminaldehyde thiosemicarbazone) for their fungistatic and anti-aflatoxigenic activity. In particular, we have focused our attention on one of the compound that presented a prominent anti-aflatoxin specificity, and performed a set of physiological and molecular analyses, taking also advantage of yeast (Saccharomyces cerevisiae) cell as an experimental model.

Published

2017

12. A battery of assays as an integrated approach to evaluate fungal and mycotoxin inhibition properties and cytotoxic/genotoxic side-effects for the prioritization in the screening of thiosemicarbazone derivatives.

Author

Zani C, Bisceglie F, Restivo FM, Feretti D, Pioli M, Degola F, Montalbano S, Galati S, Pelosi G, Viola GVC, Carcelli M, Rogolino D, Ceretti E, and Buschini A

Subjects

Antifungal Agents adverse effects, Cell Line, Cell Survival drug effects, DNA Damage drug effects, Drug Evaluation, Drug Evaluation, Preclinical, Fungi metabolism, Humans, Microbial Sensitivity Tests, Mutagens adverse effects, Mutagens chemistry, Mutagens pharmacology, Thiosemicarbazones adverse effects, Antifungal Agents chemistry, Antifungal Agents pharmacology, Fungi drug effects, Mycotoxins metabolism, Thiosemicarbazones chemistry, Thiosemicarbazones pharmacology

Abstract

Aflatoxins represent a serious problem for a food economy based on cereal cultivations used to fodder animal and for human nutrition. The aims of our work are two-fold: first, to perform an evaluation of the activity of newly synthesized thiosemicarbazone compounds as antifungal and anti-mycotoxin agents and, second, to conduct studies on the toxic and genotoxic hazard potentials with a battery of tests with different endpoints. In this paper we report an initial study on two molecules: S-4-isopropenylcyclohexen-1-carbaldehydethiosemicarbazone and its metal complex, bis(S-4-isopropenylcyclohexen-1-carbaldehydethiosemicarbazonato)nickel (II). The outcome of the assays on fungi growth and aflatoxin production inhibition show that both molecules possess good antifungal activities, without inducing mutagenic effects on bacteria. From the assays to ascertain that the compounds have no adverse effects on human cells, we have found that they are cytotoxic and, in the case of the nickel compound, they also present genotoxic effects., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017

13. Autophagy and apoptosis: studies on the effects of bisthiosemicarbazone copper(ii) complexes on p53 and p53-null tumour cell lines.

Author

Bisceglie F, Alinovi R, Pinelli S, Galetti M, Pioli M, Tarasconi P, Mutti A, Goldoni M, and Pelosi G

Subjects

Cell Cycle drug effects, Cell Line, Tumor, Copper chemistry, Humans, Oxidative Stress drug effects, Spectrum Analysis, Thiosemicarbazones chemistry, Apoptosis drug effects, Autophagy drug effects, Genes, p53, Thiosemicarbazones pharmacology

Abstract

A comparative study between two bisthiosemicarbazones, 2,3-butanedione bis(4,4-dimethyl-3-thiosemicarbazone) and 2,3-butanedione bis(2-methyl-3-thiosemicarbazone), and their copper(ii) complexes is reported. The four compounds have been tested on a leukemia cell line U937 (p53-null) and on an adenocarcinoma cell line A549. The study includes cell viability, cell cycle, morphological changes, assessment of apoptosis, analysis of autophagy, measurement of reactive oxygen species (ROS) and of lipid peroxidation, protein determination, assessment of the expression of p53 and cellular uptake of metal complexes. Tests about the copper uptake under normoxic and hypoxic conditions were also carried out on a solid tumour cell line A549. The four compounds under study elicit different effects on the two lines adopted as representatives of p53 and p53-null cells. The role of the metal is relevant and it is likely that the metal-mediated oxidative stress plays an essential role in the whole process. The mechanisms induced by these molecules differ not only as a function of the cell line but also of dose. The responses include two distinct self-destructive processes, autophagy and apoptosis.

Published

2016

14. A proposal for an alternative quality control test procedure for inactivated vaccines against food-and-mouth disease virus.

Author

Molin-Capeti KC, Sepulveda L, Terra F, Torres-Pioli MF, Costa-Casagrande T, França SC, and Thomaz-Soccol V

Subjects

Animals, Antibodies, Viral blood, Biological Assay methods, Brazil, Foot-and-Mouth Disease immunology, Mice, Mice, Inbred BALB C, Quality Control, Vaccines, Inactivated immunology, Foot-and-Mouth Disease prevention & control, Foot-and-Mouth Disease Virus immunology, Technology, Pharmaceutical methods, Technology, Pharmaceutical standards, Viral Vaccines immunology

Abstract

Foot-and-mouth disease (FMD) control in Brazil includes a strict mandatory vaccination program with vaccines produced in certified laboratories subject to inspection by the Brazilian Ministry of Agriculture, Livestock, and Food Supply (MAPA). The FMD vaccine's potency is tested through antibodies titration against structural viral proteins in sera from cattle that have not had any exposure to food-and-mouth disease virus (FMDV), at 28 days post-vaccination. Biological product testing using large animals is expensive and unwieldy. Thus, alternative testing procedures using laboratory animals have been proposed for quality control of these products. Such biological methods for vaccine evaluation using animals from vivarium facilities can have a significant impact through reduced costs, easier handling, and shorter testing times. The present study was designed to access Balb/C mice's humoral immune responses to a FMDV experimental vaccine, the composition of which contains three virus serotypes of FMDV (O1 Campos, A24 Cruzeiro, and C3 Indaial). Balb/C mice were immunized at doses that were 5% and 10% of the vaccine volume administered in cattle. Immunized mice had their antibody titers probed at 14, 21, and 28 DPV (days post vaccination). The results obtained were compared to those previously known from cattle's immune responses to the FMDV vaccine. An adequate immune response to the vaccine was seen with 10% formulation at 21 DPV. The study results are encouraging and indicate that the mouse model can be used for quality control in experimental vaccine testing., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published

2013

15. [Nosographic picture of Klippel-Feil syndrome and a description of a clinical case associated with hypoacusis].

Author

Oggero R, Bertoletti MT, Pioli M, and Giorla F

Subjects

Hearing Disorders etiology, Humans, Infant, Klippel-Feil Syndrome etiology, Male, Hearing Disorders pathology, Klippel-Feil Syndrome pathology

Published

1982

16. [Serum levels of IgA and celiac disease. Case reports].

Author

Oggero R, Balbo R, Galvagno G, Parisi E, Ricca V, Pioli M, Guardamagna O, and Lisi M

Subjects

Dysgammaglobulinemia immunology, Humans, IgA Deficiency, Infant, Celiac Disease immunology, Immunoglobulin A analysis

Published

1982