Your search keyword '"Bragadin, M."' showing total 10 results

1. Further characterization of agmatine binding to mitochondrial membranes: involvement of imidazoline I2 receptor.

Author

Martinis P, Battaglia V, Grancara S, Dalla Via L, Di Noto V, Saccoccio S, Agostinelli E, Bragadin M, Grillo MA, and Toninello A

Subjects

Animals, Binding Sites, Thermodynamics, Agmatine metabolism, Imidazoline Receptors metabolism, Mitochondria metabolism

Abstract

Agmatine, a divalent diamine with two positive charges at physiological pH, is transported into the matrix of liver mitochondria by an energy-dependent mechanism, the driving force of which is the electrical membrane potential. Its binding to mitochondrial membranes is studied by applying a thermodynamic treatment of ligand-receptor interactions on the analyses of Scatchard and Hill. The presence of two mono-coordinated binding sites S(1) and S(2), with a negative influence of S(2) on S(1), has been demonstrated. The calculated binding energy is characteristic for weak interactions. S(1) exhibits a lower binding capacity and higher binding affinity both of about two orders of magnitude than S(2). Experiments with idazoxan, a ligand of the mitochondrial imidazoline receptor I(2), demonstrate that S(1) site is localized on this receptor while S(2) is localized on the transport system. S(1) would act as a sensor of exogenous agmatine concentration, thus modulating the transport of the amine by its binding to S(2).

Published

2012

2. Effect of peroxides on spermine transport in rat brain and liver mitochondria.

Author

Battaglia V, Tibaldi E, Grancara S, Zonta F, Brunati AM, Martinis P, Bragadin M, Grillo MA, Tempera G, Agostinelli E, and Toninello A

Subjects

Animals, Biological Transport, Phosphorylation, Rats, Rats, Wistar, Tyrosine metabolism, Brain metabolism, Liver metabolism, Mitochondria metabolism, Peroxides pharmacology, Spermine pharmacology

Abstract

The polyamine spermine is transported into the matrix of various types of mitochondria by a specific uniporter system identified as a protein channel. This mechanism is regulated by the membrane potential; other regulatory effectors are unknown. This study analyzes the transport of spermine in the presence of peroxides in both isolated rat liver and brain mitochondria, in order to evaluate the involvement of the redox state in this mechanism, and to compare its effect in both types of mitochondria. In liver mitochondria peroxides are able to inhibit spermine transport. This effect is indicative of redox regulation by the transporter, probably due to the presence of critical thiol groups along the transport pathway, or in close association with it, with different accessibility for the peroxides and performing different functions. In brain mitochondria, peroxides have several effects, supporting the hypothesis of a different regulation of spermine transport. The fact that peroxovanadate can inhibit tyrosine phosphatases in brain mitochondria suggests that mitochondrial spermine transport is regulated by tyrosine phosphorylation in this organ. In this regard, the evaluation of spermine transport in the presence of Src inhibitors suggests the involvement of Src family kinases in this process. It is possible that phosphorylation sites for Src kinases are present in the channel pathway and have an inhibitory effect on spermine transport under regulation by Src kinases. The results of this study suggest that the activity of the spermine transporter probably depends on the redox and/or tyrosine phosphorylation state of mitochondria, and that its regulation may be different in distinct organs.

Published

2012

3. The interactions of cetyltrimethylammonium with mitochondria: an uncoupler or a detergent?

Author

Bragadin M, Moret I, Piazza R, Grasso M, and Manente S

Subjects

Animals, Cell Membrane Permeability, Cell Respiration drug effects, Cetrimonium Compounds adverse effects, Detergents adverse effects, Male, Mitochondria pathology, Oxidation-Reduction, Phosphorylation, Rats, Rats, Wistar, Uncoupling Agents adverse effects, Cetrimonium Compounds pharmacokinetics, Detergents pharmacokinetics, Mitochondria drug effects, Uncoupling Agents pharmacokinetics

Abstract

The interactions of cetyltrimethylammonium (CTA) with mitochondria have been investigated. We confirm, as already observed in a previous paper, that this compound behaves as proton carrier (or uncoupler) of the oxidative phosphorylation, but evidences suggest that this compound enhances the membrane permeability to many other compounds such as sucrose. We conclude therefore that CTA as a detergent enhances membrane permeability to all ions including protons. Some evidences are also given that the inhibitory effect of CTA on the mitochondrial respiratory chain is a consequence of the swelling induced.

Published

2002

4. An in vitro study on the toxic effects of nonylphenols (NP) in mitochondria.

Author

Bragadin M, Perin G, Iero A, Manente S, Rizzoli V, and Scutari G

Subjects

Animals, Biodegradation, Environmental, Detergents pharmacokinetics, Dose-Response Relationship, Drug, Liver drug effects, Mitochondria drug effects, Phenols pharmacokinetics, Rats, Rats, Wistar, Uncoupling Agents metabolism, Detergents toxicity, Mitochondria metabolism, Phenols toxicity

Abstract

This paper is focused on alkylphenols, compounds which are formed by the biodegradation of polyethoxilatedalkylphenols detergents. Our experiments show that alkylphenols act not only as detergents, but also as uncouplers of the oxidative phosphorylation. This effect, can be observed at very low doses, thus suggesting that the preferential target of nonylphenols in living organisms are mitochondria.

Published

1999

5. H+/site ratio and steady state distribution of divalent cations in mitochondria.

Author

Azzone GF, Pozzan T, Massari S, Bragadin M, and Dell'Antone P

Subjects

Aerobiosis, Anaerobiosis, Biological Transport, Calcium metabolism, Ethylmaleimide pharmacology, Models, Biological, Permeability, Phosphates metabolism, Thermodynamics, Cations, Divalent, Mitochondria metabolism, Protons

Published

1977

6. Effect of P-lipase C on the structure and function of mitochondria and sonic fragments.

Author

Azzone GF, Viola E, Strinna E, and Bragadin M

Subjects

Carbonyl Cyanide p-Trifluoromethoxyphenylhydrazone pharmacology, Electron Spin Resonance Spectroscopy, Kinetics, Membranes drug effects, Membranes metabolism, Membranes ultrastructure, Mitochondria drug effects, Mitochondria ultrastructure, Mitochondrial Swelling drug effects, Mitochondria metabolism, Phospholipases pharmacology

Published

1976

7. H + /site, Charge/Site, and ATP/Site Ratios in Mitochondrial Electron Transport

Author

Pozzan, T., Di Virgilio, F., Bragadin, M., Miconi, V., and Azzone, G. F.

Published

1979

8. Interactions of melatonin with mammalian mitochondria. Reducer of energy capacity and amplifier of permeability transition

Author

Martinis, P., Zago, L., Maritati, M., Battaglia, V., Grancara, S., Rizzoli, V., Agostinelli, E., Bragadin, M., and Toninello, A.

Published

2012

9. Tributyltin and mitochondria: new evidence in favour of an uncoupling mechanism

Author

Bragadin, M., Marton, Daniele, Toninello, Antonio, and Viola, E. R.

Subjects

mitochondria, uncoupling, tin compounds, mitochondria, tin compounds, uncoupling

Published

2000

10. A new in vitro toxicity test based on the response to toxic substances in solutions of mitochondria from beef heart

Author

Bragadin, M. and Dell'Antone, P.

Subjects

BIOINDICATORS, MITOCHONDRIA, WATER quality

Published

1994