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295 results on '"IRACE, GAETANO"'

1. Pressure‐induced perturbation of ANS‐apomyoglobin complex: Frequency domain fluorescence studies on native and acidic compact states

Author

Bismuto, Ettore, Irace, Gaetano, Sirangelo, Ivana, and Gratton, Enrico

Subjects
Chemical Sciences, Physical Chemistry, Neurosciences, Anilino Naphthalenesulfonates, Animals, Apoproteins, Horses, Hydrogen-Ion Concentration, Myoglobin, Pressure, Protein Conformation, Spectrometry, Fluorescence, ANS-apomyoglobin complex, apomyoglobin, conformational dynamics, frequency-domain fluorometry, molten globule, protein flexibility, Biochemistry and Cell Biology, Computation Theory and Mathematics, Other Information and Computing Sciences, Biophysics, Biochemistry and cell biology, Medicinal and biomolecular chemistry
Abstract

The pressure dependence of the flexibility of the 8-anilino-1-naphthalene sulfonate (ANS)-apomyoglobin complex was investigated in the range between atmospheric pressure and 2.4 kbar by frequency domain fluorometry. We examined two structural states: native and acidic compact. The conformational dynamics of the ANS-apomyoglobin complex were deduced by studying the emission decay of ANS, which can form a noncovalent complex with the apoprotein in both the native and the acidic compact forms. Because the free fluorophore has a very short lifetime (less than 75 ps), its contribution can be separated from the long-lived emission. The latter arises from ANS molecules bound to the protein and provides information on the structural and dynamic characteristics of the macromolecule. The fluorescence emission decay of the ANS-apomyoglobin complex at neutral pH has a broad fluorescence lifetime distribution (width at half-maximum = 4.1 ns). The small changes in the fluorescence distribution parameters that occur with changes in pressure indicate that the ANS-apomyoglobin complex at neutral pH holds its compactness even at 2.4 kbar. A small contraction of molecular volume has been detected at low pressure, followed by a slight swelling with an increase in flexibility at higher pressures. The heterogeneity of ANS fluorescence in the acidic compact state of apomyoglobin is even greater than that in the native form (distribution width = 10 ns); moreover, the acidic compact state appears more expanded and accessible to solvent molecules than the native state, as suggested by the distribution center, which is 11 ns for the former and 19 ns for the latter. The lifetime distribution center remains constant with increasing pressure, which suggests that no other binding site is formed at high pressure.

Published
1996

2. Pressure-Induced Perturbation of Apomyoglobin Structure: Fluorescence Studies on Native and Acidic Compact Forms †

Author

Bismuto, Ettore, Sirangelo, Ivana, Irace, Gaetano, and Gratton, Enrico

Subjects
Acids, Anilino Naphthalenesulfonates, Animals, Apoproteins, Energy Transfer, Fluorescence Polarization, Hydrogen-Ion Concentration, Hydrostatic Pressure, Myoglobin, Protein Conformation, Sodium Chloride, Spectrometry, Fluorescence, Tryptophan, Medicinal and Biomolecular Chemistry, Biochemistry and Cell Biology, Medical Biochemistry and Metabolomics, Biochemistry & Molecular Biology
Abstract

The nature of the structural changes that apomyoglobin undergoes when subjected to hydrostatic pressure, ranging from atmospheric pressure to 2.4 kbar, has been investigated by steady-state fluorescence and frequency domain fluorometry. In particular, we have examined the intrinsic tryptophanyl emission and that of the extrinsic probe 1-anilino-8-naphthalenesulfonate (ANS) bound to apomyoglobin at neutral pH, as well as at strongly acidic high-salt conditions. Apomyoglobin at neutral pH undergoes a pressure-induced structural transition, which causes the disorganization of the heme binding region with a consequent ANS dissociation; a concomitant increase in solvent accessibility to the N-terminus of the macromolecule in which tryptophans are located is also observed. At 2.4 kbar, the tryptophanyl emission is not coincident with that of a fully solvent exposed residue, thus suggesting that the N-terminal region of the apomyoglobin molecule retains elements of organized structure. The spectroscopic properties of the structural state attained at 2.4 kbar and neutral pH are different from those of the acidic compact state. The acidic compact state of apomyoglobin undergoes a pressure-induced structural change that brings the tryptophanyl residues in contact with the solvent, but does not affect the ability to bind ANS.

Published
1996

3. Structure and dynamics of the acidic compact state of apomyoglobin by frequency‐domain fluorometry

Author

BISMUTO, Ettore, GRATTON, Enrico, SIRANGELO, Ivana, and IRACE, Gaetano

Subjects
Anilino Naphthalenesulfonates, Animals, Apoproteins, Fluorescence Polarization, Fluorescent Dyes, Hydrogen-Ion Concentration, Myoglobin, Osmolar Concentration, Protein Conformation, Tuna, Medicinal and Biomolecular Chemistry, Biochemistry and Cell Biology, Medical Biochemistry and Metabolomics, Biochemistry & Molecular Biology
Abstract

The conformational dynamic properties of tuna apomyoglobin, a single tryptophan-containing protein, in the acidic compact state, as well as in the native and in the fully unfolded state, have been explored by frequency-domain fluorometry. Apomyoglobin at acidic pH in the presence of high salt concentration displays bimodal tryptophanyl lifetime distributions which may be related to the simultaneous presence of different populations of structural states (compact and fully unfolded states). The tryptophanyl anisotropy decay indicated that the acidic compact state displays at least two rotational correlational times, suggesting that this state possesses a complex geometrical organization. 1-Anilino-8-naphthalene sulfonate (ANS), bound both to native and compact protein forms, shows broad unimodal lifetime distributions. The small time dependence of the ANS emission spectra indicated that the solvent dipolar reorganization are either absent or they occur on a time scale much shorter than the lifetime of the excited ANS molecule bound to apomyoglobin. The anisotropy decay data relative to the extrinsic fluorophore (ANS) are consistent with the presence of a single rotational correlation time for both native (12.1 ns) and compact (6.2 ns) states.

Published
1993

7. Dynamic aspects of the heme-binding site in phylogenetically distant myoglobins

Author

Bismuto, Ettore, Irace, Gaetano, Colonna, Giovanni, Jameson, David M, and Gratton, Enrico

Subjects
Animals, Binding Sites, Heme, Myoglobin, Naphthalenesulfonates, Phylogeny, Protein Conformation, Spectrometry, Fluorescence, Tuna, Whales, Physical Sciences, Biological Sciences
Abstract

Dynamic aspects of the heme-binding site of myoglobins derived from two phylogenetically distant species, namely sperm whale and bluefin tuna, have been investigated by studying steady-state and time-resolved emission properties of 2-p-toluidinyl-6-naphthalene sulfonic acid (TNS) apomyoglobin conjugates. Multi-frequency phase and modulation fluorometry data indicate that charge movements occur in the fluorophore environment during the excited state lifetime in the sperm whale myoglobin system. In the case of the bluefin tuna myoglobin TNS adduct these movements were not detected, indicating that the relaxation processes differ in the two types of myoglobins.

Published
1987

9. D-ribose-glycation of insulin prevents amyloid aggregation and produces cytotoxic adducts

Author

Iannuzzi, Clara, Borriello, Margherita, Carafa, Vincenzo, Altucci, Lucia, Vitiello, Milena, Balestrieri, Maria Luisa, Ricci, Giulia, Irace, Gaetano, Sirangelo, Ivana, Iannuzzi, Clara, Borriello, Margherita, Carafa, Vincenzo, Altucci, Lucia, Milena, Vitiello, Balestrieri, Maria Luisa, Ricci, Giulia, Irace, Gaetano, and Sirangelo, Ivana

Subjects
0301 basic medicine, Insulin glycation, Amyloid, Glycosylation, Cell Survival, Protein Conformation, medicine.medical_treatment, Ribose, Apoptosis, Protein aggregation, Protein Aggregation, Pathological, 03 medical and health sciences, chemistry.chemical_compound, Mice, Glycation, medicine, Glucose homeostasis, Animals, Humans, Insulin, NF-kB, ROS production, Molecular Biology, Caspase, Amyloid aggregation, biology, NF-kappa B, Apoptosi, 030104 developmental biology, chemistry, Biochemistry, biology.protein, NIH 3T3 Cells, Molecular Medicine, Reactive Oxygen Species, D-ribose
Abstract

Insulin is a key hormone regulating glucose homeostasis, intimately associated with glycemia and is exposed to glycation by glucose, reducing sugars and other highly reactive carbonyls, particularly in diabetes. Glycation of insulin has been reported to differentially affect protein structure, stability and aggregation depending on the glycating agent and experimental conditions. Under reducing conditions glycation produces higher insulin oligomerization thus accelerating amyloid formation whereas, in non-reducing conditions, glycation inhibits amyloid formation. To better detail the effect of glycation on insulin malfunction and toxicity, we investigated the effect of another glycating agent, the D -ribose. Recently, ribosylation has received great interest due to its role in protein glycation and its consequential effects such as protein aggregation, oxidative stress and cell death. Moreover, unusual high concentration of D -ribose has been detected in the urine of type II diabetics. Our results show that, using ribose, as glycating agent, the insulin conformation is preserved and does not evolve in amyloid aggregates because of the block of the α-helix to β-sheet transition, which initiates the aggregation process, maintaining the protein in a soluble state. At the same time, ribose-glycated insulin strongly affects the cell viability, starting a death pathway consisting in the activation of caspases 9 and 3/7, intracellular ROS production and activation of the transcription factor NF-kB.

Published
2016

10. Platelet-activating factor mediates the cytotoxicity induced by W7FW14F apomyoglobin amyloid aggregates in neuroblastoma cells

Author

SIRANGELO, Ivana, GIOVANE, Alfonso, Maritato, R, D'Onofrio, N, IANNUZZI, Clara, Giordano, A, IRACE, Gaetano, BALESTRIERI, Maria Luisa, D'ONOFRIO, NUNZIA, Sirangelo, Ivana, Giovane, Alfonso, Maritato, R, D'Onofrio, N, Iannuzzi, Clara, Giordano, A, Irace, Gaetano, Balestrieri, Maria Luisa, and D'Onofrio, Nunzia

Subjects
AMYLOID AGGREGATES, PAF, AMYLOID CYTOTOXICITY
Abstract

W7FW14F apomyoglobin (W7FW14F ApoMb) amyloid aggregates induce cytotoxicity in SH-SY5Y human neuroblastoma cells through a mechanism not fully elucidated. Amyloid neurotoxicity process involves calcium dyshomeostasis and reactive oxygen species (ROS) production. Another key mediator of the amyloid neurotoxicity is Platelet-Activating Factor (PAF), an inflammatory phospholipid implicated in neurodegenerative diseases. Here, with the aim at evaluating the possible involvement of PAF signaling in the W7FW14F ApoMb-induced cytotoxicity, we show that the presence of CV3899, a PAF receptor (PAF-R) antagonist, prevented the detrimental effect of W7FW14F ApoMb aggregates on SH-SY5Y cell viability. Noticeably, we found that the activation of PAF signaling, following treatment with W7FW14F ApoMb, involves a decreased expression of the PAF acetylhydroase II (PAF-AH II). Interestingly, the reduced PAF-AH II expression was associated with a decreased acetylhydrolase (AH) activity and to an increased sphingosine-transacetylase activity (TAS) with production of N-acetylsphingosine (C2-ceramide), a well known mediator of neuronal caspase-dependent apoptosis. These findings suggest that an altered PAF catabolism takes part to the molecular events leading to W7FW14F ApoMb amyloid aggregates-induced cell death

Published
2014

11. Effect of trehalose on W7FW14F apomyoglobin and insulin fibrillization: new insight into inhibition activity

Author

Vilasi, Silvia, Iannuzzi, Clara, Portaccio, Marianna, Irace, Gaetano, and Sirangelo, Ivana

Subjects
Insulin -- Chemical properties, Trehalose -- Chemical properties, Muscle contraction -- Abnormalities, Muscle contraction -- Research, Proteins -- Structure, Proteins -- Research, Biological sciences, Chemistry
Abstract

The effects of the disaccharide, trehalose on the inhibition activities and fibrillization of W7FW14F apomyoglobin and insulin are studied. The results show that trehalose act during the fibrillization process in different ways depending on the protein model taken under consideration.

Published
2008

15. Time-Resolved Small-Angle X-Ray Scattering Study of the Early Formation of Amyloid Protofibrils on a Apomyoglobin Mutant

Author

Ortore MG, Spinozzi F, Vilasi S, SIRANGELO, Ivana, IRACE, Gaetano, Shukla A, Narayanan T, Sinibaldi R, Mariani P., Ortore, Mg, Spinozzi, F, Vilasi, S, Sirangelo, Ivana, Irace, Gaetano, Shukla, A, Narayanan, T, Sinibaldi, R, and Mariani, P.

Abstract

"The description of the fibrillogenesis pathway and the identification of “on-pathway” or “off-pathway”. intermediates are key issues in amyloid research as they are concerned with the mechanism for onset of certain. diseases and with therapeutic treatments. Recent results on the fibril formation process revealed an unexpected. complexity both in the number and in the types of species involved, but the early aggregation events are still. largely unknown, mainly because of their experimental inaccessibility. To provide information on the early stage. events of self-assembly of an amyloidogenic protein, during the so-called lag phase, stopped-flow time-resolved. small angle x-ray scattering (SAXS) experiments were performed. Using a global fitting analysis, the structural. and aggregation properties of the apomyoglobin W7FW14F mutant, which is monomeric and partly folded at. acidic pH but forms amyloid fibrils after neutralization, were derived from the first few milliseconds onward.. SAXS data indicated that the first aggregates appear in less than 20 ms after the pH jump to neutrality and further. revealed the simultaneous presence of diverse species. In particular, wormlike unstructured monomers, very. large assemblies, and elongated particles were detected, and their structural features and relative concentrations. were derived as a function of time on the basis of our model. The final results show that, during the lag phase,. early assembling occurs due to the presence of transient monomeric species very prone to association and. through successive competing aggregation and rearrangement processes leading to coexisting on-pathway and. off-pathway transient species."

Published
2011

16. Tessuto adiposo ed obesità genetica

Author

NAPOLI, Claudio, IRACE, Gaetano, BALESTRIERI C., D'AMORA M., GIORDANO A., NAPOLI C., PAVAN A., Napoli, Claudio, and Irace, Gaetano

Published
2009

22. Intrinsic blue-green fluorescence in amyloyd fibrils.

Author

Sirangelo, Ivana, Borriello, Margherita, Irace, Gaetano, and Iannuzzi, Clara

Subjects
FLUORESCENCE, CLUSTERING of particles, PATHOLOGICAL physiology, AMINO acids, POLYPEPTIDES
Abstract

Proteins and polypeptides containing a high proportion of β-sheets have been recently reported to exhibit, in their amyloid aggregated states, an intrinsic fluorescence in the blue-green range of wavelength where the aromatic residues do not emit. Lately, growing attention has been devoted to the identification of a specific, structure-related fluorophore for the detection of amyloid aggregates due to their implications in the physio-pathology of neurodegenerative diseases and other aggregation-related diseases. Indeed, the appearance of blue-green fluorescence could be used as an alternative method for the investigation and the detection of the aggregation state without using external probes. Several hypotheses have been suggested to explain the molecular bases of this rather unusual intrinsic emission. In particular, it has been related to an expansion of the electronic delocalization of π-electrons of peptide bonds through the backbone-to-backbone hydrogen bonds connecting the β-sheets. Alternatively, the formation of the intrinsic chromophore has been associated to chemical modifications of the aromatic residues or arising from dipolar coupling between excited states of aromatic amino acids densely packed in the fibril structures. More recently, it has been proposed that the blue-green amyloid fluorophore does not require neither the presence of aromatic residues nor multiple bond conjugation. In this study, we critically review the above hypotheses with particular attention to the electronic transitions responsible for the appearance of blue-green fluorescence in amyloid fibrils. [ABSTRACT FROM AUTHOR]

Published
2018
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27. Perturbation of conformational dynamics, enzymatic activity, and thermostability of beta-glycosidase from archaeon Sulfolobus solfataricus by pH and sodium dodecyl sulfate detergent

Author

D'AURIA S, ROSSI M, NUCCI R, BISMUTO E., IRACE, Gaetano, D'Auria, S, Rossi, M, Nucci, R, Irace, Gaetano, and Bismuto, E.

Subjects
Hot Temperature, Spectrometry, Fluorescence, Circular Dichroism, Detergents, Enzyme Stability, Sodium Dodecyl Sulfate, Spectrophotometry, Ultraviolet, Hydrogen-Ion Concentration, Glucosidases, Protein Structure, Secondary, Sulfolobus
Abstract

The conformational dynamics of beta-glycosidase from Sulfolobus solfataricus was investigated by following the emission decay arising from the large number of tryptophanyl residues that are homogeneously dispersed in the primary structure. The fluorescence emission is characterized by a bimodal lifetime distribution, suggesting that the enzyme structure contains rigid and flexible regions, properly located in the macromolecule. The enzyme activity and thermostability appear to be related to the dynamic properties of these regions as evidenced by perturbation studies of the enzyme structure at alkaline pH and by addition of detergents such as SDS. The pH increase affects the protein dynamics with a remarkable loss of thermal stability and activity; these changes occur without any significant variation in the secondary structure as revealed by far-UV dichroic measurements. In the presence of 0.02% (w/v) SDS at alkaline pH, the enzymatic activity and thermostability are recovered. Under these conditions, the conformational dynamics appear to be similar to that evidenced at neutral pH. Further increases in SDS concentration, at alkaline pH, render the activity and thermostability of beta-glycosidase similar to those observed in the absence of detergent.

Published
1997

30. Unfolding pathway of apomyoglobin. Simultaneous characterization of acidic conformational states by frequency domain fluorometry

Author

BISMUTO E, IRACE, Gaetano, Bismuto, E, and Irace, Gaetano

Subjects
Protein Folding, Myoglobin, Protein Conformation, Tuna, Tryptophan, Animals, Fluorometry, Hydrogen-Ion Concentration, Apoproteins
Abstract

The dynamic properties of the conformational states co-existing during the acid-induced unfolding of tuna apomyoglobin, a single tryptophan-containing protein, have been investigated simultaneously by frequency domain fluorometry. In the transition region, in the absence of salt, the tryptophanyl fluorescence emission arises from a bimodal lifetime distribution. The pH decrease causes a marked broadening of the short-lived distribution component whereas the other component, i.e. the long-lived one, remains unchanged and represented by a very narrow lifetime distribution whose width is similar to that of the native protein. The broadening of the short-lived distribution component observed on lowering the pH indicated that this component arises from fully unfolded molecules. This was further corroborated by acrylamide quenching studies at acidic pH. The collisional quenching rate constant of the short-lived distribution component, i.e. 8.9 x 10(9) M-1s-1, was found to be similar to that observed for a fully exposed residue. The long-lived distribution component was characterized by a lower collisional quenching rate constant, i.e. 2.3 x 10(9) M-1s-1. This value if compared to that determined for the native apoprotein at neutral pH, i.e. 4.0 x 10(8) M-1s-1, indicates that the native-like structure surviving the acid-induced transition possesses a large molecular flexibility.

Published
1994

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