Your search keyword '"IRACE, GAETANO"' showing total 49 results

1. 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

2. Intrinsic blue-green fluorescence in amyloyd fibrils

Author

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

Subjects

Fluorophore, amyloid aggregation, Amyloid, intrinsic blue-green fluorescence, Biophysics, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Biochemistry, chemistry.chemical_compound, Delocalized electron, amyloid fibrils, Structural Biology, Aromatic amino acids, Peptide bond, cross-β structure, Molecular Biology, lcsh:QH301-705.5, Hydrogen bond, Chromophore, 021001 nanoscience & nanotechnology, Fluorescence, 0104 chemical sciences, chemistry, lcsh:Biology (General), 0210 nano-technology

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.

Published

2018

3. Vanillin Affects Amyloid Aggregation and Non-Enzymatic Glycation in Human Insulin

Author

Antimo Di Maro, Ivana Sirangelo, Gaetano Irace, Margherita Borriello, Clara Iannuzzi, Marcella Cammarota, Iannuzzi, Clara, Borriello, Margherita, Irace, Gaetano, Cammarota, Marcella, Di Maro, Antimo, and Sirangelo, Ivana

Subjects

0301 basic medicine, Glycation End Products, Advanced, Amyloid, Antioxidant, food.ingredient, Curcumin, Glycosylation, Cell Survival, medicine.medical_treatment, lcsh:Medicine, Antioxidants, Article, 03 medical and health sciences, chemistry.chemical_compound, Protein Aggregates, food, Microscopy, Electron, Transmission, Glycation, Cell Line, Tumor, medicine, Humans, Insulin, lcsh:Science, Cytotoxicity, Multidisciplinary, Chemistry, Vanillin, lcsh:R, Bioavailability, 030104 developmental biology, Biochemistry, Vanilla extract, Benzaldehydes, lcsh:Q

Abstract

Curcumin is known for its anti-inflammatory, antioxidant and anticancer activity, as well as for its ability to interfere with amyloid aggregation and non-enzymatic glycation reaction, that makes it an attractive potential drug. However, curcumin therapeutic use is limited because of its low systemic bioavailability and chemical stability as it undergoes rapid hydrolysis in physiological conditions. Recently, much attention has been paid to the biological properties of curcumin degradation products as potential bioactive molecules. Between them, vanillin, a natural vanilla extract, is a stable degradation product of curcumin that could be responsible for mediating its beneficial effects. We have analyzed the effect of vanillin, in comparison with curcumin, in the amyloid aggregation process of insulin as well as its ability to prevent the formation of the advanced glycation end products (AGEs). Employing biophysical, biochemical and cell based assays, we show that vanillin and curcumin similarly affect insulin amyloid aggregation promoting the formation of harmless fibrils. Moreover, vanillin restrains AGE formation and protects from AGE-induced cytotoxicity. Our novel findings not only suggest that the main health benefits observed for curcumin can be ascribed to its degradation product vanillin, but also open new avenues for developing therapeutic applications of curcumin degradation products.

Published

2017

4. Glycation in Demetalated Superoxide Dismutase 1 Prevents Amyloid Aggregation and Produces Cytotoxic Ages Adducts

Author

Filomena Monica Vella, Giuseppe Manco, Ivana Sirangelo, Gaetano Irace, Clara Iannuzzi, Sirangelo, Ivana, Vella, Fm, Irace, Gaetano, Manco, G, and Iannuzzi, Clara

Subjects

0301 basic medicine, amyloid aggregation, Amyloid, SOD1, Protein aggregation, Biochemistry, Genetics and Molecular Biology (miscellaneous), Biochemistry, protein glycation, Superoxide dismutase, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Glycation, medicine, Molecular Biosciences, lcsh:QH301-705.5, Molecular Biology, Original Research, chemistry.chemical_classification, Reactive oxygen species, ages, biology, Methylglyoxal, Neurotoxicity, fALS, medicine.disease, 030104 developmental biology, age, lcsh:Biology (General), chemistry, biology.protein, cytotoxicity, 030217 neurology & neurosurgery

Abstract

Superoxide dismutase 1 (SOD1) has been implicated with familial amyotrophic lateral sclerosis (fALS) through accumulation of protein amyloid aggregates in motor neurons of patients. Amyloid aggregates and protein inclusions are a common pathological feature of many neurological disorders in which protein aggregation seems to be directly related to neurotoxicity. Although, extensive studies performed on the aggregation process of several amyloidogenic proteins in vitro allowed the identification of many physiological factors involved, the molecular mechanisms underlying the formation of amyloid aggregates in vivo and in pathological conditions are still poorly understood. Post-translational modifications are known to affect protein structure and function and, recently, much attention has been devoted to the role played by non-enzymatic glycation in stimulating amyloid aggregation and cellular toxicity. In particular, glycation seems to have a determining role both in sporadic and familial forms of ALS and SOD1 has been shown to be glycated in vivo The aim of this study was to investigate the role of glycation on the amyloid aggregation process of both wild-type SOD1 and its ALS-related mutant G93A. To this aim, the glycation kinetics of both native and demetalated SOD have been followed using two different glycating agents, i.e., D-ribose and methylglyoxal. The effect of glycation on the structure and the amyloid aggregation propensity of native and ApoSOD has been also investigated using a combination of biophysical and biochemical techniques. In addition, the effect of SOD glycated species on cellular toxicity and reactive oxygen species (ROS) production has been evaluated in different cellular models. The results provided by this study contribute to clarify the role of glycation in amyloid aggregation and suggest a direct implication of glycation in the pathology of fALS.

Published

2016

5. Resolution of the effects induced by W → F substitutions on the conformation and dynamics of the amyloid-forming apomyoglobin mutant W7FW14F

Author

Ivana Sirangelo, Silvia Vilasi, Leila Birolo, Piero Pucci, Giuseppe Infusini, Clara Iannuzzi, Gaetano Irace, Daniela Pagnozzi, Infusini, G, Iannuzzi, C, Vilasi, S, Birolo, Leila, Pagnozzi, D, Pucci, Pietro, Irace, G, Sirangelo, I., Iannuzzi, Clara, Birolo, L, Pucci, P, Irace, Gaetano, and Sirangelo, Ivana

Subjects

Models, Molecular, Amyloid, Protein Folding, Circular dichroism, Protein Conformation, Globular protein, Stereochemistry, Phenylalanine, Proteolysis, Molecular Sequence Data, Mutant, Mutation, Missense, Biophysics, Apomyoglobin, Protein aggregation, Fluorescence spectroscopy, chemistry.chemical_compound, medicine, Animals, Amino Acid Sequence, Amyloid aggregation, chemistry.chemical_classification, medicine.diagnostic_test, Myoglobin, Chemistry, Spectrum Analysis, Tryptophan, Whales, General Medicine, Protein folding, Apoproteins, Protein misfolding

Abstract

""Myoglobin is an alpha-helical globular protein containing two highly conserved tryptophanyl residues at positions 7 and 14 in the N-terminal region. The simultaneous substitution of the two residues increases the susceptibility of the polypeptide chain to misfold, causing amyloid aggregation under physiological condition, i.e., neutral pH and room temperature. The role played by tryptophanyl residues in driving the folding process has been investigated by examining three mutated apomyoglobins, i.e., W7F, W14F, and the amyloid-forming mutant W7FW14F, by an integrated approach based on far-ultraviolet (UV) circular dichroism (CD) analysis, fluorescence spectroscopy, and complementary proteolysis. Particular attention has been devoted to examine the conformational and dynamic properties of the equilibrium intermediate formed at pH 4.0, since it represents the early organized structure from which the native fold originates. The results show that the W -> F substitutions at position 7 and 14 differently affect the structural organization of the AGH subdomain of apomyoglobin. The combined effect of the two substitutions in the double mutant impairs the formation of native-like contacts and favors interchain interactions, leading to protein aggregation and amyloid formation.""

Published

2012

6. Resolution of Tryptophan-ANS Fluorescence Energy Transfer in Apomyoglobin by Site-directed Mutagenesis¶

Author

Gaetano Irace, Clorinda Malmo, Ivana Sirangelo, Mariateresa Casillo, Sirangelo, Ivana, Malmo, C, Casillo, M, and Irace, Gaetano

Subjects

Models, Molecular, Fluorophore, Stereochemistry, Protein Conformation, Mutant, Biochemistry, Anilino Naphthalenesulfonates, Fluorescence, chemistry.chemical_compound, Residue (chemistry), Animals, Physical and Theoretical Chemistry, Site-directed mutagenesis, Heme, Fluorescent Dyes, Chemistry, Myoglobin, Tryptophan, Whales, General Medicine, Sulfonate, Energy Transfer, Mutagenesis, Site-Directed, Apoproteins

Abstract

Resonance energy transfer between tryptophanyl residues and the apolar fluorescent dye 1-anilino-8-naphthalene sulfonate (ANS) occurs when the fluorophore is bound to native folded sperm whale apomyoglobin. The individual transfer contribution of the two tryptophanyl residues (W7 and W14, both located on the A-helix of the protein) was resolved by measuring the tryptophan–ANS transfer efficiency for the ANS–apomyoglobin complexes formed by wild-type protein and protein mutants containing one or no tryptophanyl residues, i.e. W7F, W14F and W7YW14F. The transfer efficiency of W14 residue was found to be higher than that of W7, thus indicating that W14 acts as the main energy donor in the ANS–apomyoglobin complex. This suggests that the plane containing the anilinonaphthalene ring of the extrinsic fluorophore has a spatial orientation similar to that of W14 and, hence, to the heme group in the holoprotein.

Published

2007

7. Fibrillogenesis and Cytotoxic Activity of the Amyloid-forming Apomyoglobin Mutant W7FW14F

Author

Ivana Sirangelo, Antonio Mezzogiorno, Gaetano Irace, Michele Papa, Clara Iannuzzi, Maria Rosaria Bianco, Clorinda Malmo, Sirangelo, Ivana, Malmo, C., Iannuzzi, Clara, Mezzogiorno, Antonio, Bianco, M. R., Papa, Michele, and Irace, Gaetano

Subjects

Circular dichroism, Time Factors, Membrane permeability, Amyloid, Phalloidine, Ultraviolet Rays, Phalloidin, Tetrazolium Salts, amyloid cytotoxicity, macromolecular substances, Fibril, Biochemistry, Anilino Naphthalenesulfonates, Protein Structure, Secondary, Mice, chemistry.chemical_compound, Animals, Benzothiazoles, Propidium iodide, Coloring Agents, apomyoglobin fibrillation, Molecular Biology, Cytoskeleton, Fluorescent Dyes, Cell Nucleus, Myoglobin, Circular Dichroism, Cell Membrane, Fibrillogenesis, Cell Biology, Hydrogen-Ion Concentration, Kinetics, Microscopy, Electron, Thiazoles, Spectrometry, Fluorescence, chemistry, Mutation, NIH 3T3 Cells, Biophysics, Thioflavin, Apoproteins, Propidium, amyloid fibril formation

Abstract

The apomyoglobin mutant W7FW14F forms amyloid-like fibrils at physiological pH. We examined the kinetics of fibrillogenesis using three techniques: the time dependence of the fluorescence emission of thioflavin T and 1-anilino-8-naphthalenesulfonate, circular dichroism measurements, and electron microscopy. We found that in the early stage of fibril formation, non-native apomyoglobin molecules containing beta-structure elements aggregate to form a nucleus. Subsequently, more molecules aggregate around the nucleus, thereby resulting in fibril elongation. We evaluated by MTT assay (3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide) the cytotoxicity of these aggregates at the early stage of fibril elongation versus mature fibrils and the wild-type protein. Similar to other amyloid-forming proteins, cell toxicity was not due to insoluble mature fibrils but rather to early pre-fibrillar aggregates. Propidium iodide uptake showed that cell toxicity is the result of altered membrane permeability. Phalloidin staining showed that membrane damage is not associated to an altered cell shape caused by changes in the cytoskeleton.

Published

2004

8. Tryptophanyl Substitutions in Apomyoglobin Determine Protein Aggregation and Amyloid-like Fibril Formation at Physiological pH

Author

Clorinda Malmo, Gaetano Irace, Ivana Sirangelo, Michele Papa, Mariateresa Casillo, Antonio Mezzogiorno, Sirangelo, Ivana, Malmo, C., Casillo, M., Mezzogiorno, Antonio, Papa, Michele, and Irace, Gaetano

Subjects

Amyloid, Circular dichroism, Globular protein, Protein aggregation, Fibril, Biochemistry, chemistry.chemical_compound, Native state, Molecular Biology, DNA Primers, chemistry.chemical_classification, Base Sequence, Myoglobin, Circular Dichroism, Tryptophan, Cell Biology, Hydrogen-Ion Concentration, Congo red, Microscopy, Electron, chemistry, Spectrophotometry, Ultraviolet, Apoproteins, Protein Binding

Abstract

Myoglobin is an alpha-helical globular protein that contains two highly conserved tryptophan residues located at positions 7 and 14 in the N-terminal region of the protein. Replacement of both indole residues with phenylalanine residues, i.e. W7F/W14F, results in the expression of an unstable, not correctly folded protein that does not bind the prosthetic group. Here we report data (Congo red and thioflavine T binding assay, birefringence, and electron microscopy) showing that the double Trp/Phe replacements render apomyoglobin molecules highly susceptible to aggregation and amyloid-like fibril formation under physiological conditions in which most of the wild-type protein is in the native state. In refolding experiments, like the wild-type protein, the W7F/W14F apomyoglobin mutant formed a soluble, partially folded helical state between pH 2.0 and pH 4.0. A pH increase from 4.0 to 7.0 restored the native structure only in the case of the wild-type protein and determined aggregation of W7F/W14F. The circular dichroism spectrum recorded immediately after neutralization showed that the polypeptide consists mainly of beta-structures. In conclusion, under physiological pH conditions, some mutations that affect folding may cause protein aggregation and the formation of amyloid-like fibrils.

Published

2002

9. Amyloid toxicity and platelet-activating factor signaling

Author

Ivana Sirangelo, Maria Luisa Balestrieri, Gaetano Irace, Sirangelo, Ivana, Irace, Gaetano, and Balestrieri, Maria Luisa

Subjects

Nervous system, Amyloid, Physiology, Clinical Biochemistry, medicine.disease_cause, chemistry.chemical_compound, Mediator, mental disorders, medicine, Animals, Humans, Platelet Activating Factor, Neurons, Platelet-activating factor, business.industry, Amyloidosis, Cell Biology, medicine.disease, Oxidative Stress, Neuroprotective Agents, medicine.anatomical_structure, chemistry, Toxicity, Immunology, Cancer research, Inflammation Mediators, Protein Multimerization, Signal transduction, business, Oxidative stress, Signal Transduction

Abstract

Amyloidosis is the accumulation of insoluble proteinaceous aggregates in vivo and is implicated in many neurodegenerative diseases, including Alzheimer's, Huntington's, and Parkinson's diseases. This article briefly reviews the current knowledge of amyloid aggregate toxicity and inflammatory signaling in the nervous system. In particular, we focus our attention on the role of platelet-activating factor (PAF) as mediator of amyloid cytotoxicity.

Published

2013

10. W-F Substitutions in Apomyoglobin Increase the Local Flexibility of the N-terminal Region Causing Amyloid Aggregation: A H/D Exchange Study

Author

Rosa Maritato, Silvia Vilasi, Daniela Pagnozzi, Ivana Sirangelo, Gaetano Irace, Clara Iannuzzi, Giuseppe Infusini, Leila Birolo, Piero Pucci, Infusini, G, Iannuzzi, Clara, Vilasi, S, Maritato, R, Birolo, L, Pagnozzi, D, Pucci, P, Irace, Gaetano, Sirangelo, Ivana, Iannuzzi, C, Birolo, Leila, Pucci, Pietro, Irace, G, and Sirangelo, I.

Subjects

Amyloid, Protein Folding, Protein Conformation, Globular protein, Stereochemistry, Proteolysis, Mutant, Protein aggregation, Biochemistry, Mass Spectrometry, chemistry.chemical_compound, Structural Biology, medicine, chemistry.chemical_classification, medicine.diagnostic_test, Myoglobin, Chemistry, Deuterium Exchange Measurement, General Medicine, Peptide Fragments, Folding (chemistry), Mutant Proteins, Hydrogen–deuterium exchange, Apoproteins

Abstract

Myoglobin is an α-helical globular protein containing two highly conserved tryptophanyl residues at positions 7 and 14 in the N-terminal region. The simultaneous substitution of the two residues impairs the productive folding of the protein making the polypeptide chain highly prone to aggregate forming amyloid fibrils at physiological pH and room temperature. The role played by tryptophanyl residues in driving the productive folding process was investigated by providing structural details at low resolution of compact intermediate of three mutated apomyoglobins, i.e., W7F, W14F and the amyloid forming mutant W7FW14F. In particular, we followed the hydrogen/deuterium exchange rate of protein segments using proteolysis with pepsin followed by mass spectrometry analysis. The results revealed significant differences in the N-terminal region, consisting in an alteration of the physico-chemical properties of the 7-11 segment for W7F and in an increase of local flexibility of the12-29 segment for W14F. In the double trypthophanyl substituted mutant, these effects are additive and impair the formation of native-like contacts and favour inter-chain interactions leading to protein aggregation and amyloid formation at physiological pH.

Published

2013

11. Glycation accelerates fibrillization of the amyloidogenic W7FW14F apomyoglobin

Author

Gaetano Irace, Ivana Sirangelo, Clara Iannuzzi, Rosa Maritato, Iannuzzi, Clara, Maritato, R, Irace, Gaetano, and Sirangelo, Ivana

Subjects

Conformational change, Multidisciplinary, Glycosylation, Amyloid, Amyloidosis, lcsh:R, lcsh:Medicine, Protein aggregation, medicine.disease, Cell biology, chemistry.chemical_compound, Amyloid disease, chemistry, Biochemistry, Glycation, medicine, lcsh:Q, Viability assay, lcsh:Science, Research Article

Abstract

Neurodegenerative diseases are associated with misfolding and deposition of specific proteins, either intra or extracellularly in the nervous system. Advanced glycation end products (AGEs) originate from different molecular species that become glycated after exposure to sugars. Several proteins implicated in neurodegenerative diseases have been found to be glycated in vivo and the extent of glycation is related to the pathologies of the patients. Although it is now accepted that there is a direct correlation between AGEs formation and the development of neurodegenerative diseases, several questions still remain unanswered: whether glycation is the triggering event or just an additional factor acting on the aggregation pathway. To this concern, in the present study we have investigated the effect of glycation on the aggregation pathway of the amyloidogenic W7FW14F apomyoglobin. Although this protein has not been related to any amyloid disease, it represents a good model to resemble proteins that intrinsically evolve toward the formation of amyloid aggregates in physiological conditions. We show that D-ribose, but not D-glucose, rapidly induces the W7FW14F apomyoglobin to generate AGEs in a time-dependent manner and protein ribosylation is likely to involve lysine residues on the polypeptide chain. Ribosylation of the W7FW14F apomyoglobin strongly affects its aggregation kinetics producing amyloid fibrils within few days. Cytotoxicity of the glycated aggregates has also been tested using a cell viability assay. We propose that ribosylation in the W7FW14F apomyoglobin induces the formation of a cross-link that strongly reduces the flexibility of the H helix and/or induce a conformational change that favor fibril formation. These results open new perspectives for AGEs biological role as they can be considered not only a triggering factor in amyloidosis but also a player in later stages of the aggregation process.

Published

2013

12. RESOLUTION OF THE INDIVIDUAL TRYPTOPHANYL CONTRIBUTIONS TO THE NEAR-ULTRAVIOLET DICHROIC ACTIVITY OF APOMYOGLOBIN

Author

Gaetano Irace, Ivana Sirangelo, Ettore Bismuto, Sirangelo, Ivana, Irace, Gaetano, and Bismuto, E.

Subjects

Indole test, Circular dichroism, Myoglobin, Photochemistry, Chemistry, Circular Dichroism, Tryptophan, General Medicine, Chromophore, Dichroic glass, Biochemistry, Spectral line, chemistry.chemical_compound, Bromide, Native state, Animals, Moiety, Spectrophotometry, Ultraviolet, Physical and Theoretical Chemistry, Apoproteins

Abstract

The individual tryptophanyl contributions to the near-ultraviolet dichroic activity of apomyoglobin in its native conformation have been resolved. This was accomplished by comparing the spectra of two classes of apomyoglobin with different aromatic residue contents and observing the effect of a specific modification of indole residues. The circular dichroism (CD) spectra of apomyoglobins containing two tryptophanyl residues, i.e. Trp A-5 and A-12, show the presence of a positive peak centered at 292 nm, attributable to indolic chromophore, which is missing in the CD spectrum of tuna apomyoglobin possessing only Trp A-12. Moreover, the specific modification of Trp A-5 by 2-hydroxy-5-nitrobenzyl bromide is shown by the lack of the 292 nm peak and the appearance of a positive band at longer wavelength. The pH dependence of the position of this band suggests that it arises from the 2-hydroxy-5-nitrobenzyl moiety. The results suggest that Trp A-12 does not substantially contribute to the optical activity in the near ultraviolet.

Published

1994

13. Heparin induces harmless fibril formation in amyloidogenic W7FW14F apomyoglobin and amyloid aggregation in wild-type protein in vitro

Author

Ivana Sirangelo, Antonella De Simone, Rosalba Sarcina, Gaetano Irace, Rosa Maritato, Silvia Vilasi, Vilasi, S, Sarcina, R, Maritato, R, DE SIMONE, A, Irace, Gaetano, and Sirangelo, Ivana

Subjects

Protein Folding, Amyloid, Circular dichroism, Biophysics, lcsh:Medicine, Protein aggregation, Fibril, Biochemistry, Protein Chemistry, Mice, Amyloid disease, chemistry.chemical_compound, Microscopy, Electron, Transmission, Drug Discovery, Spectroscopy, Fourier Transform Infrared, medicine, Animals, lcsh:Science, Biology, Multidisciplinary, Heparin, Myoglobin, Chemistry, Circular Dichroism, Amyloidosis, lcsh:R, Proteins, Fibrillogenesis, Hydrogen-Ion Concentration, medicine.disease, NIH 3T3 Cells, lcsh:Q, Thioflavin, Apoproteins, Research Article

Abstract

Glycosaminoglycans (GAGs) are frequently associated with amyloid deposits in most amyloid diseases, and there is evidence to support their active role in amyloid fibril formation. The purpose of this study was to obtain structural insight into GAG-protein interactions and to better elucidate the molecular mechanism underlying the effect of GAGs on the amyloid aggregation process and on the related cytotoxicity. To this aim, using Fourier transform infrared and circular diochroism spectroscopy, electron microscopy and thioflavin fluorescence dye we examined the effect of heparin and other GAGs on the fibrillogenesis and cytotoxicity of aggregates formed by the amyloidogenic W7FW14 apomyoglobin mutant. Although this protein is unrelated to human disease, it is a suitable model for in vitro studies because it forms amyloid-like fibrils under physiological conditions of pH and temperature. Heparin strongly stimulated aggregation into amyloid fibrils, thereby abolishing the lag-phase normally detected following the kinetics of the process, and increasing the yield of fibrils. Moreover, the protein aggregates were harmless when assayed for cytotoxicity in vitro. Neutral or positive compounds did not affect the aggregation rate, and the early aggregates were highly cytotoxic. The surprising result that heparin induced amyloid fibril formation in wild-type apomyoglobin and in the partially folded intermediate state of the mutant, i.e., proteins that normally do not show any tendency to aggregate, suggested that the interaction of heparin with apomyoglobin is highly specific because of the presence, in protein turn regions, of consensus sequences consisting of alternating basic and non-basic residues that are capable of binding heparin molecules. Our data suggest that GAGs play a dual role in amyloidosis, namely, they promote beneficial fibril formation, but they also function as pathological chaperones by inducing amyloid aggregation.

Published

2011

14. Inhibition of aggregate formation as therapeutic target in protein misfolding diseases: effect of tetracycline and trehalose

Author

Gaetano Irace, Ivana Sirangelo, Sirangelo, Ivana, and Irace, Gaetano

Subjects

Amyloid, Tetracycline, Clinical Biochemistry, amyloid cytotoxicity, Amyloidogenic Proteins, macromolecular substances, Fibril, chemistry.chemical_compound, Protein Misfolding Diseases, Drug Discovery, medicine, Humans, Molecular Targeted Therapy, Proteostasis Deficiencies, anti-amyloidogenic compound, Pharmacology, Protein Synthesis Inhibitors, Disease progression, Proteins, Trehalose, Fibrillogenesis, Neurodegenerative Diseases, In vitro, Biochemistry, chemistry, Amyloid aggregation, Molecular Medicine, fibrillogenesis, medicine.drug

Abstract

Importance of the field: The identification of molecules that inhibit protein deposition or reverse fibril formation could open new strategies for therapeutic intervention in misfolding diseases. Numerous compounds have been shown to inhibit amyloid fibril formation in vitro. Among these compounds, tetracycline and the disaccharide trehalose have been reported to inhibit or reverse amyloid aggregation but their efficiency as potential drugs is controversial. Areas covered in this review: The results obtained using tetracycline and trehalose, reported in the last 15 years, are described and discussed. What the reader will gain: The conclusions have important implications for the development of therapeutic agents for protein deposition diseases. If fibrillar proteins contribute to cell degeneration, then the disassembly of fibrils may reverse or slow down disease progression; however, if the action of therapeutic agents produces intermediates of fibrillation and/or products of fibril disaggregation, then their accumulation could be harmful. Take home message: Care should be taken to ensure that strategies aimed at inhibiting fibril formation do not cause a corresponding increase in the concentration of toxic oligomeric species.

Published

2010

15. Effect of trehalose on W7FW14F apomyoglobin and insulin fibrillization: New insight into inhibition activity

Author

Silvia Vilasi, Gaetano Irace, Marianna Portaccio, Clara Iannuzzi, Ivana Sirangelo, Vilasi, S., Iannuzzi, Clara, Portaccio, Marianna Bianca Emanuela, Irace, Gaetano, and Sirangelo, Ivana

Subjects

Circular dichroism, Sodium, Disaccharide, chemistry.chemical_element, amyloid cytotoxicity, Protein aggregation, Microscopy, Atomic Force, Biochemistry, chemistry.chemical_compound, Mice, Spectroscopy, Fourier Transform Infrared, Animals, Insulin, Viability assay, antiamyloidogenic compound, Gel electrophoresis, Myoglobin, Circular Dichroism, trehealose, Trehalose, 3T3 Cells, Spectrometry, Fluorescence, chemistry, Thioflavin, Cattle, Spectrophotometry, Ultraviolet, fibrillogenesis inhibition, Apoproteins

Abstract

Trehalose, a disaccharide present in many nonmammalian species, protects cells against various environmental stresses. Trehalose has recently been shown to decrease aggregate formation and toxicity in cell models and to alleviate amyloid-induced diseases. The aim of our study was to use two amyloid-forming proteins, i.e., W7FW14F apomyoglobin and insulin, as model systems to elucidate the molecular mechanism by which trehalose affects the amyloid aggregation process and to investigate further its therapeutic potential. Protein aggregation was examined by far-UV circular dichroism, UV absorption, thioflavin T fluorescence, sodium dodecyl sulfate-polyacrylamide gel electrophoresis, atomic force microscopy, and Fourier transform infrared spectroscopy. Cell viability was investigated by 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide reduction assay. We found that trehalose does not inhibit protein aggregation but acts at different stages of the fibrillization process depending on the protein model used. In fact, trehalose dose-dependently inhibited fibril formation in the W7FW14F apomyoglobin model and increased the lag phase in the insulin model. In both cases, trehalose caused accumulation of toxic oligomeric species. The results suggest that trehalose may favor or inhibit the formation of "on-pathway" or "off-pathway" oligomeric intermediates depending on the nature of the aggregating protein.

Published

2008

16. Heme binding inhibits the fibrillization of amyloidogenic apomyoglobin and determines lack of aggregate cytotoxicity

Author

Marianna Portaccio, Silvia Vilasi, Gaetano Irace, Ivana Sirangelo, Clara Iannuzzi, Iannuzzi, Clara, Vilasi, S., Portaccio, Marianna Bianca Emanuela, Irace, Gaetano, and Sirangelo, Ivana

Subjects

Circular dichroism, Amyloid, Heme binding, Globular protein, Protein Conformation, Ultraviolet Rays, amyloid cytotoxicity, Plasma protein binding, Heme, Microscopy, Atomic Force, Biochemistry, Article, chemistry.chemical_compound, Mice, Protein structure, amyloid fibril, Spectroscopy, Fourier Transform Infrared, Animals, Globin, Molecular Biology, chemistry.chemical_classification, aptomyoglobin aggregation, fibrillization inhibition, Myoglobin, Circular Dichroism, Hydrogen-Ion Concentration, chemistry, NIH 3T3 Cells, Apoproteins, Protein Binding

Abstract

Myoglobin is an alpha-helical globular protein containing two highly conserved tryptophanyl residues at positions 7 and 14 in the N-terminal region. The double W/F replacement renders apomyoglobin highly susceptible to aggregation and amyloid-like fibril formation under physiological conditions. In this work we analyze the early stage of W7FW14F apomyoglobin aggregation following the time dependence of the process by far-UV CD, Fourier-transform infrared (FTIR) spectroscopy, and heme-binding properties. The results show that the aggregation of W7FW14F apomyoglobin starts from a native-like globin state able to bind the prosthetic group with spectroscopic properties similar to those observed for wild-type apoprotein. Nevertheless, it rapidly aggregates, forming amyloid fibrils. However, when the prosthetic group is added before the beginning of aggregation, amyloid fibrillization is inhibited, although the aggregation process is not prevented. Moreover, the apomyoglobin aggregates formed in these conditions are not cytotoxic differently from what is observed for all amyloidogenic proteins. These results open new insights into the relationship between the structure adopted by the protein into the aggregates and their ability to trigger the impairment of cell viability.

Published

2007

17. Kinetics of amyloid aggregation of mammal apomyoglobins and correlation with their amino acid sequences

Author

Clara Iannuzzi, Ivana Sirangelo, Augusto Parente, Gaetano Irace, Silvia Vilasi, Clorinda Malmo, Roberta Dosi, Vilasi, S, Dosi, R, Iannuzzi, Clara, Malmo, C, Parente, A, Irace, Gaetano, and Sirangelo, Ivana

Subjects

Amyloid, Buffaloes, Kinetics, Molecular Sequence Data, Biophysics, Beta sheet, Protein aggregation, Biochemistry, Protein Structure, Secondary, chemistry.chemical_compound, Structural Biology, Genetics, Molecule, Animals, Amino Acid Sequence, Horses, Molecular Biology, chemistry.chemical_classification, Chemistry, Myoglobin, Cell Biology, Amino acid, Protein aggregation rate, Amyloid aggregation, Apomyoglobin aggregation, Cattle, Apoproteins

Abstract

In protein deposition disorders, a normally soluble protein is deposited as insoluble aggregates, referred to as amyloid. The intrinsic effects of specific mutations on the rates of protein aggregation and amyloid formation of unfolded polypeptide chains can be correlated with changes in hydrophobicity, propensity to convert α-helical to β sheet conformation and charge. In this paper, we report the aggregation rates of buffalo, horse and bovine apomyoglobins. The experimental values were compared with the theoretical ones evaluated considering the amino acid differences among the sequences. Our results show that the mutations which play critical roles in the rate-determining step of apomyoglobin aggregation are those located within the N-terminal region of the molecule.

Published

2006

18. Effect of molecular confinement on internal enzyme dynamics: frequency domain fluorometry and molecular dynamics simulation studies

Author

Ettore Bismuto, Gaetano Irace, Rita Casadio, Pier Luigi Martelli, Damiano Gustavo Mita, Anna De Maio, Bismuto, E, Martelli, Pl, DE MAIO, A, Mita, Dg, Irace, Gaetano, and Casadio, R.

Subjects

Immobilized enzyme, Aspergillus oryzae, ved/biology.organism_classification_rank.species, Kinetics, Biophysics, Biochemistry, Fluorescence spectroscopy, Biomaterials, Molecular dynamics, chemistry.chemical_compound, Protein structure, biology, Chemistry, ved/biology, Organic Chemistry, Sulfolobus solfataricus, Tryptophan, Active site, General Medicine, beta-Galactosidase, Crystallography, Spectrometry, Fluorescence, Chemical physics, biology.protein, Agarose

Abstract

The tryptophanyl emission decay of the mesophilic beta-galactosidase from Aspergillus oryzae free in buffer and entrapped in agarose gel is investigated as a function of temperature and compared to that of the hyperthermophilic enzyme from Sulfolobus solfataricus. Both enzymes are tetrameric proteins with a large number of tryptophanyl residues, so the fluorescence emission can provide information on the conformational dynamics of the overall protein structure rather than that of the local environment. The tryptophanyl emission decays are best fitted by bimodal Lorentzian distributions. The long-lived component is ascribed to close, deeply buried tryptophanyl residues with reduced mobility; the short-lived one arises from tryptophanyl residues located in more flexible external regions of each subunit, some of which are involved in forming the catalytic site. The center of both lifetime distribution components at each temperature increases when going from the free in solution mesophilic enzyme to the gel-entrapped and hyperthermophilic enzyme, thus indicating that confinement of the mesophilic enzyme in the agarose gel limits the freedom of the polypeptide chain. A more complex dependence is observed for the distribution widths. Computer modeling techniques are used to recognize that the catalytic sites are similar for the mesophilic and hyperthermophilic beta-galactosidases. The effect due to gel entrapment is considered in dynamic simulations by imposing harmonic restraints to solvent-exposed atoms of the protein with the exclusion of those around the active site. The temperature dependence of the tryptophanyl fluorescence emission decay and the dynamic simulation confirm that more rigid structures, as in the case of the immobilized and/or hyperthermophilic enzyme, require higher temperatures to achieve the requisite conformational dynamics for an effective catalytic action and strongly suggest a link between conformational rigidity and enhanced thermal stability.

Published

2002

19. Tryptophanyl contributions to apomyoglobin fluorescence resolved by site-directed mutagenesis

Author

Gaetano Irace, Ivana Sirangelo, Simona Tavassi, Sirangelo, Ivana, Tavassi, S., and Irace, Gaetano

Subjects

Steric effects, Chemistry, Myoglobin, Biophysics, Tryptophan, Charge-transfer complex, Biochemistry, Fluorescence, Crystallography, chemistry.chemical_compound, Residue (chemistry), Structural Biology, Native state, Mutagenesis, Site-Directed, Animals, Guanidine, Site-directed mutagenesis, Apoproteins, Molecular Biology

Abstract

The individual emission properties of the two tryptophanyl residues of sperm-whale apomyoglobin have been resolved by examining the fluorescence variations induced by denaturants, i.e., acid and guanidine, on apomyoglobin mutants W7F and W14F. The fluorescence changes have been correlated to the conformational transitions undergone by apomyoglobin on increasing denaturant concentration. The results indicate that the fluorescence decrease, observed for sperm-whale apomyoglobin on going from pH 8.0 to pH 6.0, cannot be ascribed to the formation of a charge transfer complex between a nearby histidine residue and W14 as reported in earlier papers but rather to minor structural changes affecting the microenvironments of both residues. The formation of the acidic partly folded state around pH 4.0 determines an increase of the fluorescence yield and a small red shift (5 nm) of W7 due to removal of sterically interacting K79, which is able to attenuate the emission of this residue in the native state. The fluorescence intensity of the other residue, i.e., W14, is not affected by the acidic transition. Guanidine denaturation experiments revealed an increase of fluorescence yield of W14 upon the intermediate formation, whereas the fluorescence of the other residue remained constant. The results suggest that the unfolding pathway may be different depending on the chemical nature of the denaturant used.

Published

2000

20. Apomyoglobin folding intermediates characterized by the hydrophobic fluorescent probe 8-anilino-1-naphthalene sulfonate

Author

Gaetano Irace, Ettore Bismuto, Ivana Sirangelo, Simona Tavassi, Sirangelo, Ivana, Bismuto, E, Tavassi, S, and Irace, Gaetano

Subjects

Protein Denaturation, Protein Folding, Fluorophore, Absorption spectroscopy, Biophysics, Photochemistry, Biochemistry, Fluorescence spectroscopy, Anilino Naphthalenesulfonates, chemistry.chemical_compound, Structural Biology, Side chain, Animals, Horses, Molecular Biology, Fluorescent Dyes, Binding Sites, Chemistry, Myoglobin, Chromophore, Hydrogen-Ion Concentration, Fluorescence, Protein Structure, Tertiary, Folding (chemistry), Spectrometry, Fluorescence, Solvents, Protein folding, Apoproteins

Abstract

Folding apomyoglobin intermediates were investigated by optical techniques including steady-state fluorescence, frequency domain fluorometry, and absorption spectroscopy. The investigated chromophores were the aromatic residues, i.e., tyrosyl and tryptophanyl residues, and the extrinsic probe (8-anilino-1-naphthalenesulfonate, ANS) which is particularly useful for studying partly structured forms appearing in the early stage of protein folding. The emission decay of the extrinsic probe as well as resonance energy transfer from tryptophanyl residues to ANS permitted to identify and characterize partly folded forms obtained under different experimental conditions. The results indicate that the intermediates so far detected (I-1 and I-2 states) are distinct structural states. The differences concern the solvent accessibility to the aromatic side chains and the conformational dynamics of the protein region forming the binding site for the extrinsic fluorophore.

Published

1998

21. Solvent and thermal denaturation of the acidic compact state of apomyoglobin

Author

Ivana Sirangelo, Ettore Bismuto, Gaetano Irace, Sirangelo, Ivana, Bismuto, E, and Irace, Gaetano

Subjects

Protein Denaturation, Protein Folding, Hemeprotein, Hot Temperature, Biophysics, Apomyoglobin, Fluorescence Polarization, Photochemistry, Biochemistry, Anilino Naphthalenesulfonates, Adduct, chemistry.chemical_compound, Structural Biology, Genetics, Animals, Denaturation (biochemistry), Horses, Molecular Biology, Fluorescent Dyes, Folding intermediates, Chromatography, Myoglobin, Acidic compact state, Cell Biology, Hydrogen-Ion Concentration, Fluorescence, Molten globule, Molten globule state, Solvent, chemistry, Solvents, Solvent effects, Apoproteins

Abstract

The stability of the acidic compact state of apomyoglobin toward the denaturant action of guanidinium hydrochloride and temperature was studied by examining the effects induced on the intrinsic tryptophanyl fluorescence and that of the adduct formed with 1,8-anilinonaphthalenesulfonate (ANS). The results indicated that the disorganization of tryptophanyl environments is caused by a cooperative discrete molecular transition, thus contrasting the assumption that the acidic compact form of apomyoglobin might be a molten globule state. The unfolding of the ANS binding regions was found to involve, at least, two stages over a wide range of denaturant concentrations.

Published

1994

22. Folding and dynamics of melittin in reversed micelles

Author

Gaetano Irace, Ivana Sirangelo, Ettore Bismuto, Bismuto, E, Sirangelo, Ivana, and Irace, Gaetano

Subjects

Molecular Structure, Protein Conformation, Circular Dichroism, Tryptophan, Biophysics, Analytical chemistry, Fluorescence spectrometry, Fluorescence Polarization, Cell Biology, Melitten, complex mixtures, Biochemistry, Micelle, Fluorescence spectroscopy, Melittin, Folding (chemistry), chemistry.chemical_compound, Monomer, chemistry, Excited state, Fluorometry, lipids (amino acids, peptides, and proteins), Micelles

Abstract

The main structural characteristics and the dynamic properties of melittin bound to the internal surface of reversed micelles, formed by sodium bis(2-ethyl-1-exyl)sulfosuccinate (AOT) in isooctane, were investigated by several spectroscopic techniques. Melittin has been found associated to reversed AOT micelles in a single state, thus indicating that this system behaves differently with respect to phospholipid vesicles where at least two forms of lipid associated melittin are observed. The dynamic properties of melittin in reversed AOT micelles at different water contents were examined by frequency domain fluorometry. The whole emission decay was analyzed in terms of lifetime distribution having a Lorentzian shape. The results indicated that the binding of melittin to inverted micelles determines an increase of emission heterogeneity compared to that observed for the fully extended helical monomer. This was explained in terms of a larger variety of microenvironmental conditions that the tryptophan residue experiences during its excited state. However, the conformation freedom of the peptide can be modulated by varying the micellar size.

Published

1993

23. Salt-induced refolding of myoglobin at acidic pH: molecular properties of a partly folded intermediate

Author

Ivana Sirangelo, Ettore Bismuto, Gaetano Irace, Bismuto, E, Sirangelo, Ivana, and Irace, Gaetano

Subjects

Protein Denaturation, Circular dichroism, Fluorophore, Hemeprotein, Protein Conformation, Biophysics, Fluorescence spectrometry, Sodium Chloride, Biochemistry, Anilino Naphthalenesulfonates, chemistry.chemical_compound, Animals, Horses, Molecular Biology, Heme, Fluorescent Dyes, Myoglobin, Circular Dichroism, Osmolar Concentration, Hydrogen-Ion Concentration, Molten globule, Protein tertiary structure, Kinetics, Spectrometry, Fluorescence, chemistry, Thermodynamics

Abstract

The molecular properties of the salt-induced partly folded acidic state of apomyoglobin as well as myoglobin were investigated by fluorescence and circular dichroism of the extrinsic fluorophore 1,8-anilinonaphthalenesulfonate. The occurrence of a fluctuating tertiary structure (“molten globule”) at acidic pH in the presence of salt was suggested by the disappearance of the dichroic activity of the fluorophore bound to the partly folded protein. Moreover, the structure of the intermediate is not influenced by the presence of heme, thus suggesting that heme is not crucial in the early stage of myoglobin folding.

Published

1992

24. Molecular organization and dynamics of the outer membrane of Salmonella thyphimurium mutant strains detected by frequency domain fluorometry

Author

Ettore Bismuto, Francesco Galdiero, Ivana Sirangelo, Linda Sommese, Maria Antonietta Tufano, Gaetano Irace, Adalgisa Adinolfi, Bismuto, E, Sirangelo, Ivana, Adinolfi, A, Galdiero, F, Tufano, Ma, Sommese, Linda, and Irace, Gaetano

Subjects

Salmonella typhimurium, Fluorophore, Bilayer, Mutant, Cell Membrane, Biophysics, Biology, Biochemistry, Fluorescence, Fluorescence spectroscopy, chemistry.chemical_compound, Membrane, Spectrometry, Fluorescence, chemistry, Mutation, Molecule, Thermodynamics, Bacterial outer membrane, Molecular Biology, Diphenylhexatriene, Bacterial Outer Membrane Proteins

Abstract

The fluorescence decay of 1,6-diphenyl-1,3,5-hexatriene (DPH) in the outer membrane bilayer of two mutant strains of Salmonella thyphimurium, i.e., SH 5014 and SH 6261, at different temperatures was analyzed in terms of continuous Lorentzian lifetime distributions. The results were compared with those obtained for the free fluorophore in an isotropic nonviscous solvent. The incorporation of DPH in the outer membrane fragments resulted in a broadening of the lifetime distribution which was attributed to the microenvironmental heterogeneity of the membrane bilayer for the extrinsic fluorophore. The differences observed between the two types of membrane bilayers were interpreted in terms of a different molecular organization and, to a lesser extent, in terms of a different fluidity. The comparison between the DPH lifetime distributions obtained using two different excitation wavelengths, i.e., 280 and 350 nm, suggested that the structural organization of the membrane domains, which are richest in proteins, is almost identical in the two examined mutant strains. This observation indicates that the different susceptibility of the two mutant strains toward phagocytosis and complement-mediated lytic action may depend on the molecular organization and dynamics of the lipid regions far from those containing proteins.

Published

1991

25. Dynamic Fluorescence of Extrinsic Fluorophores as a Tool for Studying Protein Conformational Substates

Author

Ettore Bismuto, Ivana Sirangelo, Gaetano Irace, Adalgisa Adinolfi, Bismuto, E, Sirangelo, Ivana, Adinolfi, A, and Irace, Gaetano

Subjects

Fluorophore, Energy transfer, Metals and Alloys, General Medicine, Lifetime distribution, Photochemistry, Fluorescence, General Biochemistry, Genetics and Molecular Biology, Biomaterials, chemistry.chemical_compound, chemistry, Excited state, Moiety, General Agricultural and Biological Sciences, Heme, Excitation

Abstract

The fluorescence lifetime distribution of 2-p-toluidinyl-6-naphthalene sulfonic acids (TNS) bound to the heme site of apomyoglobin has been examined. The results were compared to those observed for the free fluorophore in isotropic nonviscous solvent. Two different excitation wavelengths were used, i.e. 290 and 350 nm. The results showed that the distribution of TNS bound to apomyoglobin is wider than that of the free fluorophore, thus indicating the existence of a large number of conformational substates originating from the interaction between TNS and the protein matrix. The comparison of the distribution obtained at two different excitation wavelengths allowed the emission arising from conformational substates, in which the excited state of fluorophore moiety has a higher probability to be populated by Forster energy transfer mechanism, to be distinguished.

Published

1990

26. Amino acid composition and physico-chemical properties of bluefin tuna (Thunnus thynnus) myoglobin

Author

Ciro Balestrieri, Gaetano Irace, Luigi Servillo, Giovanni Colonna, Bruno Tota, Alfonso Giovane, Balestrieri, C, Colonna, G, Giovane, Alfonso, Irace, Gaetano, Servillo, Luigi, and Tota, B.

Subjects

Yellowfin tuna, Physiology, Hydrochloride, Biochemistry, Absorbance, chemistry.chemical_compound, Animals, Amino Acids, Guanidine, Molecular Biology, chemistry.chemical_classification, Chromatography, biology, Myoglobin, Tuna, Fishes, food and beverages, General Medicine, biology.organism_classification, Amino acid, chemistry, human activities, Thunnus

Abstract

1. The heart ventricle myoglobin of Atlantic bluefin tuna has been purified and its amino acid composition has been determined. 2. The perturbing effect of guanidine hydrochloride on the molecular structure of tuna ferrimyoglobin and its corresponding apoprotein has been investigated by Soret absorbance and ultraviolet fluorescence. 3. The conformation-free energy of unfolding delta G0 has been calculated by thermodynamic treatments of the data concerning guanidine unfolding. 4. The results have been compared with other known myoglobins, particularly those of yellowfin tuna.

Published

1978

27. Determination of tyrosine exposure in proteins by second-derivative spectroscopy

Author

Giovanni Colonna, Luigi Servillo, Raffaele Ragone, Gaetano Irace, Ciro Balestrieri, Ragone, R, Colonna, G, Balestrieri, C, Servillo, Luigi, and Irace, Gaetano

Subjects

medicine.diagnostic_test, Protein Conformation, Stereochemistry, Tryptophan, Proteins, Acetylation, Biochemistry, Solvent, chemistry.chemical_compound, Protein structure, chemistry, Spectrophotometry, medicine, Animals, Tyrosine, Spectrophotometry, Ultraviolet, Guanidine, Second derivative

Abstract

The mutual interference between the second-derivative bands of tyrosine and tryptophan in proteins has been evaluated in terms of the ratio r between two peak to peak distances. The r values have been found to be not only related to the tyrosine/tryptophan ratio but also dependent on the polarity of the medium in which tyrosyl residues are embedded. The results obtained on purified proteins have been found consistent with the available X-ray information and with the existing solvent perturbation data.

Published

1984

28. Second-derivative spectroscopy of proteins: Studies on tyrosyl residues

Author

Giovanni Colonna, Luigi Servillo, Gaetano Irace, Alfonso Giovane, Ciro Balestrieri, Balestrieri, C, Colonna, G, Giovane, Alfonso, Irace, Gaetano, and Servillo, Luigi

Subjects

Chemical Phenomena, Phenylalanine, Tryptophan, Biophysics, Analytical chemistry, Proteins, Cell Biology, Chromophore, Biochemistry, Chemistry, chemistry.chemical_compound, Crystallography, chemistry, Ionization, Aromatic amino acids, Tyrosine, Spectrophotometry, Ultraviolet, Second derivative spectroscopy, Spectroscopy, Molecular Biology, Derivative (chemistry)

Abstract

Ionization of the phenolic group of N-acetyltyrosynamide has been studied using second-derivative spectroscopy. At pH 12.5 the second-derivative spectrum of the model compound revealed the presence of derivative bands in a spectral region (between 250 and 270 nm) where interference coming from other ultraviolet-absorbing chromophores is negligible. One of these peaks (260-nm peak) has been employed for the determination of tyrosyl groups in mixtures containing the aromatic amino acids.

Published

1980

29. Unfolding pathway of myoglobin: effect of denaturants on solvent accessibility to tyrosyl residues detected by second-derivative spectroscopy

Author

Gaetano Irace, Ettore Bismuto, Raffaele Ragone, Giovanni Colonna, Ragone, R, Colonna, G, Bismuto, E, and Irace, Gaetano

Subjects

Protein Denaturation, Hemeprotein, Protein Conformation, Guanidines, Biochemistry, chemistry.chemical_compound, Protein structure, Animals, Moiety, Denaturation (biochemistry), Horses, Tyrosine, Guanidine, Heme, Myoglobin, Tuna, Myocardium, Whales, Kinetics, chemistry, Solvents, Biophysics, Spectrophotometry, Ultraviolet

Abstract

The effects of denaturants on the solvent accessibility to tyrosyl residues of apomyoglobin have been examined by means of second-derivative spectroscopy in the near-ultraviolet. Three apomyoglobins, i.e., sperm whale, horse, and tuna, were selected because of the different distribution of tyrosyl residues in their primary structure. The results are consistent with the occurrence of two independent consecutive events in the guanidine-induced denaturation pattern of apomyoglobin. The first event, which is responsible for the lack of the ability to bind the heme, has been proved to involve conformational changes in both the domains, i.e., segments 1-79 and 80-153, identified in the myoglobin molecule. However, the conformational changes are not of the same type. In fact, the solvent accessibility to tyrosine HC2 is increased probably because of a partial unfolding of the 80-153 domain. Conversely, the solvent accessibility to tyrosine B2 is decreased, thus indicating that a refolding occurs in some region of the N-terminal moiety (1-79 domain) of the molecule.

Published

1987

30. Structural and functional aspects of the heart ventricle myoglobin of bluefin tuna

Author

Ciro Balestrieri, Giovanni Colonna, Luigi Servillo, Gaetano Irace, Ettore Bismuto, Colonna, G, Irace, Gaetano, Bismuto, E, Servillo, Luigi, and Balestrieri, C.

Subjects

inorganic chemicals, Protein Conformation, Heart Ventricles, chemistry.chemical_compound, Amino acid analysis, Protein structure, Species Specificity, Sperm whale, medicine, Animals, Denaturation (biochemistry), Amino Acid Sequence, Amino Acids, Mammals, biology, Myoglobin, Tuna, Chemistry, Fishes, food and beverages, General Medicine, biology.organism_classification, medicine.anatomical_structure, Biochemistry, Ventricle, biological sciences, Conformational stability, human activities

Abstract

The heart ventricle myoglobin of bluefin tuna has been purified to an apparent homogeneity. The amino acid analysis has revealed only a limited number of substitutions between the myoglobins of yellowfin and bluefin tuna. The alpha-helix content of tuna myoglobin has been found considerably lower than that of mammalian myoglobin. No correlation has been discovered between the conformational stability and alpha-helix content. Denaturation experiments have shown that the whole structure of tuna myoglobin results from the interaction of two structural units which represent the product of independent folding processes. The structure of tuna myoglobin has been found more open and disorganized than that of sperm whale. This result has been related to the low content of electrostatic interactions and explained in terms of evolutive adaptations.

Published

1983

31. The skeletal muscle myoglobin of the water buffalo (Bos bubalus L.)

Author

Ciro Balestrieri, Gaetano Irace, Giovanni Colonna, Balestrieri, C, Colonna, G, and Irace, Gaetano

Subjects

inorganic chemicals, Buffaloes, Chromatography, Paper, Physiology, Glycine, Biochemistry, Chromatography, DEAE-Cellulose, chemistry.chemical_compound, Species Specificity, medicine, Animals, Amino Acid Sequence, Amino Acids, Molecular Biology, chemistry.chemical_classification, biology, Myoglobin, Muscles, Skeletal muscle, General Medicine, Electrophoresis, Disc, biology.organism_classification, Amino acid, medicine.anatomical_structure, chemistry, Amino acid composition, Spectrophotometry, Water buffalo, biological sciences, Cattle, Spectrophotometry, Ultraviolet, Bubalus, Crystallization, Dinitrophenols

Abstract

1. 1. The skeletal muscle myoglobin of the water buffalo ( Bos bubalus L.) has been purified by a rapid and simplified procedure. 2. 2. The amino acid composition of the myoglobin has been determined. 3. 3. The N -terminal amino acid is glycine. 4. 4. The results have been compared with other mammalian myoglobins, particularly that of the cow.

Published

1973

32. The effect of molecular confinement on the conformational dynamics of the native and partly folded state of apomyoglobin

Author

Ettore Bismuto, Gaetano Irace, Bismuto, E, and Irace, Gaetano

Subjects

Protein Folding, Protein Conformation, Biophysics, Biochemistry, Fluorescence spectroscopy, Apomyoglobin, partly folded state, Conformational dynamics, chemistry.chemical_compound, Protein structure, Structural Biology, Genetics, Animals, Frequency domain fluorometry, Protein, gel entrapment, Molecular Biology, Myoglobin, Tuna, Sepharose, Temperature, Tryptophan, Cell Biology, Hydrogen-Ion Concentration, Biomechanical Phenomena, Folding (chemistry), Crystallography, Spectrometry, Fluorescence, chemistry, Solvents, Thermodynamics, Agarose, Protein folding, Apoproteins, Half-Life

Abstract

Inclusion in agarose gel significantly affects the conformational dynamics of native and acidic partly folded states of tuna apomyoglobin, a single tryptophan containing protein, as documented by frequency domain fluorometry investigations. The heterogeneity of the tryptophanyl emission decay increases on gel inclusion compared to that observed for free-in-solvent protein at both neutral and acidic pH, thus suggesting that the interconversion rate among conformational substates is somewhat reduced. The observation that this effect is much more pronounced for the partly folded state suggests that confined environments such as those existing in the living cells might favor the sequential folding process avoiding that structured intermediates rapidly convert into less structured ones.

33. Unfolding pathway of myoglobin: molecular properties of intermediate forms

Author

Ettore Bismuto, Gaetano Irace, Francesca Savy, Giovanni Colonna, Irace, Gaetano, Bismuto, E, Savy, F, and Colonna, G.

Subjects

Circular dichroism, Protein Denaturation, Myoglobin, Circular Dichroism, Biophysics, Fluorescence Polarization, Hydrogen-Ion Concentration, Solvent accessibility, Biochemistry, Fluorescence, Guanidines, Anilino Naphthalenesulfonates, chemistry.chemical_compound, Crystallography, chemistry, Molecule, Animals, Horses, Tyrosine, Guanidine, Apoproteins, Molecular Biology, Protein secondary structure

Abstract

The guanidine-induced unfolding of myoglobin as well as apomyoglobin has been found to involve the occurrence of at least a molecular intermediate observed at low denaturant concentrations, the molecular properties of which resemble those possessed by the acid-denatured form of the protein. The two partially unfolded forms show the same secondary structure and similar tryptophanyl fluorescence emission and polarization but exhibit marked differences in the tyrosine contributions to the near-ultraviolet circular dichroism and in the degree of solvent accessibility to tyrosyl residues. The molecular characterization of the two structural forms indicates that acids disorganize the 80–146 molecular domain identified in the myoglobin molecule to a great extent with respect to that induced by low guanidine concentration, whereas the structure of the 1–79 domain appears to be quite similar in the two molecular forms.

Published

1986

34. Second-derivative spectroscopy of proteins. A method for the quantitative determination of aromatic amino acids in proteins

Author

Giovanni Colonna, Gaetano Irace, Luigi Servillo, Alfonoso Giovane, Ciro Balestrieri, Balestrieri, C, Colonna, G, Giovane, Alfonso, Irace, Gaetano, and Servillo, Luigi

Subjects

medicine.diagnostic_test, Sequence analysis, Stereochemistry, Phenylalanine, Tryptophan, Proteins, Chromophore, Biochemistry, Quantitative determination, chemistry.chemical_compound, chemistry, Spectrophotometry, Aromatic amino acids, medicine, Tyrosine, Spectrophotometry, Ultraviolet

Abstract

Second derivative spectroscopy has been used to resolve the complex protein spectrum in the near-ultraviolet region and the contributions of the three aromatic chromophores have been evaluated. A method for the direct quantitative determination of phenylalanine and tryptophan in proteins has been carried out. Phenylalanine determination has been carried out in the spectral region between 250 and 265 nm, where there are no significant contributions from other aromatic chromophores. Tryptophan determination has been performed in the 290-295-nm region and the experimental values have been corrected for the presence of tyrosine. The results obtained on 10 highly purified proteins have been found in good agreement with those obtained from sequence analysis.

Published

1978

35. Multiple conformational states in myoglobin revealed by frequency domain fluorometry

Author

Enrico Gratton, Gaetano Irace, Ettore Bismuto, Bismuto, E, Irace, Gaetano, and Gratton, E.

Subjects

biology, Myoglobin, Protein Conformation, Tuna, Myocardium, Analytical chemistry, Tryptophan, biology.organism_classification, Lifetime distribution, Biochemistry, Fluorescence, Fluorescence spectroscopy, chemistry.chemical_compound, Spectrometry, Fluorescence, chemistry, Sperm whale, Frequency domain, Picosecond, Animals, Neutral ph

Abstract

The tryptophanyl fluorescence decays of two myoglobins, i.e., sperm whale and tuna myoglobin, have been examined in the frequency domain with an apparatus which utilizes the harmonic content of a mode-locked laser. Data analysis was performed in terms of continuous distribution of lifetime having a Lorentzian shape. Data relative to sperm whale myoglobin, which possesses two tryptophanyl residues, i.e., Trp-A-5 and -A-12, provided a broad lifetime distribution including decay rates from a few picoseconds to about 10 ns. By contrast, the tryptophanyl lifetime distribution of tuna myoglobin, which contains only Trp-A-12, showed two well-separated and narrow Lorentzian components having centers at about 50 ps and 3.37 ns, respectively. In both cases, the χ2obtained from distribution analysis was lower than that provided by a fit using the sum of exponential components. The long-lived components present in the fluorescence decay of the two myoglobins do not correspond to any of those observed for the apoproteins at neutral pH. The tryptophanyl lifetime distribution of sperm whale apomyoglobin consists of two separated Lorentzian components centered at 2.25 and 5.4 ns, whereas that of tuna apomyoglobin consists of a single Lorentzian component, whose center is at 2.19 ns. Acidification of apomyoglobin to pH 3.5 produced a shift of the distribution centers toward longer lifetimes. The similarity between the values of the distribution centers of the long-lived components observed in the fluorescence decay of native myoglobins and those observed for apomyoglobins at acidic pH suggests that the long-lived component might arise from a conformational state (different from the native state) in which geometrical factors preclude energy transfer via Forster coupling from tryptophan to heme. This possibility has been further supported by the identification, in the steady-state emission spectrum of tuna myoglobin, of a component having an emission maximum similar to that observed at acidic pH, i.e., 335–337 nm. The difference between the tryptophanyl lifetime distributions of the two native holoproteins has been explained in terms of a higher degree of structural flexibility of tuna globin compared to that of sperm whale myoglobin. © 1989, American Chemical Society. All rights reserved.

Published

1989

36. Instability of coated vesicles in concentrated sucrose solutions

Author

P. P. Van Jaarsveld, Gaetano Irace, R. E. Lippoldt, Harold Edelhoch, P. K. Nandi, Nandi, Pk, Irace, Gaetano, VAN JAARSVELD, Pp, Lippoldt, Re, and Edelhoch, H.

Subjects

High sucrose, Diphenylhexatriene, Sucrose, Multidisciplinary, Chromatography, Cell Membrane, Tryptophan, Brain, Membrane Proteins, Coated vesicle, Cell Fractionation, Fluorescence, Membrane Lipids, Microscopy, Electron, chemistry.chemical_compound, Membrane, chemistry, Homogeneous, Centrifugation, Density Gradient, Animals, Cattle, Research Article

Abstract

A method of preparing homogeneous coated vesicles that eliminates the high sucrose concentrations heretofore used is presented. It is shown that sucrose at high concentrations dissociates the coat from coated vesicles. This reaction can explain the presence of empty coats observed with preparations obtained with high concentrations of sucrose. The protein and membrane lipid components have been analyzed by the intrinsic tryptophan and extrinsic diphenylhexatriene fluorescence, respectively. Analysis of mixtures of coated vesicles and baskets resolved the contributions of the two species to the fluorescence curves.

Published

1982

37. Conformational substates of myoglobin detected by extrinsic dynamic fluorescence studies

Author

Ettore Bismuto, Ivana Sirangelo, Gaetano Irace, Bismuto, E, Sirangelo, Ivana, and Irace, Gaetano

Subjects

Male, High energy, Fluorophore, Hemeprotein, Heme binding, Myoglobin, Protein Conformation, Tuna, Fluorescence spectrometry, Whales, Photochemistry, Lifetime distribution, Biochemistry, Fluorescence, Spermatozoa, chemistry.chemical_compound, Spectrometry, Fluorescence, chemistry, Chemical physics, Animals

Abstract

The extent of conformational substates of two apomyoglobins, i.e., sperm whale and tuna apomyoglobin, was investigated by examining the fluorescence decay in the frequency domain of the extrinsic fluorophore TNS [6-(p-toluidino)-2-naphthalenesulfonic acid] bound to the heme binding site. Data analysis was performed in terms of a continuous, unimodal lifetime distribution having a Lorentzian shape. The results were compared with those for the free fluorophore in an isotropic nonviscous solvent. The incorporation of TNS into the protein matrix resulted in a broadening of the lifetime distribution due to the microenvironmental heterogeneity generated by structural fluctuations. The larger width of lifetime distribution observed for TNS bound to tuna apomyoglobin was related to a more extended conformational space accessible to the fluorophore in this protein compared to sperm whale myoglobin. A temperature increase from 15 to 40 degrees C produced a further broadening of the lifetime distributions of TNS bound to both proteins. This result can be explained by assuming the existence of conformational substates at high energy content or separated by high energy barriers, which are not populated at low temperature. The overall picture emerging from the reported data is that the lifetime distributions of TNS bound to apomyoglobins are determined largely by the number of conformational substates accessible to the protein matrix and, to a lesser extent, by the interconversion rates among these states.

Published

1989

38. Unfolding pathway of myoglobin. Evidence for a multistate process

Author

Giovanni Colonna, Ettore Bismuto, Gaetano Irace, Bismuto, E, Colonna, G, and Irace, Gaetano

Subjects

Conformational change, Hydrochloride, Myoglobin, Protein Conformation, Kinetics, Hydrogen-Ion Concentration, Biochemistry, Guanidines, chemistry.chemical_compound, Crystallography, Protein structure, chemistry, Mole, Animals, Thermodynamics, Denaturation (biochemistry), Horses, Guanidine, Mathematics

Abstract

The free energy of unfolding of horse myoglobin has been calculated from the denaturation pattern induced by guanidine hydrochloride as well as by acid. The delta GH2O, i.e., the value in the absence of denaturant obtained by using the two-state transition model, was found to be 25% lower than that determined from the acid denaturation pattern, i.e., 12.0 kcal/mol, although the extent of protein denaturation produced by acid was much lower. The amount of helical structure surviving the acid-induced conformational change was estimated to be 50% of that present in the native protein, and it could be destroyed only after exposure of myoglobin samples kept at pH 3.0 to concentrated guanidine. From the guanidine denaturation pattern at acidic pH, a further variation of free energy of unfolding of 5.5 kcal/mol could be calculated, thus indicating that the overall free energy of unfolding determined from the two consecutive processes corresponds to 17.5 kcal/mol. The discrepancy between the two sets of data, i.e., guanidine unfolding at neutral pH and acid unfolding followed by addition of denaturant, has been considered to depend on the general assumption that the guanidine unfolding of myoglobin is a two-state process in the transition region. According to the recent experimental evidence showing the occurrence of at least two molecular events during the guanidine unfolding of apomyoglobin [Colonna, G., Balestrieri, C., Bismuto, E., Servillo, L., & Irace, G. (1982) Biochemistry 21, 212-215], the guanidine denaturation pattern of myoglobin was analyzed in terms of two independent steps.(ABSTRACT TRUNCATED AT 250 WORDS)

Published

1983

39. Tryptophanyl fluorescence heterogeneity of apomyoglobins. Correlation with the presence of two distinct structural domains

Author

Giovanni Colonna, Luigi Servillo, Giuseppe Parlato, Ciro Balestrieri, Gaetano Irace, Irace, Gaetano, Balestrieri, C, Parlato, G, Servillo, Luigi, and Colonna, G.

Subjects

Conformational change, Heme binding, Chemistry, Myoglobin, Protein Conformation, Tuna, Tryptophan, Quantum yield, Protonation, Hydrogen-Ion Concentration, Biochemistry, Fluorescence, Guanidines, Protein tertiary structure, Crystallography, chemistry.chemical_compound, Species Specificity, Animals, Cattle, Cetacea, Guanidine, Apoproteins

Abstract

The individual fluorescence of the two tryptophan residues (Trp-7 and Trp-14) of mammalian apomyoglobins has been resolved by comparing the fluorescence properties of these proteins to those of bluefin tuna apomyoglobin, which contains only Trp-14. The two tryptophan residues have been found to have different emission maxima, i.e., 321 for Trp-14 and 333 for Trp-7. The fluorescence of Trp-14 depends on the protonation of a sterically related histidyl residue in the pH range between 8.3 and 5.6, where no conformational change was detected. This residue has been identified as His-119. At pH 8.3 the quantum yield of Trp-7 is lower than that of Trp-14. An increase of the fluorescence intensity of Trp-7 occurs when the heme binding site of apomyoglobin is destroyed by acid or a low concentration of guanidine hydrochloride. An independent unfolding of the N-terminal district of the apomyoglobin molecular occurs on increasing the guanidine concentration. The two distinct structural transitions have been discussed in terms of two domains of tertiary structure.

Published

1981

40. Heme and cysteine microenvironments of tuna apomyoglobin. Evidence of two independent unfolding regions

Author

Luigi Servillo, Giovanni Colonna, Gaetano Irace, Ettore Bismuto, Ciro Balestrieri, Colonna, G, Balestrieri, C, Bismuto, E, Servillo, Luigi, and Irace, Gaetano

Subjects

Heme binding, Myoglobin, Protein Conformation, Tuna, Heme, Chromophore, Hydrogen-Ion Concentration, Biochemistry, Guanidines, chemistry.chemical_compound, Spectrometry, Fluorescence, chemistry, Biophysics, Animals, Hemin, Cysteine, Binding site, Guanidine, Apoproteins, Protein Binding

Abstract

The heme and cysteine microenvironments of bluefin tuna apomyoglobin have been investigated by examining the fluorescence properties of two extrinsic chromophores, i.e., ANS and 1,5-AEDANS. 1,5-AEDANS was covalently bound to the single cysteine residue found in the primary structure of tuna apomyoglobin. Recombination experiments with hemin showed that tuna apomyoglobin does not bind 1,5-AEDANS in the same binding site of the heme, although the fluorescence properties of the covalently bound 1,5-AEDANS strongly suggest that the dye is embedded in a rather nonpolar microenvironment. ANS was selected because of its ability to bind the apomyoglobin in the same nonpolar moiety of the heme. Acidification of apoMb--AEDANS to pH 3.0 produced an increase of 1,5-AEDANS fluorescence intensity and a shift of its emission maximum from 475 to 470 nm. In the same pH range apomyoglobin lost its ability to bind ANS. Two independent transitions were observed with increasing concentrations of guanidine. Low guanidine concentration (less than 1.0 M) unfolded the heme binding site as indicated by the disappearance of ANS fluorescence, whereas higher denaturant concentration was required to produce full normalization of 1,5-AEDANS emission spectrum.

Published

1982

41. Equilibrium evidence of non-single step transition during guanidine unfolding of apomyoglobins

Author

Ciro Balestrieri, Gaetano Irace, Giovanni Colonna, Alfonso Giovane, Luigi Servillo, Balestrieri, C, Colonna, G, Giovane, Alfonso, Irace, Gaetano, and Servillo, Luigi

Subjects

Protein Denaturation, Buffaloes, Protein Conformation, Biophysics, Mass spectrometry, Biochemistry, Guanidines, Anilino Naphthalenesulfonates, chemistry.chemical_compound, Protein structure, Species Specificity, Structural Biology, Genetics, Animals, Guanidine, Molecular Biology, Transition (genetics), Myoglobin, Tryptophan, Fishes, Whales, Cell Biology, Fluorescence, Crystallography, Spectrometry, Fluorescence, chemistry, Cattle, Apoproteins

Published

1976

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

Author

Enrico Gratton, Ettore Bismuto, David M. Jameson, Giovanni Colonna, Gaetano Irace, Bismuto, E, Irace, Gaetano, Colonna, G, Jameson, Dm, and Gratton, E.

Subjects

Hemeprotein, Heme binding, Protein Conformation, Biophysics, Cetacea, Heme, Biology, Biochemistry, chemistry.chemical_compound, Naphthalenesulfonates, Structural Biology, Sperm whale, Animals, Binding site, Molecular Biology, Phylogeny, Binding Sites, Myoglobin, Tuna, Whales, biology.organism_classification, Spectrometry, Fluorescence, chemistry, human activities

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

43. Effect of Unfolding on the Tryptophanyl Fluorescence Lifetime Distribution in Apomyoglobin

Author

Ettore Bismuto, Gaetano Irace, Enrico Gratton, Bismuto, E, Gratton, E, and Irace, Gaetano

Subjects

Protein Denaturation, Hemeprotein, Protein Conformation, Fluorescence spectrometry, Guanidines, Biochemistry, chemistry.chemical_compound, Protein structure, Native state, Animals, Guanidine, Myoglobin, Tuna, Myocardium, Tryptophan, Fluorescence, Kinetics, Crystallography, Spectrometry, Fluorescence, chemistry, Biophysics, Thermodynamics, Apoproteins

Abstract

Proteins exhibit, even in their native state, a large number of conformations differing in small details (substates). The fluorescence lifetime of tryptophanyl residues can reflect the microenvironmental characteristics of these subconformations. We have analyzed the lifetime distribution of the unique indole residue of tuna apomyoglobin (Trp A-12) during the unfolding induced by temperature or guanidine hydrochloride. The results show that the increase of the temperature from 10 to 30 °C causes a sharpening of the lifetime distribution. This is mainly due to the higher rate of interconversion among the conformational substates in the native state. A further temperature increase produces partially or fully unfolded states, resulting in a broadening of the tryptophanyl lifetime distribution. The data relative to the guanidine-induced unfolding show a sigmoidal increase of the distribution width, which is due to the transition of the protein structure from the native to the random-coiled state. The broadening of the lifetime distribution indicates that, even in the fully unfolded protein, the lifetime of the tryptophanyl residues is influenced by the protein matrix, which generates very heterogeneous microenvironments. © 1988, American Chemical Society. All rights reserved.

Published

1988

44. Purification and some properties of an alkaline phosphatase from beef brain

Author

Gaetano Irace, Ciro Balestrieri, Francesco Cedrangolo, Giovanni Colonna, Balestrieri, C, Colonna, G, Irace, Gaetano, and Cedrangolo, F.

Subjects

Physiology, Size-exclusion chromatography, Fraction (chemistry), Biochemistry, Michaelis–Menten kinetics, Chromatography, DEAE-Cellulose, chemistry.chemical_compound, Animals, Molecular Biology, Polyacrylamide gel electrophoresis, chemistry.chemical_classification, Chromatography, biology, Acid phosphatase, Brain, General Medicine, Hydrogen-Ion Concentration, Phosphate, Alkaline Phosphatase, Electrophoresis, Disc, Molecular Weight, Kinetics, Enzyme, chemistry, biology.protein, Chromatography, Gel, Alkaline phosphatase, Cattle, Spectrophotometry, Ultraviolet

Abstract

1. 1. A method for the purification of alkaline phosphatase (orthophosphoric monoester phosphophydrolases, EC 3.1.3.1) from beef brain has been described. 2. 2. Two alkaline phosphatase fractions have been separated by means of DEAE-cellulose chromatography. The main fraction was homogeneous on polyacrylamide gel electrophoresis. 3. 3. The molecular weight of the enzyme determined by gel filtration chromatography has been estimated to be about 180,000. The Michaelis constant and optimum pH for p-nitrophenyl phosphate have been determined. 4. 4. The results have been compared with those of another recently reported alkaline phosphatase isolated from the same source. The dissimilarity of two enzymes is described and discussed.

Published

1975

45. Spectroscopic properties of rhodamine B-labeled thyroid hormone

Author

Sheve‐Yann Cheng, Gaetano Irace, Harold Edelhoch, Edelhoch, H, Cheng, S. Y., and Irace, Gaetano

Subjects

chemistry.chemical_compound, medicine.anatomical_structure, History and Philosophy of Science, chemistry, General Neuroscience, Thyroid, medicine, Rhodamine B, Molecular biology, General Biochemistry, Genetics and Molecular Biology, Hormone

Published

1981

46. Conformational stability and basal metabolic rate: reexamination of the case of myoglobin

Author

Luigi Servillo, Giovanni Colonna, Alfonso Giovane, Gaetano Irace, Bismuto E, Bismuto, E, Irace, Gaetano, Servillo, Luigi, Giovane, Alfonso, and Colonna, G.

Subjects

inorganic chemicals, Pharmacology, Protein Denaturation, Chemistry, Myoglobin, Protein Conformation, Circular Dichroism, Cell Biology, Cellular and Molecular Neuroscience, chemistry.chemical_compound, Kinetics, Biochemistry, Species Specificity, biological sciences, Basal metabolic rate, Molecular Medicine, Animals, Humans, Thermodynamics, Conformational stability, Basal Metabolism, Animal species, Molecular Biology, Simple correlation

Abstract

The free energy of unfolding of several myoglobins from different animal species has been determined from their denaturation pattern by using the ligand binding model. The results indicate that no simple correlation exists between the free energy of unfolding of myoglobin and the basal metabolic rate of the animal species from which the myoglobin was isolated.

Published

1984

47. Protein conformational changes induced by guanidine at predenaturational concentrations

Author

Ettore Bismuto, Gaetano Irace, Bismuto, E, and Irace, Gaetano

Subjects

Protein Denaturation, biology, Myoglobin, Alcohol Dehydrogenase, Biochemistry, Guanidines, Fluorescence spectroscopy, Protein tertiary structure, chemistry.chemical_compound, Spectrometry, Fluorescence, chemistry, Liver, Naphthalenesulfonates, biology.protein, Unfolded protein response, Guanidine, Apoproteins, Alcohol dehydrogenase, Fluorescent Dyes

Abstract

The nature of the molecular event that apomyoglobin undergoes at predenaturational concentrations of guanidine has been investigated by means of steady-state and multifrequency phase and modulation fluorometry. The results have been compared to those observed for liver alcohol dehydrogenase. From these studies has been hypothesized a different susceptibility of the distinct elements of secondary, super-secondary, and tertiary structure towards the denaturing action of guanidine at predenaturational concentrations.

Published

1988

48. Myoglobin structure and regulation of solvent accessibility of heme pocket

Author

Giovanni Colonna, Ettore Bismuto, Francesca Savy, Gaetano Irace, Bismuto, E, Colonna, G, Savy, F, and Irace, Gaetano

Subjects

Circular dichroism, Hemeprotein, Buffaloes, Protein Conformation, Dolphins, Fluorescence spectrometry, Heme, Biochemistry, chemistry.chemical_compound, Protein structure, Species Specificity, Sperm whale, Animals, Protein secondary structure, Binding Sites, biology, Myoglobin, Tuna, Whales, biology.organism_classification, chemistry, Biophysics, Solvents, Thermodynamics, Cattle, Protein Binding

Abstract

The effects of heme removal on the molecular structure of tuna and sperm whale myoglobin have been investigated by comparing the solvent accessibility to the heme pocket of the two proteins with that of the corresponding apoproteins. Although the heme microenvironment of tuna myoglobin is more polar than that of sperm whale myoglobin, the accessibility of solvent to heme is identical in the two proteins as revealed by thermal perturbation of Soret absorption. The removal of heme produces loss of helical folding and increase of solvent accessibility but the effects are rather different for the two proteins. More precisely, the loss of helical structure upon heme removal is 50% for tuna myoglobin and 15% for sperm whale myoglobin; moreover, the solvent accessibility of the heme pocket of tuna apomyoglobin is 2-3-fold greater than that of sperm whale apomyoglobin. These results have been explained in terms of the lack of helical folding in segment D, the structural organization of which may have a relevant effect in regulating the accessibility of ligands to the heme. The effects produced by charged quenchers reveal that the ligand path from the surface of the molecule to the ion atom of the heme involves a positively charged residue which may reasonably be identified as Arg-45 (sperm whale myoglobin) or Lys-41 (tuna myoglobin) on the basis of recent X-ray crystallographic information.

Published

1985

49. Purification and molecular properties of rabbit lung indolamine N-methyltransferase

Author

G Irace, G. Della Pietra, Raffaele Porta, M. Camardella, Giovanni Colonna, Irace, Gaetano, Colonna, G, Camardella, M, DELLA PIETRA, G, Porta, R., G., Irace, G., Colonna, M., Camardella, G., DELLA PIETRA, and Porta, Raffaele

Subjects

Chemical Phenomena, Fluorescence Polarization, Biochemistry, chemistry.chemical_compound, Protein structure, Animals, Guanidine, Lung, Stokes radius, chemistry.chemical_classification, biology, Chemistry, Circular Dichroism, Active site, Methyltransferases, Fluorescence, Enzyme structure, Tryptamines, Molecular Weight, Crystallography, Kinetics, Enzyme, Monomer, Spectrometry, Fluorescence, biology.protein, Chromatography, Gel, Electrophoresis, Polyacrylamide Gel, Spectrophotometry, Ultraviolet, Rabbits

Abstract

Indolamine N-methyltransferase (INMT) has been purified to an apparent homogeneity from rabbit lung, and some of its catalytic and physicochemical properties have been examined. The enzyme is a monomeric protein with a molecular weight of 31,500 +/- 1000, a molecular Stokes radius of 21.5 A, and a diffusion coefficient of 8.7 X 10(-7) cm2/s. The frictional ratio of the native enzyme (1.05) suggests that the shape of the molecule is nearly spherical. Denaturation experiments performed with increasing concentrations of guanidine hydrochloride (Gdn-HCl) at neural pH indicated that the active site of the enzyme was destroyed by a structural rearrangement of the protein molecule without large change in its size and shape. The final state reached in 6.0 M Gdn . HCl seemed to correspond to a disulfide cross-linked randomly coiled polypeptide. Full normalization of the fluorescent parameter was attained only in the presence of 0.1 M beta-mercaptoethanol. A structural rearrangement has been observed upon acidification of INMT from pH 7.0 to pH 2.0. At pH 4.5, most of the peptide backbone appeared to be unorganized, but further acidification to pH 2.0 produced a reorganization of protein structure which became able to bind 8-anilino-1-naphthalenesulfonate. The data support the hypothesis that the enzyme structure results from the close package of organized regions joined by structureless segments.