Your search keyword '"Patrone E."' showing total 7 results

1. Conformation Dependent Pro-Apoptotic Activity of the Recombinant Human Prion Protein Fragment 90-231

Author

Corsaro, A., Paludi, D., Villa, V., D'Arrigo, C., Chiovitti, K., Thellung, S., Russo, C., Di Cola, D., Ballerini, P., Patrone, E., Schettini, G., Aceto, A., and Florio, T.

Abstract

The transition of prion protein from a mainly α-structured isoform (PrPC) to a β sheet-containing protein (PrPSc) represents a major pathogenetic mechanism in prion diseases. To study the role of PrP structural conformation in prion-dependent neurodegeneration, we analysed the neurotoxicity of PrP in α and β conformations, using a recombinant protein encompassing amino acids 90-231 of the human PrP (hPrP90-231). Using controlled thermal denaturation (S3°C, 1h) we converted hPrP90-231 in a structural isoform displaying PrPSc-related characteristics: high β sheet content, increased aggregability and a slight increase in the resistance to protease K. In virtue of these structural changes, hPrP90-231 powerfully affected the survival of SH-SY5Y cells, inducing a caspase-3 and p38- dependent apoptosis. Conversely, in the native α-helix-rich conformation, hPrP90-231 did not show significant cell toxicity. The relationship between the structural state of hPrP90-231 and its neurotoxicity was demonstrated, inducing the thermal denaturation of the peptide in the presence of Congo red that prevented both the transition of hPrP90-231 into a β-rich isoform and the acquisition of toxic properties. In conclusion, we report that the toxicity of hPrP90-231 is dependent on its three-dimensional structure, as is supposed to occur for the pathogen PrP during TSE.

Published

2006

2. Chromatin changes in cell transformation: progressive unfolding of the higher-order structure during the evolution of rat hepatocyte nodules. A differential scanning calorimetry study

Author

Barboro, P., Pasini, A., Parodi, S., Balbi, C., Cavazza, B., Allera, C., Lazzarini, G., and Patrone, E.

Published

1993

3. The condensation of chromatin in apoptotic thymocytes shows a specific structural change.

Author

Allera, C, Lazzarini, G, Patrone, E, Alberti, I, Barboro, P, Sanna, P, Melchiori, A, Parodi, S, and Balbi, C

Abstract

Chromatin condensation and DNA cleavage at internucleosomal sites have been recognized early as hallmarks of apoptosis, and it has been suggested that extensive DNA chain scission could directly result in the formation of dense chromatin bodies. Here we have shown that no causal relationship exists between DNA degradation and chromatin condensation in glucocorticoid-induced thymocyte apoptosis. The chromatin rearrangement occurred independent of as well as prior to DNA cleavage and involved a specific conformational change at the nucleosome level. In the early stages of the process, the core particles appeared to be tightly packed face-to-face in smooth 11-nm filaments that progressively folded to generate a closely woven network. The network finally collapsed, producing dense apoptotic bodies. Since trypsin digestion relaxed condensed chromatin and histone H4 underwent appreciable deacetylation in the apoptotic cell, we suggest that changes in the DNA-histone interactions represented a major modulating factor of condensation.

Published

1997

4. Differential nuclear matrix-intermediate filament expression in human prostate cancer in respect to benign prostatic hyperplasia

Author

Alberti, I., Parodi, S., Barboro, P., Sanna, P., Nicolo, G., Allera, C., Patrone, E., Galli, S., and Balbi, C.

Published

1996

5. Higher-Order Structure Of Chromatin From Resting Cells : I. Electron Microscopy Of Chromatin From Calf Thymus

Author

Cavazza, B., Trefiletti, V., Pioli, F., Ricci, E., and Patrone, E.

Abstract

Extremely large domains of the genome of resting cells (calf thymus) have been visualized in the electron microscope by combining mild extraction procedures with a non-artifactual method of mounting the sample (the phospholipid monolayer technique). The observed chromatin strands, free from distortion, reach contour lengths up to 60μm. After lysis of the nuclei, four classes of fibres may be identified on the basis of their diameters (30, 24, 18 and 11 nm, respectively). The morphology of giant chromatin strands is strikingly regular; long trains of equally sized, arc-shaped segments are observed, their length being, in many cases, multiples of a fixed value. The inflection points delimiting contiguous segments are often associated with laminar fragments of the nuclear envelope or, less frequently, linked to fibrillar elements. It appears that higher-order structures of chromatin in resting cells conform, to a large extent, to a so called ‘drapery-like’ model, according to which a continuous strand runs between contiguous an-chorage sites placed on the nuclear envelope. Because of the presence of regularly spaced inflection points, this organization is much more ordered than expected. Spontaneous unwinding of the fibres at low ionic strength, limited nuclease digestion, and relaxation in the presence of ethidium bromide, have been used as probes of the conformation. All these experiments rule out its identification with a single-strand helix. The final ordered state is attained by folding the basic 11 nm strand and by winding up this configuration on itself. This leads to a coiled-coil or ‘rope-like’ model. The 11 nm strand is ‘punctuated’ by sharp kinks. Roughly, it may be assimilated to a chain of semirigid, freely joined elements. As a consequence, local flexibility is greatly enhanced, so allowing the assembly mode described.

Published

1983

6. Higher-Order Structure Of Chromatin From Resting Cells : Ii. High-Resolution Computer Analysis Of Native Chromatin Fibres And Freeze-Etching Of Nuclei From Rat Liver Cells

Author

Nicolini, C., Cavazza, B., Trefiletti, V., Pioli, F., Beltrame, F., Brambilla, G., Maraldi, N., and Patrone, E.

Abstract

Non-destructive electron microscopy of native chromatin from rat liver nuclei reveals that the 30 nm fibre is formed of four 11 nm nucleofilaments, arranged in a coiled-coil (or rope-like) conformation. At low ionic strength, native fibres show an alternating pattern of compact and unwound regions. Freeze-etching experiments carried out on the same nuclei are compatible with the existence of periodic attachments of the fibres to the nuclear envelope near the pores in a regular, drapery-like fashion. For the first time, computer image analysis has been applied to electron micrographs of giant chromatin fibres and a few essential geometrical parameters characterizing the conformation of the higher-order structures have been determined. No significant difference has been found between calf thymus and rat liver chromatin.

Published

1983

7. Hydrophobe Polyelektrolyte: Darstellung und Konformations Eigenschaften von Poly(styrol-co-methacrylsäure)

Author

Conio, G., Patrone, E., Russo, S., and Trefiletti, V.

Published

1978