Your search keyword '"Marina Ziche"' showing total 6 results

1. A novel protein from the serum of Python sebae, structurally homologous with type-γ phospholipase A2 inhibitor, displays antitumour activity.

Author

Sandra Donnini, Federica Finetti, Simona Francese, Francesca Boscaro, Francesca R. Dani, Fabio Maset, Roberta Frasson, Michele Palmieri, Mario Pazzagli, Vincenzo De Filippis, Enrico Garaci, and Marina Ziche

Subjects

BLOOD proteins, AFRICAN rock python, PROTEIN structure, ENZYME inhibitors, PHOSPHOLIPASE A2, ANTINEOPLASTIC agents, SQUAMOUS cell carcinoma, TUMOR growth

Abstract

Cytotoxic and antitumour factors have been documented in the venom of snakes, although little information is available on the identification of cytotoxic products in snake serum. In the present study, we purified and characterized a new cytotoxic factor from serum of the non-venomous African rock python (Python sebae), endowed with antitumour activity. PSS (P. sebae serum) exerted a cytotoxic activity and reduced dose-dependently the viability of several different tumour cell lines. In a model of human squamous cell carcinoma xenograft (A431), subcutaneous injection of PSS in proximity of the tumour mass reduced the tumour volume by 20%. Fractionation of PSS by ion-exchange chromatography yielded an active protein fraction, F5, which significantly reduced tumour cell viability in vitro and, strikingly, tumour growth in vivo. F5 is composed of P1 (peak 1) and P2 subunits interacting in a 1:1 stoichiometric ratio to form a heterotetramer in equilibrium with a hexameric form, which retained biological activity only when assembled. The two peptides share sequence similarity with PIP {PLI-γ [type-γ PLA2 (phospholipase A2) inhibitor] from Python reticulatus}, existing as a homohexamer. More importantly, although PIP inhibits the hydrolytic activity of PLA2, the anti-PLA2 function of F5 is negligible. Using high-resolution MS, we covered 87 and 97% of the sequences of P1 and P2 respectively. In conclusion, in the present study we have identified and thoroughly characterized a novel protein displaying high sequence similarity to PLI-γ and possessing remarkable cytotoxic and antitumour effects that can be exploited for potential pharmacological applications. [ABSTRACT FROM AUTHOR]

Published

2011

2. Effects of Substance P on Mesenteric Lymphatic Contractility in the Rat.

Author

Sandra Amerini, Marina Ziche, Steven T. Greiner, and David C. Zawieja

Published

2004

3. Distinct capillary density and progression promoted by vascular endothelial growth factor-A homodimers and heterodimers.

Author

Lucia Morbidelli, Ralf Birkenhaeger, Wolfgang Roeckl, Harris J. Granger, Uwe Kaerst, Herbert A. Weich, and Marina Ziche

Published

1997

4. Biology and physiopathology of angiogenesis: the 1997 Philippe Laudat Conference.

Author

The Scientific Committee (Roy Bicknell, Andreas Bikfalvi, Jean-Jacques Feige, and Jean Plouët and Marina Ziche)

Published

1998

5. The Italian `Special Project on Angiogenesis'.

Author

Marina Ziche and Marco Presta

Published

1997

6. A fucose-containing O-glycoepitope on bovine and human nucleolin.

Author

Silvia Aldi, Cinzia Della Giovampaola, Riccardo Focarelli, Alessandro Armini, Marina Ziche, Federica Finetti, and Floriana Rosati

Subjects

CANCER cells, ANTIGEN analysis, IMMUNOBLOTTING, MASS spectrometry

Abstract

In this paper, we demonstrate the existence and localization of fucosyl-containing O-glycoforms of nucleolin in cultured bovine endothelial cells (CVEC) and malignant cultured human A431 cells. The tool for this discovery was an antibody raised against gp273, a glycoprotein ligand for the sperm–egg interaction in the mollusc bivalve Unio elongatulus. The function and immunological properties of gp273 mainly depend on clustered Lewis-like, fucose-containing O-glycans. Here an anti-gp273 antibody was used to evaluate whether glycoepitopes similar to those of gp273 are part of potential ligands of selectins in endothelial cells. We found that anti-gp273 strongly and exclusively interacted with a 110 kDa protein in CVEC and A431 tumor cells. After partial purification, mass spectrometry identified the protein as nucleolin. This was confirmed by comparing anti-gp273 and anti-nucleolin antibody immunoblotting after nucleolin depletion. We confirmed that anti-gp273 binding to nuclear and extranuclear nucleolin was against a fucose-containing O-glycoepitope by immunoblot analysis of the protein after chemically removing O-glycans and by lectin-blot analysis of control and nucleolin-depleted samples. Using anti-gp273 IgG, we detected nucleolin on the plasma membrane and cytoplasm. O-Glycosylation may regulate the plethora of functions in which nucleolin is involved. [ABSTRACT FROM AUTHOR]

Published

2009