We have recently reported that elastin microfibril interface located protein 2 (EMILIN2), an extracellular matrix (ECM) glycoprotein, triggers cell death through a direct binding to death receptors. EMILIN2 thus influences cell viability through a mechanism that is unique for an ECM molecule. In the present work, we report an additional function for this molecule. First, we identify the region responsible for the proapoptotic effects, a 90-amino acid residue-long coiled-coil fragment toward the N-terminus of the molecule. The fragment recapitulates EMILIN2 proapoptotic mechanisms. In addition, using either the full molecule or the active fragment, for the first time, we demonstrate a significant antitumoral effect in vivo, likely due to a decrease in tumor cell viability. Unexpectedly, tumors treated with EMILIN2 or the deletion mutant display a significant increase of tumor angiogenesis. In view of this novel finding, the cotreatment of the growing tumors with an antiangiogenic drug led, in most cases, to a complete regression of tumor growth. These results grant further support to recent findings that pinpoint the microenvironment as an important regulator of cell fate under both physiological and pathological conditions and disclose the possibility of using EMILIN2 fragments as potent antineoplastic tools for cancer treatment.

The extracellular matrix glycoprotein elastin microfibril interface located protein 2: a dual role in the tumor microenvironment / Mongiat, Maurizio; Marastoni, Stefano; Ligresti, Giovanni; Lorenzon, Erica; Schiappacassi, Monica; Perris, Roberto; Frustaci, Sergio; Colombatti, Alfonso. - In: NEOPLASIA. - ISSN 1522-8002. - 12:4(2010), p. 294-304.

The extracellular matrix glycoprotein elastin microfibril interface located protein 2: a dual role in the tumor microenvironment

MARASTONI, stefano;PERRIS, Roberto;
2010

Abstract

We have recently reported that elastin microfibril interface located protein 2 (EMILIN2), an extracellular matrix (ECM) glycoprotein, triggers cell death through a direct binding to death receptors. EMILIN2 thus influences cell viability through a mechanism that is unique for an ECM molecule. In the present work, we report an additional function for this molecule. First, we identify the region responsible for the proapoptotic effects, a 90-amino acid residue-long coiled-coil fragment toward the N-terminus of the molecule. The fragment recapitulates EMILIN2 proapoptotic mechanisms. In addition, using either the full molecule or the active fragment, for the first time, we demonstrate a significant antitumoral effect in vivo, likely due to a decrease in tumor cell viability. Unexpectedly, tumors treated with EMILIN2 or the deletion mutant display a significant increase of tumor angiogenesis. In view of this novel finding, the cotreatment of the growing tumors with an antiangiogenic drug led, in most cases, to a complete regression of tumor growth. These results grant further support to recent findings that pinpoint the microenvironment as an important regulator of cell fate under both physiological and pathological conditions and disclose the possibility of using EMILIN2 fragments as potent antineoplastic tools for cancer treatment.
The extracellular matrix glycoprotein elastin microfibril interface located protein 2: a dual role in the tumor microenvironment / Mongiat, Maurizio; Marastoni, Stefano; Ligresti, Giovanni; Lorenzon, Erica; Schiappacassi, Monica; Perris, Roberto; Frustaci, Sergio; Colombatti, Alfonso. - In: NEOPLASIA. - ISSN 1522-8002. - 12:4(2010), p. 294-304.
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Utilizza questo identificativo per citare o creare un link a questo documento: http://hdl.handle.net/11381/2813156
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