Marta Cervi scite author profile

EMILIN-1 (Elastin MicrofibrilInterface Located ProteIN), the prototype of the EMILIN family, consists of a cysteine-rich domain (EMI domain) at the N terminus, an extended region with a high potential coiled-coil structure, a short collagenous stalk, and a self-interacting globular gC1q-l domain. EMILIN-1 is an adhesive extracellular matrix constituent associated with elastic fibers, detected also in the proximity of cell surfaces. To localize the cell attachment site(s), monoclonal antibodies (mAbs) against EMILIN-1 or the gC1q-1 domain were used to inhibit cell attachment to EMILIN-1. Thus, one mAb mapping to the gC1q-1 domain caused complete inhibition of cell attachment. EMILIN-1 and gC1q-1 displayed a comparable dose-dependent ability to promote cell adhesion. Adhesion kinetics was similar to that of fibronectin (FN), reaching the maximum level of attachment at 20 min, but in the absence of cations adhesion was negligible. The relative adhesion strength to detach 50% of the cells was similar for EMILIN-1 and gC1q-1 (250 -270 ؋ g) but lower than that for FN (> >500). Cell adhesion to EMILIN-1 or gC1q-1 was completely blocked by a function-blocking ␤ 1 integrin subunit mAb. In contrast, adhesion to the complement C1q component was totally unaffected. Among the various function-blocking mAbs against the ␣ integrin subunits only the anti-␣ 4 fully abrogated cell adhesion to gC1q-1 and up to 70% to EMILIN-1. Furthermore, only K562 cells transfected with the ␣ 4 integrin chain, but not wild type K562, were able to adhere to EMILIN-1 and were specifically inhibited by anti-␣ 4 function-blocking mAb. Finally, cells attached to EMILIN-1 or gC1q-1, compared with cells plated on FN or vitronectin, which appeared well spread out on the substrate with prominent stress fibers and focal contacts, were much smaller with wide ruffles and a different organization status of the actin cytoskeleton along the cell periphery. This pattern was in accord with the ability of EMILIN-1 to promote cell movement.

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EMILIN1 represents a major stromal element determining human trophoblast invasion of the uterine wall

Spessotto

Bulla

Danussi

et al. 2006

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The detection of EMILIN1, a connective tissue glycoprotein associated with elastic fibers, at the level of the ectoplacental cone and trophoblast giant cells of developing mouse embryos (Braghetta et al., 2002) favored the idea of a structural as well as a functional role for this protein in the process of placentation. During the establishment of human placenta, a highly migratory subpopulation of extravillous trophoblasts (EVT), originating from anchoring chorionic villi, penetrate and invade the uterine wall. In this study we show that EMILIN1, produced by decidual stromal and smooth muscle uterine cells, is expressed in the stroma and in some instances as a gradient of increasing concentration in the perivascular region of modified vessels. This distribution pattern is consistent with the haptotactic directional migration observed in in vitro functional studies of freshly isolated EVT and of the immortalized HTR-8/SVneo cell line of trophoblasts. Function-blocking monoclonal antibodies against α4-integrin chain and against EMILIN1 as well as the use of EMILIN1-specific short interfering RNA confirmed that trophoblasts interact with EMILIN1 and/or its functional gC1q1 domain via α4β1 integrin. Finally, membrane type I-matrix metalloproteinase (MT1-MMP) and MMP-2 were upregulated in co-cultures of trophoblast cells and stromal cells, suggesting a contributing role in the haptotactic process towards EMILIN1.

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Ultrastructural evaluation of human metaphase II oocytes after vitrification: closed versus open devices

Bonetti¹,

Cervi²,

Tomei³

et al. 2011

Fertility and Sterility

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The α4β1/EMILIN1 interaction discloses a novel and unique integrin-ligand type of engagement

et al. 2018

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Marta Cervi

β1 Integrin-dependent Cell Adhesion to EMILIN-1 Is Mediated by the gC1q Domain

EMILIN1 represents a major stromal element determining human trophoblast invasion of the uterine wall

Ultrastructural evaluation of human metaphase II oocytes after vitrification: closed versus open devices

The α4β1/EMILIN1 interaction discloses a novel and unique integrin-ligand type of engagement

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