Frank D. Yelian scite author profile

To investigate the mechanism of trophoblast adhesion to fibronectin, we cultured blastocysts in serum-free medium on proteolytic fibronectin fragments containing its major functional domains, and localized fibronectin-binding integrins in outgrowing trophoblast cells by immunofluorescent staining. Outgrowth comparable to that obtained with intact fibronectin was observed using a 120 kD chymotryptic fragment containing the central cell-binding domain (FN-120) and the Arg-Gly-Asp (RGD) recognition sequence. A 40 kD COOH-terminal chymotryptic fragment of fibronectin containing both a heparin-binding region and an alternate (non-RGD) cell-binding site was inactive in supporting trophoblast adhesion. Three synthetic peptides derived from the heparin-binding domain, including the CS1 alternate cell-binding site, were also unable to promote trophoblast cell adhesion. A 75 kD recombinant protein, ProNectin F, containing 13 copies of the cell recognition epitope of fibronectin, Val-Thr-Gly-Arg-Gly-Asp-Ser-Pro-Ala-Ser, vigorously supported blastocyst outgrowth. Blastocyst outgrowth was not significantly different when surfaces were precoated with cellular fibronectin, which contains an alternatively spliced type III repeat and is the form actually encountered in vivo. Several putative fibronectin receptors were localized in trophoblast outgrowths by immunofluorescent labeling. Antibodies reactive with integrin subunits alpha 3, alpha 5, alpha IIb, alpha v, beta 1 and beta 3, but not alpha 4, all bound to trophoblast cells. Antibodies raised against either the beta 1 or beta 3 integrin subunits significantly inhibited fibronectin-mediated outgrowth. These findings demonstrate the key role of the central cell-binding domain of fibronectin in trophoblast adhesion, and suggest four RGD-binding integrins, alpha 3 beta 1, alpha 5 beta 1, alpha IIb beta 3, and alpha v beta 3, that could mediate trophoblast adhesion in vitro and may play an important role during implantation.

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Retrieval of trophoblast cells from the cervical canal for prediction of abnormal pregnancy: a pilot study

Imudia

Suzuki

Kilburn

et al. 2009

Human Reproduction

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Recombinant entactin promotes mouse primary trophoblast cell adhesion and migration through the Arg-Gly-Asp (RGD) recognition sequence [published erratum appears in J Cell Biol 1993 Jul;122(1):279]

Yelian

Edgeworth

Dong

et al. 1993

The Journal of Cell Biology

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Abstract. In vitro culture of mouse blastocysts during the period coinciding with implantation has revealed that primary trophoblast cells can adhere and migrate in serum-free medium when provided with certain extracellular matrix components, including fibronectin and laminin. Tightly associated with laminin is the glycoprotein, entactin, that may play an important role in basement membrane assembly and cell attachment. Mouse blastocysts were studied using this in vitro model to determine whether entactin was capable of mediating trophoblast invasive activity. Although entactin has never been shown to promote cell migration, we report here that recombinant entactin supported blastocyst outgrowth in a dose-dependent manner, with a maximal effect at 20-50/zg/ml. The ability of trophoblast cells to adhere and migrate on entactin was specifically inhibited by anti-entactin antibody, but not by antibodies raised against laminin. The synthetic peptide, Gly-Arg-Gly-Asp-Ser-Pro, that contains the Arg-Gly-Asp (RGD) integrin recognition site, reversibly inhibited entactin-mediated blastocyst outgrowth in a dose-dependent manner, but had no effect on laminin-mediated outgrowth. The synthetic peptide, Gly-Phe-Arg-Gly-Asp-Gly-Gln, that comprises the actual RGD-containing sequence within entactin, promoted trophoblast outgrowth when immobilized on the substratum. Furthermore, a mutated recombinant entactin, altered to contain a Gin in place of Asp at the RGD site, provided no trophoblast cell adhesive activity. We conclude that entactin promotes trophoblast outgrowth through a mechanism mediated by the RGD recognition site, and that it may play an important role during invasion of the endometrial basement membrane at implantation.

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Blastocyst Cavitation is Accelerated by Ethanol- or Ionophore-Induced Elevation of Intracellular Calcium1

Stachecki

Yelian

Schultz

et al. 1994

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To extend our previous finding that ethanol stimulates murine preimplantation development, we focused in the current study on the cavitation and expansion of the blastocyst. Ethanol stimulation of blastocyst cavitation and expansion was optimal at a concentration of 0.1% and required only a 5-min exposure. Because intracellular levels of calcium were transiently increased in the ethanol-exposed embryos, we determined the effect of directly increasing calcium on the rates of blastocyst cavitation and expansion. Treatment with the calcium ionophore, A23187, altered development much as did ethanol, indicating that ethanol may stimulate preimplantation development by increasing the intracellular calcium concentration. The relationship between intracellular calcium levels and blastocoel volume suggests that morphogenetic events during preimplantation development, particularly cavitation and blastocyst formation, may be regulated through modulation of intracellular calcium levels.

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Mouse blastocyst outgrowth and implantation rates following exposure to ethanol or A23187 during culture in vitro

Stachecki¹,

Yelian²,

Leach³

et al. 1994

Reproduction

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Frank D. Yelian

Molecular interactions between fibronectin and integrins during mouse blastocyst outgrowth

Retrieval of trophoblast cells from the cervical canal for prediction of abnormal pregnancy: a pilot study

Recombinant entactin promotes mouse primary trophoblast cell adhesion and migration through the Arg-Gly-Asp (RGD) recognition sequence [published erratum appears in J Cell Biol 1993 Jul;122(1):279]

Blastocyst Cavitation is Accelerated by Ethanol- or Ionophore-Induced Elevation of Intracellular Calcium1

Mouse blastocyst outgrowth and implantation rates following exposure to ethanol or A23187 during culture in vitro

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