Regulation of mouse blastocyst adhesion,outgrowth and matrix metalloproteinase—2 by focal adhesion kinase

The interaction of extracellular matrix-integrin markedly influences the adhesion,outgrowth,differentiation and expression of serine proteinases by the blastocyst,so it is regarded as a vital factor in blastocyst implantation.Although the mechanism of extracellular interactions between extracellular matrix and integrins has been well elucidated,the roles of the signaling molecules in the extracellular matrix-integrin signal transduction pathway in blastocyst implantation are unknown.This limits the understanding of blastocyst implantation and ECM-integrin signal transduction pathway.In the present study,in vitro blastocyst culture and indirect immunocytochemistry,matrix metalloproteinases(MMPs) zymography and antisense oligodeoxynucleotide(ODN) were used to investigate the expression of a fundamental molecule of integrin-dependent signal transduction pathways,focal adhesion kinase(FAK),in mouse blastocysts and its influence on mouse blastocyst adhesion,outgrowth and MMP-2.The results showed that mouse blastocysts expressed FAK.FAK protein was clustered in the peripheral migrating trophoblast cells and dispersed in the central area of blastocyst outgrowth.Fibronectin triggered pro-MMP-2 and 64kD MMP-2 activities.The antisense ODN to FAK attnuated pro-MMP-2 and 64kD MMP-2 activites which decreased abruptly and tended to disappear with increasting concentrations of the antisense ODN.Both mouse blastocyst adhesion and outgrowth on fibronectin were also influenced by the antisense ODN.Up to 20μg/mL of the antisense ODN concentration,the adhesion and out-growth rates were decreased in a dose-dependent manner.The results indicated that FAK influenced mouse blastocyst adhesion,outgrowth and MMP-2 activity by intracellular signal transduction.In other words,FAK regulates mouse implantation in terms of blastocyst adhesive and invasive abilities.