Endometrial signals improve embryo outcome: functional role of vascular endothelial growth factor isoforms on embryo development and implantation in mice

Binder, N. K.; Evans, J.; Gardner, D. K.; Salamonsen, L. A.; Hannan, N. J.
October 2014
Human Reproduction;Oct2014, Vol. 29 Issue 10, p2278
Academic Journal
STUDY QUESTION: Does vascular endothelial growth factor (VEGF) have important roles during early embryo development and implantation? SUMMARY ANSWER: VEGF plays key roles during mouse preimplantation embryo development, with beneficial effects on time to cavitation, blastocyst cell number and outgrowth, as well as implantation rate and fetal limb development. WHAT IS KNOWN ALREADY: Embryo implantation requires synchronized dialog between maternal cells and those of the conceptus. Following ovulation, secretions from endometrial glands increase and accumulate in the uterine lumen. These secretions contain important mediators that support the conceptus during the peri-implantation phase. Previously, we demonstrated a significant reduction ofVEGFAin the uterine cavity of women with unexplained infertility. Functional studies demonstrated that VEGF significantly enhanced endometrial epithelial cell adhesive properties and embryo outgrowth. STUDY DESIGN, SIZE, DURATION: Human endometrial lavages (n = 6) were obtained from women of proven fertility. Four-week old Swiss mice were superovulated and mated with Swiss males to obtain embryos for treatment with VEGF in vitro. Preimplantation embryo development was assessed prior to embryo transfer (n = 19-30/treatment group/output). Recipient FI female mice (8-12 weeks of age) were mated with vasectomized males to induce pseudopregnancy and embryos were transferred. On Day 14.5 of pregnancy, uterine horns were collected for analysis of implantation rates as well as placental and fetal development (n = 14-19/treatment). PARTICIPANTS/MATERIALS, SETTING, METHODS: Lavage fluid was assessed by western immunoblot analysis to determine the VEGF isoforms present. Mouse embryos were treated with either recombinant human (rh)VEGF, or VEGF isoforms 121 and 165. Preimplantation embryo development was quantified usingtime-lapse microscopy. Blastocysts were (i) stained for cell number, (ii) transferred to wells coated with fibronectin to examine trophoblast outgrowth or (iii) transferred to pseudo pregnant recipients to analyze implantation rates, placental and fetal development. MAIN RESULTS AND THE ROLE OF CHANCE: Western blot analysis revealed the presence of VEGFI2I and 165 isoforms in human uterine fluid. Time-lapse microscopy analysis revealed that VEGF (n = 22) and VEGFI2I (n = 23) treatment significantly reduced the preimplantation mouse embryo time to cavitation (P < 0.05). VEGF and VEGF165 increased both blastocyst cell number (VEGF n = 27; VEGF165 n = 24: P < 0.00I) and outgrowth (n = I5/treatment: 66 h, P < 0.00I; 74,90,98 and 114 h, P < 0.0I) on fibronectin compared with control. Furthermore, rhVEGF improved implantation rates and enhanced fetal limb development (P < 0.05). LIMITATIONS, REASONS FOR CAUTION: Due to the nature of this work, embryo development and implantation was only examined in the mouse. WIDER IMPLICATIONS OF THE FINDINGS: The absence or reduction in levels of VEGF during the preimplantation period likely affects key events during embryo development, implantation and placentation. The potential for improvement of clinical IVF outcomes by the addition of VEGF to human embryo culture media needs further investigation. STUDY FUNDING/COMPETING INTEREST(S): This study was supported by a University of Melbourne Early Career Researcher Grant #601040, the NHMRC (L.A.S., Program grant #494802; Fellowship #1002028; N.J.H., Fellowship # 628927; J.E.; project grant #1047756) and L.A.S., Monash IVF Research and Education Foundation. N.K.B. was supported byan Australian Postgraduate Award. Work at PHI-MIMRInstitute was also supported by the Victorian Government's Operational Infrastructure Support Program. There are no conflicts of interest to declare.


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