Endometrial Receptivity For Embryo Implantation: Proprotein Convertase 6 And Plasma Membrane Remodeling
Funder
National Health and Medical Research Council
Funding Amount
$631,344.00
Summary
Implantation of an embryo into the uterus is a key step in establishing pregnancy; it requires a receptive uterus (fertile soil) and a healthy embryo (seed). Implantation failure causes pregnancy loss and infertility, and is also a major limiting factor in IVF. We have established that proprotein convertase 6 (PC6) is a master regulator of uterine receptivity for implantation. We will investigate how PC6 works in a woman’s uterus, and how we can use this knowledge to improve implantation in IVF.
Successful establishment of pregnancy requires a viable embryo and a receptive uterus. The contribution that reduced uterine receptivity makes to human infertility is unknown. IVF patients with implantation failure will be investigated using different approaches to identify gene pathways that are altered in reduced uterine receptivity. This study could lead to a clinical test for uterine receptivity and help to improve fertility treatment options for women with repeated implantation failure.
Decidual-trophoblast Interactions Critical For Optimal Pregnancy Outcomes
Funder
National Health and Medical Research Council
Funding Amount
$612,927.00
Summary
This proposal seeks to identify the critical maternal and embryonic placental factors that regulate the formation of a healthy placenta and thus a healthy pregnancy and baby. Currently there is no way of identifying whether the placenta is forming adequately. The proposed studies are a necessary first step in identifying therapeutic targets for diseases associated with a poorly formed placenta, such as preeclampsia.
Reappraisal Of The Mechanisms Underlying Implantation Success Or Failure
Funder
National Health and Medical Research Council
Funding Amount
$750,755.00
Summary
Infertility affects 1:6 Australian couples; these seek help. However, for each IVF cycle, there is only ~18.5% chance of a live birth, significantly due to failure of embryo implantation. We discovered nano-vesicles in the uterine cavity, that are released from the womb lining and taken up by the pre-implantation embryo to improve its implantation potential. We will determine how this extracellular environment can enhance implantation success and circumvent/management of infertility.
The Role Of Stem-progenitor Cells In Regeneration Of Mouse Endometrium.
Funder
National Health and Medical Research Council
Funding Amount
$311,938.00
Summary
The endometrium (lining of the uterus) undergoes breakdown and re-growth each month as part of the menstrual cycle. This restorative process is not well understood. For the first time stem cells have been identified within human endometrium that are likely to be responsible for its remarkable regeneration. The aim of this project is to identify stem cells within the mouse endometrium, to use as a model to understand how the endometrium restores each month after menstruation.
Changes In Protein Glycosylation Promote Endometrial Receptivity Leading To Successful Implantation
Funder
National Health and Medical Research Council
Funding Amount
$489,198.00
Summary
~15% of couples are unable to have children. Their reliance on reproductive technologies (eg, IVF) has increased 4 fold over the past decade. One reason for infertility is that the lining of the uterus (endometrium) is not able to allow an embryo to attach – a key event in establishing healthy pregnancy. There is no test to assess whether the endometrium is ‘receptive’ to an embryo. We will develop special assays for a test and provide a basis for treatment without recourse to IVF.
I am a reproductive biologist focused on women’s reproductive health. I am studying the reasons why some women are infertile have spontaneous abortions and pregnancy complications such as pre-eclampsia. My research will define the roles of molecules that are critical in the establishment of pregnancy and the formation of a health placenta and therefore a healthy baby.