The failure of an embryo to implant is a major cause of infertility. While IVF is an important intervention, still three quarters of embryos do not implant. We have identified new factors that we believe are critically important in embryo attachment to the womb. We will now prove whether these factors are critical and therefore provide the evidence required to begin to develop novel treatment options for infertility.
Mechanisms Of DNA Damage-induced Oocyte Apoptosis And Infertility: Examination Of The Role Of BH3-only Proteins.
Funder
National Health and Medical Research Council
Funding Amount
$495,755.00
Summary
Our ability to prevent or postpone menopause following cancer treatment, is of great importance for female fertility, health and quality of life. We will demonstrate that the death gene of the Bcl-2 family of life and death genes, Puma, is responsible for killing female germ cells after damaging treatment. When Puma is absent, sufficient high quality germ cells are able to survive damaging treatment, allowing normal fertility in mice. The quality of these rescued germ cells will be analysed in d ....Our ability to prevent or postpone menopause following cancer treatment, is of great importance for female fertility, health and quality of life. We will demonstrate that the death gene of the Bcl-2 family of life and death genes, Puma, is responsible for killing female germ cells after damaging treatment. When Puma is absent, sufficient high quality germ cells are able to survive damaging treatment, allowing normal fertility in mice. The quality of these rescued germ cells will be analysed in detail.Read moreRead less
Follicle-stimulating hormone (FSH) is vital for egg development, female fertility and health, and is widely used in assisted reproduction technology. But high levels of FSH are associated with premature infertility and menopause, and may lead to diseases like ovarian cancer. Understanding the biological pathways activated by elevated FSH may lead to new treatments for infertility and ovarian diseases (eg. cancer), as well as advancing new strategies for contraception.
Proprotein Convertase 6: A Master Regulator For The Development Of Endometrial Receptivity And Embryo Implantation
Funder
National Health and Medical Research Council
Funding Amount
$424,846.00
Summary
Implantation of an embryo into the womb (uterus) is a key step for human development, without which the embryo will only be able to develop to a very early stage the blastocyst stage (about 8 days after fertilization). For successful implantation, the uterus has to prepare itself to be receptive; this preparation is crucial as an ill-prepared uterus will reject the embryo. Such implantation failure is a major cause of early pregnancy loss and female infertility; ~30% of pregnancies end in sponta ....Implantation of an embryo into the womb (uterus) is a key step for human development, without which the embryo will only be able to develop to a very early stage the blastocyst stage (about 8 days after fertilization). For successful implantation, the uterus has to prepare itself to be receptive; this preparation is crucial as an ill-prepared uterus will reject the embryo. Such implantation failure is a major cause of early pregnancy loss and female infertility; ~30% of pregnancies end in spontaneous abortion. How the uterus becomes receptive is not well understood. Our recent research has identified that proprotein convertase 6 (PC6), an important master switch responsible for activating other proteins, is tightly regulated in the uterus during its preparation for receptivity and critical for implantation. This project will examine how PC6 acts in the human uterus to make it receptive, by identifying the factors that PC6 controls and how this controlling works. We will use a cell culture model with cells isolated from human term placenta. In addition, there is no means of readily testing whether the uterus is receptive owing to the lack of reliable biomarkers. In this study we will determine whether PC6 (and those molecules controlled by PC6) are potential biomarkers for uterine receptivity. This will be achieved by examining uterine biopsies and uterine washings collected from proven fertile volunteers and patients of proven endometrial infertility. This study will greatly enhance our understanding of how a critical molecule, PC6, acts in the uterus for implantation. The results will provide new knowledge regarding uterine preparation for implantation. The study has considerable implication for developing much-needed diagnostic and therapeutic tools for uterine receptivity and infertility.Read moreRead less
Focus On The Uterus: Basic And Translational Research Strategies To Address Key Issues In Women’s Health. Fertility, Infertility, Endometrial And Pregnancy Disorders.
Funder
National Health and Medical Research Council
Funding Amount
$1,085,790.00
Summary
My work focuses on the endometrium, the lining of the uterus, into which the embryo implants to establish pregnancy. When the endometrium does not function correctly, the woman is usually infertile. Other disorders of the endometrium include endometriosis, menstrual bleeding problems and cancer. My studies have defined the molecular basis for much endometrial dysfunction. I am now developing non-invasive tests for these problems and rationales for new treatments.
Cumulus Cell Invasive Migration: Clearing A Path For The Oocyte
Funder
National Health and Medical Research Council
Funding Amount
$409,684.00
Summary
Ovulation is the process by which the egg is released from a female�s ovary, but it is not known how this process is controlled. We found that cells surrounding the egg are motile and similar to cancer cells; thus we hypothesize that this enables the egg to _invade� its way out of the ovary. We will test this idea in mice and determine whether similar processes are happening in women. The results will provide new information about how to stop ovulation and aid women who experience infertility.
Critical Role Of Proprotein Convertase 6 In Human Uterine Epithelium For Embryo Implantation And Clinical Implications
Funder
National Health and Medical Research Council
Funding Amount
$643,899.00
Summary
Implantation of an embryo into the uterus is a key step for human development. Implantation failure causes embryonic death, pregnancy loss and infertility. Conversely, preventing implantation is an attractive approach for contraception. We have established that proprotein convertase 6 (PC6) is a master regulator of implantation. We will investigate how PC6 works in a woman's uterus, and how we can use this knowledge to improve implantation in IVF and to develop PC6 drugs for new contraceptives.
Role Of The Anaphase-Promoting Complex Activator Cdh1 In Oocyte Maturation And Meiotic Aneuploidy
Funder
National Health and Medical Research Council
Funding Amount
$526,878.00
Summary
Eggs containing an incorrect number of chromosomes are described as aneuploid. This project sets out to examine the molecular causes of aneuploidy and why it increases with female age. We focus on the protective role of the protein Cdh1 in this process. The outcome would be to better understand the origins of aneuploidy so as to find methods of decreasing it as women age. This is highly significant given aneuploidy is the leading cause of early embryo loss and produces Down Syndrome babies.
Xenobiotics - Oxidative Stress In The Mammalian Ovary
Funder
National Health and Medical Research Council
Funding Amount
$377,922.00
Summary
Synthetic chemicals called xenobiotics in the environment are capable of interfering with female fertility. Xenobiotics can trigger oocyte depletion of the ovary and infertility. Exhaustion of the oocyte population results in the menopause, loss of ovarian hormones and profoundly affects female health through increasing susceptibility to heart and bone disease. This research will characterise xenobiotic effects on the ovary and will lead to significant advances in reproductive healthcare.
Seminal Fluid As A Determinant Of Reproductive Health In Women
Funder
National Health and Medical Research Council
Funding Amount
$511,294.00
Summary
Healthy reproductive function is essential for conception and pregnancy. We have discovered that male seminal fluid can influence the female reproductive system after coitus. This project will define the actions of seminal fluid in the cervix and uterus, and the impact on fertility and defence against sexually transmitted infection. The findings will provide new insight on how men contribute to reproductive health in women, and lead to improved treatments for infertility and miscarriage.