As women age, the quality of their eggs decline and their chance of having a healthy baby plummets. The accumulation of DNA damage within the egg, and the reduced ability to repair this damage, may be one cause of compromised reproductive success in older women. This project will investigate the ability of eggs to repair DNA damage during maternal aging and will explore the importance of DNA repair to fertility and the transmission of high quality genetic material to their offspring.
Examining The Importance Of DNA Damage Repair For Oocyte Quality, Female Fertility And Offspring Health
Funder
National Health and Medical Research Council
Funding Amount
$318,768.00
Summary
As women age, the quality of their eggs decline and their chance of having a healthy baby plummets. The accumulation of DNA damage within the egg, and the reduced ability to repair this damage, may be one cause of compromised reproductive success in older women. This project will investigate the ability of eggs to repair DNA damage during maternal aging and will explore the importance of DNA repair to fertility and the transmission of high quality genetic material to their offspring.
Epigenetic Regulation Of Cell Lineage Differentiation In The Early Embryo
Funder
National Health and Medical Research Council
Funding Amount
$440,983.00
Summary
Exposure of embryos to a range of stresses can increase the predisposition to chronic diseases of adulthood. Stressing embryos at critical stages of development cause errors in reorganization of the nucleus that are required for normal gene expression. These errors are propagated into adulthood. This project will map the normal processes of nuclear reorganization and define how stress to the embryo changes this process, allowing an understanding of the causes of some important chronic diseases.
Epigenetic Reprogramming Within The Pluripotent Lineage Of The Early Embryo
Funder
National Health and Medical Research Council
Funding Amount
$663,050.00
Summary
Cells of the early embryo have the remarkable capacity to form all of the different tissues and organs in the body. This property requires re-organisation of the embryo’s genetic material in a manner analogous to re-booting a computer. This project will define the properties of this rebooting process. This information will allow much better strategies for building spare parts for regenerative medicine and provide the information required to reduce the incidence of inborn defects.
Female fertility and age at menopause are determined by the number and quality of eggs stored in the ovaries. For unknown reasons, two-thirds of all eggs die soon after they are made. Furthermore, a serious side effect of cancer treatment is egg death resulting in infertility and early menopause. I am unravelling the genes involved in determining whether an egg will live or die. This understanding will help us develop novel strategies to preserve fertility during aging and cancer treatment.
Determing Whether Breast Stem Cells Mediate The Risk Of Developing Breast Cancer
Funder
National Health and Medical Research Council
Funding Amount
$433,894.00
Summary
Whilst the outcomes for women with breast cancer have improved significantly, the incidence of breast cancer continues to increase. Research needs to focus on prevention now to try to stop the increase. Apart from age, our reproductive behaviour is the largest risk factor for breast cancer. If a woman does not bear children, or has them after 35 years of age, she is at 25-50% increased risk of breast cancer. We would like to determine whether the breast stem cells play a role in this and why.
Epigenetics Of Human Placental Development And Pregnancy-associated Disease.
Funder
National Health and Medical Research Council
Funding Amount
$85,526.00
Summary
Mounting evidence suggests that epigenetic changes such as DNA methylation during pregnancy may play an important role in adverse pregnancy outcomes and modulation of disease risk later in life. We have identified a range of distinct DNA methylation events in human placental cells that are likely to play a role in both normal human placentation and aspects of placental dysfunction. We believe that disruption of this epigenetic profile contributes to adverse pregnancy outcomes
Improving Oocyte Mitochondrial DNA Copy Number To Enhance Female Reproductive Capacity.
Funder
National Health and Medical Research Council
Funding Amount
$670,867.00
Summary
Eggs with too few copies of mitochondrial DNA either fail to fertilise or arrest during early development. By supplementing eggs with mitochondrial DNA, we have been able to enhance embryo quality and gene expression profiles. By breeding the offspring derived from eggs given mitochondrial supplementation, we will determine if they and their progeny meet normal developmental milestones, regulate the transmission of mitochondrial DNA appropriately, and are healthy and fertile.
Characterisation Of The Pathways Leading To DNA Demethylation In The Embryo.
Funder
National Health and Medical Research Council
Funding Amount
$634,573.00
Summary
Complex living creatures like humans have specialised cells that co-operate to form important organs like brains and reproductive organs. Specialised cells have specific genes locked on or off. When a sperm fertilises an egg, all the switches of the genes that are locked on or off get reset to neutral so that the fertilised egg can divide and grow into all cell types in the body. We do not know how this resetting happens in the egg. This project seeks to discover the mechanism involved.