Birth Weight, Adult Weight And Podocyte Depletion.
Funder
National Health and Medical Research Council
Funding Amount
$796,252.00
Summary
A major role of our kidneys is to filter our blood. A key cell type in our kidney filters is an octopus-shaped cell known as the podocyte. If we are not born with enough podocytes, or if the filters grow too large after birth due for example to excessive weight gain, the podocytes cannot adequately filter the blood, and this can lead to kidney disease. We will measure podocyte endowment at birth, and assess the effects of weight gain and loss after birth on podocyte features and kidney health.
Preclinical Development Of TLR Signalling Inhibitors For Prevention Of Preterm Labour And Fetal Inflammatory Injury
Funder
National Health and Medical Research Council
Funding Amount
$690,821.00
Summary
Preterm birth affects 8% of Australian births and is a major cause of infant and child health problems. Therapies to prevent or delay prematurity are urgently required. This study will investigate new drugs that suppress the triggers of preterm labour. We will evaluate drug effects in mice and human placental tissue, to demonstrate safety and fetal protection from inflammatory injury that occurs with prematurity. Successful completion of the study is expected to lead to clinical trials in women.
Priming The Maternal Immune Response To Resist Inflammatory Disorders Of Pregnancy
Funder
National Health and Medical Research Council
Funding Amount
$920,972.00
Summary
Preeclampsia and preterm birth are common conditions affecting >15 million pregnancies annually. An underlying cause is the mother’s immune response, which can react adversely to the fetus causing an inflammatory reaction. This project seeks to find ways to strengthen the maternal immune system beginning before conception. The work will provide insights upon which to advise intending parents and will inform development of new treatments options to protect susceptible women.
Environmental Control of Developmental Plasticity of Vertebrate Cardio-Pulmonary Systems. Our research will generate the first comprehensive picture of how environmental conditions are transduced to control the development of the vertebrate respiratory and cardiovascular systems over the perinatal period. The research will demonstrate how physiological systems are modified and hence evolve. Moreover, understanding the developmental pathology in embryos induced by changing environmental condition ....Environmental Control of Developmental Plasticity of Vertebrate Cardio-Pulmonary Systems. Our research will generate the first comprehensive picture of how environmental conditions are transduced to control the development of the vertebrate respiratory and cardiovascular systems over the perinatal period. The research will demonstrate how physiological systems are modified and hence evolve. Moreover, understanding the developmental pathology in embryos induced by changing environmental conditions (especially exposure to steroid-like pollutants) is crucial to support breeding programs of endangered species and may improve veterinary and medicinal treatment of premature animals and humans. This multi-disciplinary, international collaboration provides an international training ground and two-way exchange of students and postdocs.Read moreRead less
Coping With Pressure: Respiratory Biology of Marine Mammals. Many marine mammals undergo severe, protracted lung collapse during deep dives. They also exhibit prolonged periods of apnea during sleep. In humans, lung collapse and sleep apnea both represent severe respiratory dysfunction. Pulmonary surfactant, a complex mixture that lines the lung, stabilises the lungs in terrestrial mammals, preventing lung collapse. Here, we propose a comprehensive examination of respiratory function in marine m ....Coping With Pressure: Respiratory Biology of Marine Mammals. Many marine mammals undergo severe, protracted lung collapse during deep dives. They also exhibit prolonged periods of apnea during sleep. In humans, lung collapse and sleep apnea both represent severe respiratory dysfunction. Pulmonary surfactant, a complex mixture that lines the lung, stabilises the lungs in terrestrial mammals, preventing lung collapse. Here, we propose a comprehensive examination of respiratory function in marine mammals. This study will significantly advance our knowledge of the diving physiology of Australian marine mammals. A detailed examination of the respiratory and surfactant systems of marine mammals may also reveal adaptations that enable these animals to endure sleep apnea and lung collapse.Read moreRead less
A new paradigm for surfactant composition and function - how do lungs cope with stress? Our research will increase the understanding of the scope of change and precise molecular interactions occurring in the surfactant lipids and proteins of animals under physiological stress. The novel insights will improve the treatment of lung diseases (such as chronic obstructive pulmonary disease and acute lung injury). We have formed a team of international surfactant researchers all experts in state-of-th ....A new paradigm for surfactant composition and function - how do lungs cope with stress? Our research will increase the understanding of the scope of change and precise molecular interactions occurring in the surfactant lipids and proteins of animals under physiological stress. The novel insights will improve the treatment of lung diseases (such as chronic obstructive pulmonary disease and acute lung injury). We have formed a team of international surfactant researchers all experts in state-of-the-art chemical and biophysical technologies relating to surfactant. These collaborations will bring new technological applications to Australia and provide outstanding cross-disciplinary training for postgraduate students and research staff at the interface between animal physiology, biophysical chemistry and respiratory medicine.Read moreRead less
Epigenetic Regulation of Fetal and Placental Development. Perturbations of the environment of the early embryo can alter fetal and placental growth. The mechanisms by which the early environment alters development of the fetal adrenal-placental axis are unknown. This axis coordinates fetal growth and development to ensure a successful transition from intra- to extrauterine life. We propose a novel role for the epigenetic regulation of imprinted genes in the activation of the fetal adrenal and in ....Epigenetic Regulation of Fetal and Placental Development. Perturbations of the environment of the early embryo can alter fetal and placental growth. The mechanisms by which the early environment alters development of the fetal adrenal-placental axis are unknown. This axis coordinates fetal growth and development to ensure a successful transition from intra- to extrauterine life. We propose a novel role for the epigenetic regulation of imprinted genes in the activation of the fetal adrenal and in placental growth and differentiation. This proposal extends the 'genetic conflict' hypothesis of the role of imprinted genes beyond its current focus on the regulation of fetal nutrient supply and demand.Read moreRead less
Defining how serotonin regulates gut motility. This project aims to deepen knowledge of gastrointestinal physiology, and reveal the mechanisms by which the major gastrointestinal signalling molecule, serotonin, regulates gut peristalsis. Almost all of the serotonin in our body is made in the gastrointestinal tract where it controls many functions, including how our gut wall contracts during peristalsis. Proper control of gut peristalsis and the transit of material through our bowel is important ....Defining how serotonin regulates gut motility. This project aims to deepen knowledge of gastrointestinal physiology, and reveal the mechanisms by which the major gastrointestinal signalling molecule, serotonin, regulates gut peristalsis. Almost all of the serotonin in our body is made in the gastrointestinal tract where it controls many functions, including how our gut wall contracts during peristalsis. Proper control of gut peristalsis and the transit of material through our bowel is important for our health. This project expects to define how serotonin controls peristalsis, where in the bowel this serotonin comes from, how serotonin communicates with the nervous system in our gastrointestinal tract, and how the cells that synthesise gut serotonin respond to contraction to trigger the secretion of serotonin.Read moreRead less
Examining the links between obesity and insulin resistance. Obesity prevalence is rapidly increasing in Australia and contributes to the onset of many chronic diseases, such as diabetes, heart disease and cancer. This project will examine how obesity contributes to disease risk and how modifying nutrient delivery and other interventions that protect from cellular stress reduces these risks.
Periconceptual Foundations For A Healthy Start To Life.
Funder
National Health and Medical Research Council
Funding Amount
$11,022,802.00
Summary
Preconception and early pregnancy is a critical time for a women's health and that of her future child. New research suggests that a woman's genetic potential, her lifestyle and the physical and socioeconomic environment in which she lives, and her biological and social relationship with her male partner, all impact on the long term health of her baby. Abnormal events around the time of conception and in early pregnancy can predispose a newborn to later occurrence, in adult life, of conditions i ....Preconception and early pregnancy is a critical time for a women's health and that of her future child. New research suggests that a woman's genetic potential, her lifestyle and the physical and socioeconomic environment in which she lives, and her biological and social relationship with her male partner, all impact on the long term health of her baby. Abnormal events around the time of conception and in early pregnancy can predispose a newborn to later occurrence, in adult life, of conditions including heart disease, diabetes, obesity and stroke. These adverse events originate in the way that eggs and sperm develop, the uterus is prepared for implantation, the attachment of the early embryo to the lining of the uterus and subsequent growth of the placenta. This Program will study the early life events that promote or limit development of a baby's true potential for successful and healthy life. A better understanding of how lifestyle and environment interact with genes and biology to facilitate optimal growth of the fetus will underpin new preventative measures and therapeutic treatments for infertility, miscarriage and other reproductive disorders. The knowledge gained will inform health policy and clinical practise to improve reproductive health in all Australian women and promote healthy development in all Australian children. The team of researchers is a world-class group of clinicians, scientists and epidemiologists who have made major contributions to our understanding of this area. This team will interface with clinics and hospitals that engage with women prior to and during pregnancy, while having the influence to alter clinical and health practices as well as public health policies. The team will utilize the latest, most technologically advanced laboratory methods and clinical skills, including gene profiling, imaging of early pregnancy, randomised clinical trials and access to the best epidemiological and statistical assessments.Read moreRead less